Daniele Cusi

Abstract: Vascular calcification and accelerated atherosclerosis are major causes of death in hemodialysis (HD) patients. Epigenetic mechanisms of gene regulation may be crucial determinants of cellular behavior in uremic conditions, determining an increased risk of cardiovascular morbidity and mortality. The common polymorphisms on different gene promoters have been related to increased coronary artery calcification and associated with cardiovascular outcome in HD population. In this review, we reported the gene polymorphisms of different proteins as negative prognostic risk factors for all-cause mortality in HD patients, independent of traditional risk factors. These data may have important implications for better understanding the pathogenesis of the increased mortality in this population.

Abstract: Most common human traits and diseases have a polygenic pattern of inheritance: DNA sequence variants at many genetic loci influence the phenotype. Genome-wide association (GWA) studies have identified more than 600 variants associated with human traits, but these typically explain small fractions of phenotypic variation, raising questions about the use of further studies. Here, using 183,727 individuals, we show that hundreds of genetic variants, in at least 180 loci, influence adult height, a highly heritable and classic polygenic trait. The large number of loci reveals patterns with important implications for genetic studies of common human diseases and traits. First, the 180 loci are not random, but instead are enriched for genes that are connected in biological pathways (P = 0.016) and that underlie skeletal growth defects (P < 0.001). Second, the likely causal gene is often located near the most strongly associated variant: in 13 of 21 loci containing a known skeletal growth gene, that gene was closest to the associated variant. Third, at least 19 loci have multiple independently associated variants, suggesting that allelic heterogeneity is a frequent feature of polygenic traits, that comprehensive explorations of already-discovered loci should discover additional variants and that an appreciable fraction of associated loci may have been identified. Fourth, associated variants are enriched for likely functional effects on genes, being over-represented among variants that alter amino-acid structure of proteins and expression levels of nearby genes. Our data explain approximately 10% of the phenotypic variation in height, and we estimate that unidentified common variants of similar effect sizes would increase this figure to approximately 16% of phenotypic variation (approximately 20% of heritable variation). Although additional approaches are needed to dissect the genetic architecture of polygenic human traits fully, our findings indicate that GWA studies can identify large numbers of loci that implicate biologically relevant genes and pathways.

Abstract: ACE inhibitors and angiotensin receptor blockers confer renal protection in proteinuric nephropaties, but recently worsening of renal outcomes has been reported in non-proteinuric patients treated with a combination of ramipril and telmisartan, compared to ramipril only. In view of these apparently contradictory data, the review wants to shed light on treatment modalities of patients with hypertension and chronic kidney disease.

Abstract: Adducins are cytoskeletal actin-binding proteins (alpha, beta, gamma) that function as heterodimers and heterotetramers and are encoded by distinct genes. Experimental and clinical evidence implicates alpha- and beta-adducin variants in hypertension and renal dysfunction. Here, we have addressed the role of alpha- and beta-adducin on glomerular function and disease using beta-adducin null mice, congenic substrains for alpha- and beta-adducin from the Milan hypertensive (MHS) and Milan normotensive (MNS) rats and patients with IgA nephropathy. Targeted deletion of beta-adducin in mice reduced urinary protein excretion, preceded by an increase of podocyte protein expression (phospho-nephrin, synaptopodin, alpha-actinin, ZO-1, Fyn). The introgression of polymorphic MHS beta-adducin locus into MNS (Add2, 529R) rats was associated with an early reduction of podocyte protein expression (nephrin, synaptopodin, alpha-actinin, ZO-1, podocin, Fyn), followed by severe glomerular and interstitial lesions and increased urinary protein excretion. These alterations were markedly attenuated when the polymorphic MHS alpha-adducin locus was also present (Add1, 316Y). In patients with IgA nephropathy, the rate of decline of renal function over time was associated to polymorphic beta-adducin (ADD2, 1797T, rs4984) with a significant interaction with alpha-adducin (ADD1, 460W, rs4961). These findings suggest that adducin genetic variants participate in the development of glomerular lesions by modulating the expression of specific podocyte proteins.

Abstract: Previous studies have demonstrated a gain-of-function of the calcium-sensing receptor (CASR) gene R990G polymorphism. In this study, activation of the R990G CASR stably transfected in HEK-293 (HEK-990G) cells compared with that of the common variant (HEK-wild-type (WT)) by increasing concentrations of CaCl(2) or calcimimetic R-568 caused significantly higher intracellular free calcium concentration ([Ca(2+)](i)) and lower Ca-EC(50). Moreover, the [Ca(2+)](i) oscillation percentage was higher with a larger sinusoidal pattern in HEK-990G. R-568 induced a shift of the oscillatory events from 4 to 2  mmol/l extracellular calcium concentration in HEK-990G cells and increased the sinusoidal oscillation percentage in comparison with HEK-WT. Preincubation with thapsigargin or phospholipase C inhibitors completely prevented oscillations in both cell lines, consistent with the involvement of the inositol trisphosphate pathway, while protein kinase C inhibitor prevented oscillations in HEK-WT cells only. Finally, CaCl(2) and R-568 caused a significant increase in p44/42 extracellular signaling-regulated kinase phosphorylation, with the mean Ca-EC(50) values being significantly lower in HEK-990G. Our findings demonstrated that the 990G allele is associated with high sensitivity to R-568, which provided new evidence for differences in CASR signaling.

Abstract: It has recently emerged that endothelial dysfunction is an early step in the development of atherosclerosis and is mainly characterised by a reduction in the bioavailability of nitric oxide. All of the traditional cardiovascular (CV) risk factors (dyslipidemia, arterial hypertension, hyperglycemia and diabetes) are associated with endothelial dysfunction, and oxidised low-density lipoproteins, the renin-angiotensin axis and insulin resistance play important roles in the pathogenesis of impaired endothelial function. The increased expression of adhesion molecules and pro-inflammatory cytokines leads to abnormal endothelium-dependent vasodilation which could be investigated using vasoreactivity tests such as flow-mediated dilation in the brachial artery. Recently, new evidences showed that the immune system plays an important role in the pathogenesis of endothelial dysfunction and atherosclerosis with a particular regard towards autoimmunity. The high prevalence of the atherosclerotic process in systemic autoimmune diseases supports the hypothesis of the immune pathogenesis. Evaluating coronary microvascular dysfunction by means of transthoracic echocardiography with non-invasive coronary flow reserve assessment is particularly interesting as it could detect preclinical impairment of coronary microvascular function. The discovery that the mechanisms responsible for endothelial damage have a genetic basis could improve the approach to CV diseases. This review summarises the most important aspects of the pathogenesis and development of endothelial dysfunction, with particular attention to the role of traditional CV risk factors, the usefulness of vasoreactivity tests, and the future perspectives opened by genetic studies.

Abstract: Oral anticoagulant therapy (OAT) in patients with atrial fibrillation during dialitic treatment or suffering from severe chronic renal failure is not easy to mange. OAT interferes with the mechanisms of protection and prevention of vascular calcification and increases the risk of bleeding and of the development of vascular calcifications typical of these patients. The aim of this report is to highlight the complexity of the management and therapy in uremic patients, discussing the importance of OAT in order to prevent thrombo-embolic complications during atrial fibrillation episodes.

Abstract: BACKGROUND: In renal transplant recipients (RTR) an increased risk to develop cardiovascular injury is present. Transthoracic Doppler echocardiographic assessment of coronary flow velocity reserve (CFVR), a sensitive and minimally invasive technique, was recently employed to detect both macrovascular and microvascular coronary artery disease (CAD) in different clinical settings. The prevalence of coronary involvement in young adult RTR is still unknown. The aim of the study was to investigate the presence of early cardiovascular damage in asymptomatic young adult RTR. METHODS: Transthoracic Doppler echocardiographic-derived CFVR and common carotid intima-media thickness (IMT) were assessed in 25 asymptomatic young adult RTR (mean age 25.7+/-7.0 years; range 17.3-43.9) without CAD and 25 healthy controls. RESULTS: CFVR was lower in young adult RTR compared to controls (2.8+/-0.6 vs. 3.5+/-0.8; P<0.001), meanwhile left ventricular wall motion and common carotid IMT were comparable in both groups. We found a negative correlation between CFVR and age (r=-0.50; P=0.018) and months on dialysis (r=-0.54; P<0.01). CONCLUSIONS: Young adult RTR showed a reduced CFVR reflecting an impaired coronary microcirculation, which is significantly related to the age and duration of dialysis; coronary microvascular damage is detectable in the absence of changes in common carotid IMT. Non-invasive evaluation of CFVR by transthoracic stress echocardiography could be a reliable method for identification of early coronary microvascular involvement in young adult RTR.

Abstract: The Milan hypertensive rat strain (MHS) is a genetic strain in which cardiovascular phenotypes seem to be dependent, at least in part, on adducin gene polymorphisms. The aim of our study was to evaluate the structure, contractile responses and endothelium-dependent vasodilation in mesenteric small resistance arteries in 12-week-old MHS, (n=7), age-matched Milan normotensive rats (MNS, n=7) and congenic strains in which the DNA segments carrying the alpha-adducin locus from the MHS have been introgressed into the MNS (MNA, n=7). Systolic blood pressure (tail cuff) and left ventricular weight to body weight were measured. Mesenteric small arteries were dissected and mounted on a micromyograph; the media:lumen ratio was then calculated. Concentration-response curves to acetylcholine and to norepinephrine (NE) were created. Systolic blood pressure was significantly increased in the MHS and MNA strains compared with the MNS. No significant difference in mesenteric small resistance artery structure was observed among the groups; however, a slightly more elevated media:lumen ratio was observed in MNA compared with the MNS. In contrast, left ventricular weight to body weight was significantly increased and ACH-induced dilatation was significantly impaired in the MHS and in MNA compared with MNS. The concentration-response curve to NE in the MHS showed significantly reduced sensitivity to NE; however, maximum contraction was increased in the MHS vs. the other groups. The MHS presents cardiac (but not vascular) remodeling, endothelial dysfunction and a peculiar contractile response to NE, compared with the other groups. The systolic blood pressure increase and trend to vascular remodeling in MNA support the pathogenic role of alpha-adducin.

Abstract: BACKGROUND: Renal replacement therapies (RRTs) produce a partial loss of antioxidants and formation of reactive oxygen species (ROS), which are a major factor involved in alterations of plasma membrane fluidity and endothelial activation, but their role on plasma membrane fluidity in vivo is still unclear. We compared erythrocyte plasma membrane fluidity, ROS and total plasma antioxidant defenses (Lagtime) in aged patients with chronic renal failure (CRF) on conservative treatment, peritoneal dialysis (PD) and hemodialysis (HD) before (HD-pre) and after (HD-post) a treatment, to evaluate the role of different RRTs on oxidative stress and plasma membrane fluidity in aged patients. METHODS: We assessed erythrocyte plasma membrane fluidity, plasma lipid hydroperoxide levels and Lag-Time in 11 CRF patients on conservative treatment, 15 on PD, 12 on HD and 30 healthy controls. RESULTS: Hydroperoxides were higher in CRF, PD and HD-post, whereas Lag-time was significantly lower in PD, CRF and in HD-post. CRF, PD and HD-pre also had higher membrane fluidity (rsDPH), compared with HD-post and controls. CONCLUSION: These findings are in keeping with the hypothesis that the Lag-time decrease is due not only to the effect of the RRT but also to the uremic state, and that PD patients undergo a chronic, greater oxidative stress. Contrary to expectations, all patients showed greater erythrocyte membrane fluidity, which can be attributed to uremic toxicity. These observations reinforce the hypothesis that oxidative stress is an intrinsic component of this disease state and indeed is already present also in CRF not yet requiring RRT.

Abstract: BACKGROUND: Some degree of cardiovascular disease should be suspected in young adults who have been paediatric renal transplant recipients also if no systematic data collection is routinely performed in clinical setting. The aim of our work was to evaluate the degree of cardiovascular damage in these young patients, using a minimally invasive technique. We then evaluated coronary flow reserve (CFR) and carotid intima-media thickness (IMT) in 25 patients (13 males, median age 23.7 years). METHODS: Coronary flow velocity on the left anterior descending coronary artery was assessed by transthoracic echocardiography, before and after dipyridamole, after standard echocardiography. CFR was compared with that of a small control group (n = 16; median age 25 yrs). RESULTS: In this relatively young sample, mean CFR was 2.8 +/- 0.6 (median 2.75), and half of the patients had reduced coronary reserve (P = 0.01). Mean IMT (0.48 +/- 0.08 mm) was only slightly, though significantly larger compared with the reference standard (P < 0.05) but was significantly thinner in normotensive than in hypertensive patients (0.42 +/- 0.06 vs 0.49 +/- 0.05 mm, P < 0.05). The time on dialysis prior to transplantation, hypertension and age at the time of CFR evaluation affect CFR. IMT did not correlate with CFR. CONCLUSIONS: CFR and IMT abnormalities are common in young transplant recipients, in spite of the fact that our paediatric population has much less of the atherosclerotic 'legacy' common to adult patients.

Abstract: An association between the R990G polymorphism of the CaSR gene, coding for calcium-sensing receptor, and primary hypercalciuria was found in kidney stone formers. To confirm this relationship, we investigated hypercalciuric women without stones and studied the effect of CaSR gene in human embryonic kidney cells (HEK-293). We genotyped for CaSR A986S, R990G, and Q1011E polymorphisms, 119 normocalciuric and 124 hypercalciuric women with negative history of kidney stones. Homozygous (n=2) or heterozygous (n=21) women for the 990G allele considered as one group had an increased risk to be hypercalciuric (odds ratio=5.2; P=0.001) and higher calcium excretion (P=0.005) in comparison with homozygous women for the 990R allele (n=220). HEK-293 cells were transfected with the variant allele at the three CaSR gene polymorphisms and with the most common allele with no variants. The transient increment of intracellular calcium caused by the stepwise increase of extracellular calcium was evaluated in stable transfected cells loaded with fura-2 AM. The extracellular calcium concentration producing the half-maximal intracellular calcium response was lower in HEK-293 cells transfected with the 990G allele than in those transfected with the wild-type allele (P=0.0001). Our findings indicate that R990G polymorphism results in a gain-of-function of the calcium-sensing receptor and increased susceptibility to primary hypercalciuria.

Abstract: In the past 10 years, many widely accepted concepts relating to aldosterone production and its pathogenetic role have changed. We now know that aldosterone is produced not only by the zona glomerulosa of the adrenal cortex, but also in the heart, blood vessels, kidney and brain; such extra-epithelial production occurs mainly during tissue repair. Also, increased aldosterone levels contribute to vessel inflammation, oxidative stress, endothelial dysfunction and organ damage. As such, aldosterone has a key role in the development of myocardial fibrosis. Anti-aldosterone treatment has proven effective in patients with heart failure. Experimental evidence regarding the role of aldosterone in kidney damage has accumulated. Aldosterone infusion can counteract the beneficial effects of treatment with angiotensin-converting-enzyme inhibitors, causing more-severe proteinuria and an increased number of vascular and glomerular lesions; treatment with aldosterone antagonists can reverse these alterations. Preliminary observations in pilot studies in humans confirm the experimental findings, supporting the hypothesis that aldosterone antagonists are renoprotective in clinical practice. Studies in larger populations with longer follow-up are needed to confirm this theory.

Abstract: Abnormal renal reabsorption of sodium (Na(+)) is likely to play a role in the pathogenesis of salt-sensitivity. In the kidney, chloride channels CLC-Ka (gene CLCNKA) and CLC-Kb (gene CLCNKB) and their subunit Barttin (gene BSND) have important effects on the control of Na(+) and water homeostasis. We investigated if single nucleotide polymorphisms (SNPs) or haplotypes within CLCNKA, CLCNKB and BSND loci affect salt-sensitivity in hypertensive subjects. Associations between blood pressure (BP) change after Na(+)-load and 15 SNPs spanning the length of CLCNKA and CLCNKB and six SNPs spanning the length of BSND were studied in 314 never treated essential hypertensives who underwent an i.v. infusion of saline (300 mm NaCl in 2 l H(2)O in 120 min). Four SNPs were significantly associated with BP change after Na-load. Rs848307 (P = 0.0026) and rs1739843 (P = 0.0023) map upstream the 5' of CLCNKA. Non-coding Rs1010069 (P = 0.0006) and non-synonymous rs1805152 (Thr447Ala; P = 0.0078) map within CLCNKA. Moreover, basal plasma renin activity and heart rate (measured before Na-load) were significantly lower in patients carrying the alleles associated with the larger mean BP increase after Na-load, indicating that such alleles are associated with chronic volume expansion. This study supports the candidacy of CLCNKA as a new susceptibility gene for salt-sensitivity.

Abstract:

Abstract: BACKGROUND: Chronic kidney diseases (CKD) tend to progress to end-stage renal failure (ESRF). As it has been demonstrated that angiotensin-converting enzyme inhibitors (ACEi) have a renoprotective effect in adults with proteinuric disease and may be effective in reducing hyperfiltration and proteinuria, they are also frequently used as anti-progression agents in paediatric patients with CKD despite the lack of data confirming their role in the nephropathies peculiar to children. The aim of this study was to investigate whether patients with hypodysplastic CKD (the most common cause of ESRF in children) treated with ACEi show a significantly slower decline in creatinine clearance (Ccr). METHODS: The analysis was based on the information available in the database of the ItalKid Project, a nationwide, population-based registry of chronic renal insufficiency (CRI) in children in Italy. Of the 822 patients with CRI due to hypodysplasia, we selected those who had been continuously treated with ACEi; the control patients were identified from the same diagnostic group and matched for gender, age and baseline Ccr. RESULTS: Progression was analysed as the slope of Ccr in a total of 164 patients: 41 cases and 123 matched controls. There were no significant between-group differences in blood pressure, duration of follow-up or pre-study slope of Ccr (-0.31+/-2.26 vs -0.33+/-3.58 ml/min/1.73 m2/year; P=NS). After an average of 4.9+/-2.3 years, the mean slope of Ccr was 40% lower in the ACEi-treated cases in comparison to controls (-1.08+/-2.08 vs -1.80+/-4.42 ml/min/1.73 m2/year), however, this difference was not statistically significant (P=0.31). CONCLUSIONS: We conclude that ACEi treatment does not significantly modify the naturally progressive course of hypodysplastic nephropathy in children and further studies are necessary before such treatment is routinely proposed for anti-progression purposes in children with CKD.

Abstract: OBJECTIVES: Endothelium-dependent vasodilatation is impaired in essential hypertension. Besides traditional and emerging cardiovascular risk factors, genetic factors may also promote deleterious alterations of endothelial physiology. The aim of the present study was to investigate the relationship between the 460Trp allele of ADD1 and endothelium-dependent vasodilation in 110 never-treated hypertensive patients. METHODS: Forearm blood flow (FBF) was measured during intra-arterial infusion of acetylcholine (ACh) and sodium nitroprusside (SNP) at increasing doses. Analysis of endothelium-dependent and endothelium-independent vasodilation was tested according to ADD1 genotype. RESULTS: The FBF values at the three incremental doses of ACh were 5.22 +/- 0.24 (+76%), 8.64 +/- 0.45 (+193%) and 14.74 +/- 0.71 (+395%) ml/100 ml of tissue per min for Gly460Gly and 4.63 +/- 0.20 (+51%), 6.84 +/- 0.36 (+123%) and 11.22 +/- 3.8 (+269%) ml/100 ml of tissue per min for 460Trp. Thus, ACh-stimulated FBF was significantly reduced in hypertensive subjects carrying the 460Trp allele of ADD1 (P < 0.001). SNP-stimulated FBF was not affected by ADD1. CONCLUSIONS: The main finding in this study was that in essential hypertensives the 460Trp allele of ADD1 is strongly associated with an impaired endothelium-dependent vasodilation, a powerful predictor of cardiovascular risk.

Abstract: To clarify the role of gene polymorphisms on the effect of losartan and losartan plus hydrochlorothiazide on blood pressure (primary end point) and on cardiac, vascular and metabolic phenotypes (secondary end point) after 4, 8, 12, 16 and 48 weeks treatment, an Italian collaborative study - The Study of the Pharmacogenomics in Italian hypertensive patients treated with the Angiotensin receptor blocker losartan (SOPHIA) - on never-treated essential hypertensives (n = 800) was planned. After an 8 week run-in, losartan 50 mg once daily will be given and doubled to 100 mg at week +4 if blood pressure is more than 140/90 mmHg. Hydroclorothiazide 25 mg once daily at week +8 and amlodipine 5 mg at week +16 will be added if blood pressure is more than 140/90 mmHg. Cardiac mass (echocardiography), carotid intima-media thickness, 24 h ambulatory blood pressure, homeostatic model assessment (HOMA) index, microalbuminuria, plasma renin activity and aldosterone, endogenous lithium clearance, brain natriuretic peptide and losartan metabolites will be evaluated. Genes of the renin-angiotensin-aldosterone system, salt sensitivity, the beta-adrenergic system and losartan metabolism will be studied (Illumina custom arrays). A whole-genome scan will also be performed in half of the study cohort (1M array, Illumina 500 GX beadstation).

Abstract: BACKGROUND: A single-nucleotide polymorphism (Gly460Trp) within the alpha-adducin gene (ADD1) may influence several renal phenotypes, including salt sensitivity, susceptibility to renal failure, the renal haemodynamics and confer a worse cardiovascular risks profile. However, its relationship with microalbuminuria, a marker of early renal and cardiovascular damage and an independent predictor of morbid events in hypertension, is unknown. For this reason, we related the ADD1 genetic polymorphism to urine albumin levels and other clinical variables in essential hypertensive men. The angiotensin-converting enzyme (ACE) insertion/deletion (ID) polymorphism was also evaluated because of its interactive potential with the ADD1 genotype. METHODS: Albuminuria (three overnight collections), echocardiographic left ventricular mass index, blood pressure, body mass index, renal function, glucose and lipids were measured in 238 genetically unrelated, never treated, uncomplicated Caucasian essential hypertensive men. Polymerase chain reaction or a 5' nuclease assay were used to characterize the ACE ID and ADD1 Gly460Trp variants, respectively. RESULTS: Microalbuminuria (albuminuria >or= 15 microg/min) was more frequent in patients with the ACE DD variant, but only in those with a ADD1 Gly460Gly background. In contrast, urine albumin did not differ by ACE ID genotype in the presence of mutated ADD1 Trp alleles. ADD1 polymorphisms per se were not associated with albuminuria. Cardiovascular, renal, metabolic parameters were homogeneously distributed among different genetic backgrounds. CONCLUSIONS: ACE DD and ADD1 Gly460Gly polymorphisms may jointly influence albuminuria in hypertensive men, 460Gly homozygosis facilitating or, possibly, the 460Trp allele mitigating the noxious renal impact of the ACE DD genotype. The data highlight further the complex pathophysiological implications of microalbuminuria in hypertension.

Abstract: BACKGROUND: The 460Trp allele of the alpha-adducin gene (ADD1), which is involved in a form of salt-sensitive hypertension, has been associated with patterns of target organ damage. OBJECTIVES: As carotid artery intima-media thickness (IMT) largely depends upon unknown genetic factors, besides being associated to conventional risk factors, we tested the association of the 460Trp allele of ADD1 with IMT in a well-characterized sample of young healthy normotensive subjects, to assess the role of ADD1 polymorphism without overlapping effects of age or already elevated blood pressure. METHODS: Anthropometric measurements, blood pressure (BP), and carotid artery wall IMT (high-resolution sonography and digitalized morphometry) were obtained in 420 healthy normotensive Caucasian university students. Genotypes for ADD1 were detected by automated genomic polymerase chain reaction (PCR). RESULTS: ADD1 genotypes were evenly distributed between genders. IMT was significantly larger in carriers of the 460Trp allele of ADD1, while a significant gender x ADD1 interaction (P = 0.02) demonstrated that IMT was increased only in males carrying the 460Trp allele (P < 0.001). No significant association was found in females. CONCLUSIONS: The 460Trp allele of ADD1 contributes substantially to increase carotid IMT, in a male hormonal milieu only, at least in the young age range.

Abstract: Hypertension is a complex, multifactorial disease; genetic factors represent one third to half of the inter-individual variability of blood pressure values. The study of genes involved in rare forms of monogenic hypertension led to the identification of pivotal pathophysiological pathways of kidney sodium and water reabsorption that can influence blood pressure values when changed. Glucocorticoid-Remediable Aldosteronism (GRA) is characterised by normal to high aldosterone levels, despite plasma renin activity suppression, and by the fact that these alterations are corrected by exogenous glucocorticoid administration. Apparent Mineralocorticoid Excess (AME) is due to a mutation of the gene encoding the renal isoform of 11 â HSD enzyme; the non-conversion of cortisol to cortisone result in increasing cortisol levels that activate the mineralocorticoid receptor. Early onset hypertension exacerbating during pregnancy is caused by a mutation leading to a conformational change in the mineralocorticoid receptor. Therefore, substances that are normally inactive at this level, such as progesterone, become potent agonists of the mutated receptor. Liddle's syndrome (or type I pseudo-hyperaldosteronism (PHA1), is characterised by a constitutive activation of the epithelial sodium channels in the distal tubule, causing an increase in sodium and chloride reabsorption. Gordon syndrome (Type II pseudo-hyperaldosteronism, PHA2) differs from the other forms because of the presence, in addition to hypertension, of hyperkaliemia and hyperchloremic acidosis that can be normalized with thiazide diuretics. Finally, a large pedigree of Turkish origin has been described: these patients are affected by an uncertain form of monogenic hypertension associated with brachydactyly.

Abstract: Type 5 Bartter syndrome has been recently defined as a Bartter syndrome due to the most activating mutations of the calcium-sensing receptor (CaSR). It has been attributed to the inhibition exerted by CaSR activity on sodium transport in the thick ascending limb of the loop of Henle (TALH). Two monozygotic twin sisters (T1 and T2) with autosomal dominant hypocalcemia (ADH) due to a nonconservative activating CaSR mutation in the extracellular domain (K29E) were studied. They developed a Bartter-like syndrome characterized by a mild phenotype: hypokalemia occurred only at the age of 22 years; it was corrected with small doses of oral potassium in one twin, while the other twin needed no potassium supplements to maintain borderline levels of plasma potassium; alkalosis was absent; plasma renin and aldosterone production were not markedly activated. Furthermore, the natriuretic response to furosemide, a inhibitor of sodium reabsorption in the TALH, was conserved in both twins. The K29E mutation was previously reported as one of the most activating mutations of the CaSR gene leading to a very marked increase in CaSR sensitivity to calcium ions. These findings confirm that Bartter syndrome is typically associated with ADH provided that the underlying mutation of CaSR is able to produce a conspicuous gain of function. However, the phenotype of type 5 Bartter syndrome may manifest with variable severity, not directly related with the in vitro potency of the CaSR activating mutation.

Abstract: The effect of arachidonic acid (AA) on intracellular Ca(2+) concentration ([Ca(2+)]i) in human osteoblasts MG63 was studied. AA caused a concentration-dependent increase in [Ca(2+)]i, mainly due to inward Ca(2+) transport from extracellular environment. Moreover, AA in Ca(2+) -free medium produced a small, transient increase of [Ca(2+)]i, indicating that AA may also trigger Ca(2+) release from intracellular stores. Because the [Ca(2+)]i response to AA was inhibited by the cyclooxygenase (COX) inhibitor indomethacin, we tested the effect of prostaglandins (PGs), products of COX pathway. PGs E1 and E2 caused an increase in [Ca(2+)]i, which, however, was far lower than that obtained with AA. The [Ca(2+)]i response to AA was not inhibited by nifedipine, suggesting that AA did not activate a voltage-dependent Ca(2+) channel. Our results indicate that AA could modulate [Ca(2+)]i in MG63 human osteoblasts, where it may influence Ca(2+) transport across both plasma and endoplasmic membranes. Furthermore, they suggest that osteoblast activity may be modulated by AA.

Abstract: The progressive improvement of genetic research technologies has led to the identification of different genes involved in blood pressure regulation. Renal regulation systems of sodium homeostasis play a key role. Mutations capable of determining an increase or a decrease in carrier proteins function could cause not only hypotension or hypertension, but also the related metabolic symptoms and changes, and the possible response to pharmacologic treatment. Monogenic forms of hyper- or hypotension are rare, though they highlight the importance of sodium tubular transport in blood pressure adjustment.

Abstract: BACKGROUND: It is generally acknowledged that calcium excretion is a determinant of bone mineral density. Since data confirming this hypothesis are not conclusive, the present study evaluates the relationship between calcium excretion and volumetric bone mineral density (vBMD) in a sample of general population mostly composed of elderly subjects. METHODS: This relationship was studied in 595 subjects in good health (M/F 302/293), selected from the InCHIANTI population, an epidemiologic survey on aging in Tuscany (Italy). Of these subjects, 432 (72.6%) were 65 years old or older. Trabecular and cortical apparent vBMDs were measured by peripheral quantitative computed tomography at right tibia and standardized to age and body mass index (BMI) in each gender (z-score). RESULTS: Men in the highest tertile of calcium excretion had significantly lower trabecular vBMD, and were more likely to have a trabecular z-score of -1 or less. These results were confirmed in men older than 64 years, but not in women and younger men. Sodium excretion and 25-hydroxycolecalciferol (25(OH)D) were greater in men and women in the highest tertile. No differences among tertiles were observed for cortical vBMD, circulating levels of interleukin-1beta and interleukin-6, and intake of principal nutrients and calcium. The lower levels of vBMD z-score were confirmed in men in the highest tertile of calcium excretion, standardized to creatinine clearance, sodium excretion, plasma calcium, and logarithm of circulating 25(OH)D, and resulted to be associated with calcium excretion at multiple regression analysis in men. CONCLUSION: High calcium excretion is associated with a decreased trabecular BMD in elderly men and may predispose men to trabecular bone loss.

Abstract: OBJECTIVE: In both humans and rats, polymorphisms of the alpha adducin (ADD1) gene are involved in renal sodium handling, essential hypertension and some of its organ complications. Adducin functions within cells as a heterodimer composed of various combinations of three subunits that are coded by three genes (ADD1, 2, 3) each located on a different chromosome. DESIGN: These characteristics provide the biochemical basis for investigating epistatic interactions among these loci. METHODS: We examined the three adducin gene polymorphisms and their association with ambulatory blood pressure (ABPM) and with plasma levels of renin activity (PRA), endogenous ouabain (EO), in 512 newly discovered and never-treated hypertensive patients. RESULTS: Relative to carriers of the wild type (Gly/Gly) ADD1 gene, patients carrying the mutated Trp ADD1 allele had higher blood pressure (systolic blood pressure (SBP) 143.2 +/- 1.0 versus 140.6 +/- 0.6 mmHg P = 0.027 and diastolic blood pressure (DBP) 94.2 +/- 0.77 versus 92.3 +/- 0.5 mmHg, P = 0.03), lower PRA and EO, consistent with the hypothesis of the renal sodium retaining effect of the Trp allele. Polymorphisms in the ADD2 and ADD3 genes taken alone were not associated with these variables. However, the differences in SBP and DBP between the two ADD1 genotypes were greatest in carriers of the ADD3 G allele (around + 8 mmHg). The significance of the interaction between ADD1 and ADD3 ranged between P = 0.020 to P = 0.006 according to the genetic model applied. CONCLUSIONS: The interaction of ADD1 and ADD3 gene variants in humans is statistically associated with variation in blood pressure, suggesting the presence of epistatic effects among these loci.

Abstract: Adducin regulates tubular absorption of sodium by modulating the expression levels of the sodium-potassium-ATPase in renal tubular cells. Adducin is a candidate gene in the pathogenesis of hypertension. Yeast two hybrid screen showed a specific interaction between human alpha Adducin and the regulatory factor for X box (RFX-1), a nuclear protein that down regulates the expression of several proteins in non neuronal cells. The interaction was confirmed in cells through co-immunoprecipitation and colocalization experiments. The binding of alpha Adducin to RFX-I and their nuclear co-localization suggests that Adducin can have a role in modulating the transcriptional regulating activity of RFX-I.

Abstract: BACKGROUND: The aim of the present study was to investigate the interactions between the circulating concentrations of 1,25-dihydroxyvitamin D3 [1,25(OH)2D3] and the mRNA concentration of its specific nuclear receptor in human leukocytes. METHODS: We measured vitamin D receptor (VDR) mRNA extracted from leukocytes by use of TaqMan fluorescence analysis applied to the reverse transcription-PCR (RT-PCR) technique in 16 volunteers before and after calcitriol administration. VDR mRNA was also measured in leukocytes from calcium-stone-formers (37 hypercalciuric and 34 normocalciuric patients). The relationship between VDR mRNA concentrations and genetic VDR polymorphisms was analyzed in these patients. RESULTS: Imprecision (CV) of RT-PCR was 1.3% within assay (n = 10) and 1.7% between assays (n = 4). Oral 1,25(OH)2D3 increased mean (SE) serum 1,25(OH)2D3 1.6 (0.3)-fold and VDR mRNA 1.6 (0.1)-fold 8 h after administration. The maximum VDR mRNA was reached 3.6 (1.3) h after 1,25(OH)2D3 ingestion. No differences in leukocyte VDR mRNA concentrations were found between normocalciuric and hypercalciuric stone-formers in the absence of stimulation. Finally, no association was found between VDR mRNA concentrations and genetic VDR polymorphisms in stone-formers. CONCLUSIONS: The TaqMan RT-PCR assay is a rapid and accurate method to measure VDR mRNA, and leukocytes are a useful model to study VDR and 1,25(OH)2D3 interactions. In humans, VDR mRNA is increased by agonist 1,25(OH)2D3, a finding resembling previously reported results obtained in cellular and animal models.

Abstract: OBJECTIVES: The aim of our study was to evaluate the relationship between aldosterone synthase gene polymorphism and cardiac dimensions in essential hypertension. BACKGROUND: Higher aldosterone synthase messenger ribonucleic acid levels in the human heart are accompanied by increased intracardiac aldosterone production, a phenomenon that is associated with cardiac fibrosis and hypertrophy. Recent evidence suggests that a polymorphism (-344C/T) in the promoter region of the aldosterone synthase gene is associated with increased constitutive aldosterone production. METHOD: Relationships between M-mode echocardiographic cardiac dimensions and aldosterone synthase -344C/T polymorphism were studied in 210 never-treated, middle-aged patients (age 41.6 +/- 1.4 years) affected by mild to moderate essential hypertension. Among these patients, 48 had the genotype -C344C, 97 had -C344T, and 65 had -T344T. Patients in the three groups were similar in terms of age, gender, body mass index, and blood pressure. RESULTS: Left ventricular (LV) mass and thickness were positively correlated with the number of T alleles: LV mass (CC, CT, and TT, respectively: 168 +/- 6.9, 179 +/- 5.2, and 193 +/- 6.9 g; p = 0.03), LV septal thickness (0.99 +/- 0.02, 1.03 +/- 0.02, and 11.08 +/- 0.03 cm, p = 0.04), PWT (0.93 +/- 0.03, 0.95 +/- 0.01, and 1.03 +/- 0.02 cm; p = 0.002), and relative wall thickness (38.3 +/- 1.2%, 38.8 +/- 0.8%, and 42.8 +/- 1.1%; p = 0.004). This trend was confirmed by linear regression, suggesting a "major gene" behavior for the T allele. Multiple regression analysis showed that this effect was independent of anthropometric and clinical factors, including adrenal aldosterone. CONCLUSIONS: Our data suggest that -344C/T polymorphism affects LV mass and thickness in essential hypertension, independent of adrenal aldosterone. A role for intracardiac aldosterone synthesis is hypothesized.

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Abstract: The wide association between urinary tract malformations and dysplastic kidneys, known as CAKUT (Congenital Anomalies of the Kidney and Urinary Tract), could be caused by a single disorder of the embryonic development of the kidney and urinary tract. These complex patterns of development are under genetic control. A positive family history strongly suggests a genetic origin of these conditions. Linkage studies show an extreme genetic heterogenicity and an important phenotypic and clinical variability of the same mutation. Some urinary tract malformations have been investigated in the context of clinical syndromes. The renal-coloboma syndrome is an autosomal dominant human disease, secondary to mutation of the PAX2 transcription factor, characterized by optic nerve coloboma, renal anomalies and vesicoureteral reflux. However, most of the urinary tract anomalies can occur in isolation. Studies have shown the association of hereditary hydronephrosis with HLA antigens on chromosome 6 and the association of VUR with the mutations in a locus of chromosome 1. The higher frequency and severity of some uropathies in the male gender may be explained by a linkage-disequilibrium phenomenon or a X-linked transmission pattern. For example, the mutations in the AGTR2 gene on chromosome X were observed in animal models but not yet confirmed in human subjects. Finally, the ACE gene polymorphism is associated with a higher incidence of congenital hypo-dysplastic kidneys and represents a significant risk factor for the development of progressive renal damage.

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Abstract: Renin-angiotensin system reactivity and the constitutive capacity of the renal tubule to reabsorb sodium play a role in the individual response to diuretic therapy; therefore we evaluated the blood pressure (BP) response to hydrochlorothiazide in 87 never-treated individuals with mild essential hypertension, according to ACE gene I/D and alpha-adducin Gly460Trp polymorphism. These genotypes where chosen because previous data showed their interaction in determining the BP response to salt probably was the result of their involvement in the activation of the renin-angiotensin system (ACE) and in the constitutive capacity of the kidney to reabsorb sodium (alpha-adducin) (treatment for 2 months). BP was measured after 3 run-in visits and after the first and second months of treatment by means of a standardized procedure. Data were analyzed by ANOVA, t test, and multivariate ANOVA for repeated measures (covarying for gender, age, and body mass index). Although basal mean BP (MBP) was similar in the different ACE and alpha-adducin genotypes, patients carrying at least one I allele of ACE and one 460Trp allele of alpha-adducin had the largest MBP decrease with treatment (12.7+/-1.9 mm Hg), the effect of the combination of genotypes being additive but not epistatic. These patients had an odds ratio of 15.75 of being a responder to hydrochlorothiazide compared with patients with Gly460Gly+DD, with the least MBP decrease (3.4+/-1.7 mm Hg). Alpha-adducin and ACE I/D polymorphism may be useful to predict the interindividual degree of response to hydrochlorothiazide; the analysis of the combination of the 2 genotypes increases the accuracy of the prediction of response to the drug.

Abstract: We illustrate two cases of pregnancy complicated by previously onset chronic nephropathy. In spite of two completely different pathogenetic mechanisms for chronic renal insufficiency (IgA nephropathy in one case and vescico-ureteral reflux in the other), renal function at the beginning of the pregnancy was similar and only partially impaired. In either case the pregnancy lowered by 50% the residual glomerular filtration rate. Only minimum recovery was observed during several months of follow-up.

Abstract: BACKGROUND: Patients with idiopathic hypercalciuria are predisposed to osteoporosis despite their high enteral calcium absorption. Conversely, low calcium absorption has been reported in patients with osteoporosis. Because bone loss occurs earlier in women, this work explores the relationship between bone mineral density (BMD) and calcium absorption in premenopausal and postmenopausal hypercalciuric stone-forming women. METHODS: BMD and intestinal calcium absorption were compared in 64 hypercalciuric and 42 normocalciuric calcium stone-forming women. Calcium absorption was assessed by using strontium as a surrogate marker for calcium. Strontium was administered to patients as an oral load, then measured in blood to calculate absorption after 60 minutes. Femoral and lumbar-spine BMD were measured by dual-energy x-ray absorptiometry. RESULTS: Strontium absorption was significantly increased in hypercalciuric stone formers, whereas BMD z score was decreased in hypercalciuric patients at the lumbar spine, but not the femur. The increase in strontium absorption was detected in both postmenopausal (n = 29) and premenopausal (n = 35) hypercalciuric patients. The decrease in lumbar-spine BMD was confirmed in postmenopausal, but not premenopausal, hypercalciuric patients. Strontium absorption was greater in hypercalciuric patients with a lumbar-spine BMD z score of -2 or less (n = 10) than in those with a score greater than -2 (n = 54). Multiple stepwise regression showed that lumbar-spine BMD was related negatively to intestinal strontium absorption and age in hypercalciuric patients. CONCLUSION: Results of the strontium absorption test suggest that the increase in calcium absorption is associated with a decrease in lumbar-spine BMD in hypercalciuric stone-forming women. Hypercalciuric stone-forming women with high calcium intestinal absorption denote a group of patients predisposed to loss of bone mass.

Abstract: OBJECTIVE: To detect the association of single polymorphisms of the renin-angiotensin-aldosterone system (RAAS), or different combinations thereof, with hypertension. DESIGN AND METHODS: The GENIPER database is the result of a collaborative effort of 13 Italian research centres to collect genomic DNA in subjects well characterized in terms of blood pressure status. A total of 2461 subjects (normotensive = 611; hypertensive = 1850) were selected and genotyped for the angiotensin-converting enzyme insertion/deletion (ACE I/D), angiotensinogen (AGT) T/C704, angiotensin receptor type 1 (AT1) A/C1166 and aldosterone synthase (ALDO) T/C-344 genetic variants. RESULTS: Allele frequencies were homogeneous over the Italian territory, with the relevant exception of the ACE I/D, the D allele being significantly less frequent in the northern region (61%) than in the rest of the country (67%; P < 0.0001). When comparing allele and genotype distributions in normotensives and hypertensives, the latter presented a small but statistically significant increase of the C allele of AGT T/C704, the A allele of AT1 A/C1166 and the T allele of ALDO T/C-344 polymorphisms (P = 0.018, P = 0.037 and P = 0.015, respectively), with similar trends all over the country. A step-wise logistic regression analysis confirmed these findings, by entering in the model as independent predictors of blood pressure status of AGT T/C704 (P = 0.013), ALDO T/C-344 (P = 0.032) and AT1 A/C1166 polymorphisms (P = 0.075), but not ACE I/D (P = 0.996). We also found some evidence of an additive effect of individual genetic variants of the RAAS, modulating at different levels the same functional pathway, on the risk of developing hypertension, but no synergistic interaction was observed. CONCLUSIONS: Our results suggest that some allelic variants of RAAS genes carry a small but identifiable risk of developing arterial hypertension.

Abstract: Although everybody agrees that each individual's blood pressure variance is under substantial genetic control, its quantitative estimates vary from 35 to 70%, according to the different experimental designs. The problem is that, in spite of such substantial contribution, the discovery of the "genes that cause hypertension" has been quite discouraging. This is indeed caused by the multifactorial nature of the disease and no improvement is to be expected without dissecting hypertension in its major pathogenetic pathways. As a paradigm of such a dissection, we present the data on adducin system, that proved to be relevant for a common form of salt sensitive in humans and the genetic hypertension of MHS rats.

Abstract: Erythrocyte membrane alterations mirror those of vascular smooth muscle and renal tubular cell membrane. The interaction between adducin and Na-K pump is the most likely biochemical mechanism responsible for the increased tubular Na reabsorption and hypertension in Milan hypertensive strain (MHS) rats. To substantiate this hypothesis in humans, we tested to see if alpha-adducin Gly460Trp genotype is associated with erythrocyte sodium transport rate in a new cohort of n=268 never-treated North Sardinian primary hypertensives. Plasma renin activity and blood pressure response to hydrochlorothiazide were also measured to evaluate the relationship between sodium transport rate and two intermediate phenotypes with a higher degree of genetic complexity. Na-K pump, Na-K-Cl cotransport, and Li-Na countertransport at V(max) were faster (P<0.0001), whereas intracellular Na concentration was lower (P<0.0001) in patients carrying one or two 460Trp alleles. Such behavior was mirrored by opposite changes of intracellular Na concentration. Plasma renin activity and blood pressure response to diuretic treatment, on the other hand, showed a weaker association with the sodium transport rate. In conclusion, our findings are consistent with the hypothesis that the Gly460Trp alpha-adducin polymorphism may affect renal Na handling through an alteration in ion transport across the cell membrane mirrored by erythrocytes. These results may also have clinical relevance because the Gly460Trp alpha-adducin polymorphism may explain, at least in part, the variability of blood pressure response to diuretics in primary hypertensive patients.

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Abstract: Calcium-sensing receptor (CaSR) is a plasma membrane protein that regulates tubular reabsorption of Ca. To establish its role in idiopathic hypercalciuria, the association of urinary Ca excretion with the polymorphisms of CASR gene has been studied in healthy subjects and in hypercalciuric and normocalciuric Ca stone formers. CASR exon 7 single nucleotide polymorphisms (SNP), G/T at codon 986, G/A at codon 990, and C/G at codon 1011, were evaluated by PCR amplification and direct sequencing in 97 normocalciuric stone formers, 134 hypercalciuric stone formers, and 101 normocalciuric healthy controls. Four haplotypes were defined on the basis of CASR gene SNP: haplotype 1 was characterized by the most frequent sequence; haplotypes 2, 3, or 4 by the presence of a single polymorphic variant at codon 986, 990, or 1011, respectively. The relative risk of hypercalciuria was calculated with multinomial logistic regression and was significantly increased only in individuals carrying haplotype 3 (Odds ratio, 13.0 [95% confidence interval, 1.7 to 99.4]). Accordingly, Ca excretion was higher in subjects bearing haplotype 3, whereas those bearing haplotype 2 showed a slight increase of plasma Ca concentration. Multiple regression analysis showed that haplotype 3 explained 4.1% of the total variance of Ca excretion and 12.6% of the variance explained by the variables considered in the study. In conclusion, CASR gene could be a component of the complex genetic background regulating Ca excretion. Arg990Gly polymorphism could facilitate activation of CaSR and increase Ca excretion and susceptibility to idiopathic hypercalciuria.

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Abstract: BACKGROUND: Myocardial disorders are a remarkable cause of morbidity and mortality in chronic haemodialysed patients (HD). They could be favoured by alteration of cell Ca(2+) handling. In previous studies we characterized an erythrocyte Ca(2+) influx, sensitive to membrane potential and inhibited by Ca(2+) antagonists. Since its maximal influx rate was decreased in HD patients, this study investigates if Ca(2+) influx alterations are related to myocardial disorders in HD patients. METHODS: Voltage-sensitive erythrocyte Ca(2+) influx was measured in 30 healthy controls and in 53 patients (47 HD patients and six patients with left ventricular hypertrophy and normal kidney function), using fura 2. In 29 HD patients and in six healthy subjects Ca(2+) influx was also determined in the presence of parathyroid hormone (PTH) in vitro. Patients were classified according to Lown's ventricular arrhythmias classification after 24-h Holter electrocardiograph (ECG) monitoring. Forty-six patients underwent echocardiography. RESULTS: Voltage-sensitive erythrocyte Ca(2+) influx was significantly reduced in HD patients. Maximal influx rate was significantly higher in HD patients of Lown's classes 3 and 4 (0.789 +/- 0.156 nmol/s, n = 8; P < 0.01) than in patients of classes 1 and 2 (0.499 +/- 0.055 nmol/s, n=15), or without ventricular arrhythmias (0.400 +/- 0.041 nmol/s, n = 24). Maximal influx rate was directly correlated to left ventricular mass index (LVM) (r = 0.353, P < 0.05). Subjects with left ventricular hypertrophy and normal kidney function displayed erythrocyte Ca(2+) influx similar to that of normal subjects. Multiple regression indicates that LVM and Ca(2+) influx were independently related to severity of arrhythmias. When added to the influx assay, PTH increased the maximal influx rate only in patients with ventricular arrhythmias. CONCLUSION: Myocardial dysfunction and altered ventricular excitability could be related in uraemic HD patients to alterations of calcium transport, as found in the erythrocyte model. Reduced resistance to PTH could contribute to this phenomenon.

Abstract: An ouabain-like factor has been implicated repeatedly in salt-sensitive hypertension as a natriuretic agent. However, the response of plasma ouabain-like factor to acute and chronic variation of body sodium is unclear. We studied 138 patients with essential hypertension who underwent an acute volume expansion/contraction maneuver (2 days) and 20 patients who entered a blind randomized crossover design involving chronically controlled sodium intake and depletion (170 to 70 mmol/d; 2 weeks each period). In both studies, plasma levels of ouabain-like factor were higher during sodium depletion (acute: 338.8+/-17.4 and 402.7+/-22.8 pmol/L for baseline and low sodium, respectively, P<0.01; chronic: 320.4+/-32.0 versus 481.0+/-48.1 pmol/L, P=0.01). No significant change in plasma ouabain-like factor was observed after a 2-hour saline infusion (333.4+/-23.9 pmol/L) or controlled sodium (402.1+/-34.9 pmol/L). When patients were divided into salt-sensitive or salt-resistant groups, no differences in plasma ouabain-like factor were observed in the 2 groups at baseline or in response to the 2 protocols: salt resistant (n=69, 340.1+/-25.9 pmol/L) versus salt sensitive (n=69, 337.4+/-23.6 pmol/L) and chronic salt resistant (n=11, 336.0+/-53.2) versus salt sensitive (n=9, 301.1+/-331.4 pmol/L). However, circulating ouabain-like factor was increased by sodium depletion in both groups. These results demonstrate that circulating ouabain-like factor is raised specifically by maneuvers that promote the loss of body sodium. Acute expansion of body fluids with isotonic saline is not a stimulus to plasma ouabain-like factor. Moreover, basal levels of plasma ouabain-like factor do not differ among patients with salt-sensitive or salt-resistant hypertension. Taken together, these new results suggest that ouabain-like factor is involved in the adaptation of humans to sodium depletion and argue against the hypothesis that ouabain-like factor is a natriuretic hormone.

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Abstract: The alpha-adducin gene contributes significantly to hypertension in MHS rats (rats of the Milan hypertensive strain) and in some white and Japanese populations, causing a low renin, sodium, and diuretic-sensitive hypertension. No data are available from populations of African ancestry who have a high prevalence of low renin, sodium, and diuretic-sensitive hypertension. We studied the relationship between the 460-Trp variant of alpha-adducin gene with hypertension using a case-control study design in black South Africans. Surprisingly we found that the overall frequency of the 460-Trp allele was low (approximately 6%), but in spite of such relatively low frequency, the 460-Trp allele was 2.5-fold more frequent in hypertensives than normotensives (P = .028), with an odds ratio for hypertension associated to the state of carrier of at least one 460-Trp allele of 2.68. The finding of such low frequency of the 460-Trp allele in individuals of African ancestry points to the substantial ethnic variability of the genes that have been found to be associated with hypertension. On the other hand, it suggests an association of the 460-Trp allele with hypertension also in subjects of African origin.

Abstract: BACKGROUND: The genetic dissection of a polygenic, multifactorial, quantitative disease such as arterial hypertension is hampered by a large environmental variance and by genetic heterogeneity. METHODS: To reduce the environmental variance, we measured the pressor response to a saline load (PRSL) and the basal plasma renin activity (PRA) under very controlled conditions in 145 essential hypertensive patients, as they may have the most direct clinical expression of the putative genetic alteration in renal Na handling and blood pressure (BP) regulation caused by the alpha-adducin and angiotensin-converting enzyme (ACE) polymorphism. RESULTS: PRSL was smaller in patients homozygous for the wild-type (Gly460) variant of alpha-adducin compared with that of patients bearing at least one copy of the 460Trp variant (2.5 +/- 0.6 vs. 7.0 +/- 0.9 mm Hg, P = 0.0001), whereas the ACE genotype was not associated with differences in PRSL. Both alpha-adducin and ACE affect PRA, with lower values correlated with the number of 460Trp or D alleles (P = 0.019 and 0.017, respectively). Most important, alpha-adducin and ACE interact epistatically in determining the PRSL, doubling the variance explained when epistasis is taken into account (variance from 7.7 to 15.5%). CONCLUSION: These findings support the involvement of ACE and alpha-adducin in PRSL and PRA control, which are of paramount importance in setting the BP level and its response to therapy.

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Abstract: Many patients with essential hypertension (EH) exhibit increased left ventricular mass. Similarly, elevated circulating levels of an endogenous ouabainlike factor (OLF) have been described in some but not all patients with EH. Moreover, ouabain has a hypertrophic influence on isolated cardiac myocytes. Accordingly, we investigated relationships among plasma OLF, left ventricular mass, and cardiac function in patients with EH. Plasma OLF was determined in 110 normotensive subjects and 128 patients with EH. Echocardiographic parameters and humoral determinants were measured in EH. Plasma OLF levels were increased (P<0.0001) in patients with EH (377+/-19 pmol/L) versus normotensive (253+/-53 pmol/L) subjects. The distribution of plasma OLF was unimodal in normotensives, whereas it was bimodal in EH. Twenty-four-hour diastolic ambulatory blood pressure was slighter higher in EH with high OLF compared with EH with normal OLF (93.2+/-1.14 versus 89.4+/-1.33 mm Hg, P=0.03). Left ventricular mass index and stroke volume in EH with high OLF were greater than in EH with normal OLF (101.9+/-3.3 versus 86.1+/-2.5 g/m(2), P=0.0003, and 57.10+/-1.48 versus 52.30+/-1.14 mL/m(2), P=0. 02, respectively), although heart rate was slower (74.2+/-1.3 versus 80.5+/-1.3 bpm, P=0.005). Multiple regression analysis that tested the influence of body mass index, age, gender, 24-hour blood pressure, and OLF on left ventricular mass revealed independent contributions of systolic (13.2%) and diastolic (12.4%) blood pressure and plasma OLF (11.6%) to left ventricular mass. We conclude that approximately 50% of patients with uncomplicated EH have elevated-high circulating OLF levels, higher diastolic blood pressure, greater left ventricular mass and stroke volume, and reduced heart rate. We propose that the OLF affects cardiovascular function and structure and should be considered as a factor that contributes to the risk of morbid events.

Abstract: Abnormalities in renal sodium reabsorption may be involved in the development and maintenance of experimental and clinical hypertension. Adducin polymorphism is thought to regulate ion transport in the renal tubule. It has recently been shown that there is a significant linkage of alpha-adducin locus to essential hypertension and that the 460Trp allele is associated with hypertension. Patients with this allele display larger blood pressure changes with body sodium variation. The aim of this study was to test whether alpha-adducin polymorphism is involved in abnormalities of renal function. Because proximal tubular reabsorption has been shown to be tightly coupled to renal perfusion pressure, this segmental tubular function was investigated in 54 (29 Gly/Gly and 25 Gly/Trp) untreated hypertensive patients in basal conditions with the use of endogenous lithium concentration and uric acid. Fractional excretions of lithium and uric acid were significantly decreased in the Gly/Trp hypertensive patients compared with the Gly/Gly hypertensives. The contribution of alpha-adducin to fractional excretion of lithium was investigated by multiple regression analysis. Adducin genotype was significantly (R2=0.11, F=6.5; P<0.01) and directly related to fraction excretion of lithium; gender, age, urinary Na+, urinary uric acid, mean blood pressure, and plasma renin activity were not related. In conclusion, the adducin gene can be considered to be a 'renal hypertensive gene' that modulates the capacity of tubular epithelial cells to transport Na+ and hence contributes to the level of blood pressure.

Abstract: The basic requirement for declaring an association study positive is that the "hypertension-favoring" allele is more frequent in hypertensive cases than in normotensive controls. However, both positive and negative associations with hypertension have been found for the same polymorphism when studied in different populations. In the present study, we addressed the question of the possible cause(s) of this discrepancy among populations by using the alpha-adducin polymorphism as a paradigm. Four hundred ninety hypertensives and 176 normotensives enrolled in Sassari, Italy, and 468 hypertensives and 181 normotensives enrolled in Milano, Italy, were genotyped for the alpha-adducin Gly460Trp polymorphism. The blood pressure response to 2 months of hydrochlorothiazide therapy could be evaluated in 143 (85 in Sassari and 58 in Milano) hypertensives with and without the 460Trp alpha-adducin allele. The alpha-adducin 460Trp allele was not significantly more frequent in hypertensives in the Sassari population but was more frequent in hypertensives than in normotensives in Milano (P=0.019). Basal plasma renin activity was lower and blood pressure fall after diuretic therapy more pronounced (P<0.01) in hypertensives carrying at least one 460Trp allele than in Gly460Gly homozygotes, irrespective of their membership in the Sassari or Milano cohort. The effect of alpha-adducin genotype in predicting basal plasma renin activity and blood pressure decrease with diuretic treatment is similar in Sassari and Milano, despite the lack of association of the alpha-adducin genotype with hypertension in Sassari.

Abstract: The relationship between blood pressure and sodium (Na) excretion is less steep in hypertension caused by increased renal tubular reabsorption. We recently demonstrated that one mutation in rat alpha-adducin gene: (1) is responsible for approximately 50% of the hypertension of MHS rats, and (2) stimulates tubular Na-K pump activity when transfected in renal epithelial cell, suggesting that its pressor effect may occur because an increased tubular reabsorption. Linkage and association studies demonstrated that the alpha-adducin locus is relevant for human hypertension. A point mutation (G460W) was found in human alpha-adducin gene, the 460W variant (G/W) is more frequent in hypertensives than in normotensives. The aim of this study was to test whether acute changes in body Na may differently affect blood pressure in humans as a function of alpha-adducin genotype. The pressure-natriuresis relationship was analyzed in 108 hypertensive using two different acute maneuvers: Na removal (furosemide 25 mg p.o.) and, two days later, Na load (310 mmoles i.v. in 2 hr). We found that 80 patients were wild-type homozygous (G/G), 26 were G/W heterozygous, and 2 were W/W homozygous with similar blood pressure, age body mass index, gender, plasma and urinary sodium and potassium. In basal condition G/W-W/W patients showed a lower plasma renin activity and fractional excretion of Na. In either case the pressure-natriuresis relationship was less sleep in G/W-W/W than in G/G patients, obviously negative for Na depletion with furosemide (-0.011 +/- 0.004 vs. -0.002 +/- 0.002 mm Hg/mumol/min, P < 0.03), and positive for Na load (0.086 +/- 0.02 vs. 0.027 +/- 0.007 mm Hg/mumol/min, P < 0.001). The finding of reduced slope after Na depletion or Na load supports the hypothesis that, as MHS rats, humans bearing one W alpha-adducin variant display an increased of renal tubular sodium reabsorption.

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Abstract: BACKGROUND: Abnormalities in renal sodium transport may be involved in hypertension. Adducin, an alpha/beta heterodimeric protein found in the renal tubule is thought to regulate ion transport through changes in the actin cytoskeleton. We investigated whether an alpha-adducin polymorphism (Gly 460 Trp) is involved in essential hypertension in two separate populations. METHODS: Linkage analysis of three DNA markers at different distances from the alpha-adducin locus (20-2500 kb) was done in 137 hypertensive sibling-pairs. 477 hypertensive and 322 normotensive individuals were genotyped for the alpha-adducin polymorphism. The blood-pressure response to acute and chronic changes in sodium balance was studied in hypertensive individuals with and without the 460 Trp alpha-adducin allele. FINDINGS: Significant linkage was found for all three markers in the sibling-pair study. The extra shared alleles (9.1%, 6.5%, and 4.7%) and the significance level for linkage (p = 0.0006, p = 0.0119, and p = 0.0211) both decreased with increasing distance from the alpha-adducin locus. There was a significant association between the 460 Trp mutation and hypertension (p = 0.0003). In the salt-sensitivity test, to assess the acute blood-pressure response to changes in body sodium in 86 hypertensive patients, the decrease in mean arterial pressure was greater in 65 patients who were heterozygous for the mutant allele (Gly/Trp) than in 21 wild-type homozygotes (Gly/Gly) (mean decrease 15.9 [SE 2.0] vs 7.4 [1.3] mm Hg; p = 0.001). Similarly, 21 heterozygous hypertensive patients showed a greater fall in mean arterial pressure in response to 2 months' treatment with hydrochlorothiazide than did 37 wild-type homozygous hypertensive patients (mean decrease 14.7 [2.2] vs 6.8 [1.4] mm Hg; p = 0.002). INTERPRETATION: Our findings of significant linkage of the alpha-adducin locus to essential hypertension and greater sensitivity to changes in sodium balance among patients with the mutant allele suggest that alpha-adducin is associated with a salt-sensitive form of essential hypertension. We suggest the alpha-adducin polymorphism may identify hypertensive patients who will benefit from diuretic treatment or manoeuvres to reduce total body sodium.

Abstract: An update on renal genetic mechanisms of spontaneous hypertension in rats and in human essential hypertension is presented. The findings are discussed, highlighting the search of a possible link between the discovered genetic abnormality and the renal function changes that may determine the disease. The analogies (and/or differences) between the numerous positive findings obtained in animal models and the relatively scarce ones obtained in humans are discussed.

Abstract: BACKGROUND: Calpains are cytoplasmic proteases widely distributed among eucaryotic cells. Low levels of calpain activity were found in hypertrophic hearts from hypertensive rats, but its role in hypertrophic hearts from human hypertensives is unknown. Therefore, calpain activity was investigated in erythrocytes from essential hypertensive patients in relation to their left ventricular mass. OBJECTIVE: To study the role of calpain activity in the development of left ventricular hypertrophy (LVH) in human essential hypertension. METHODS: A total of 115 hypertensives (72 untreated and 43 with treatment interrupted for at least 4 months) were included in the study. Calpain I activity was measured in human erythrocytes and LVH was measured as left ventricular mass index (LVMI) by M-mode echocardiography. RESULTS: Values are given as mean+/-SEM. The hypertensives (97 men and 18 women) were 43.5+/-0.9 years old with mild to moderate levels of hypertension (systolic/diastolic blood pressure of 147.9+/-1.4/98.7+/-0.9 mmHg) and relatively recent LVH onset (3.5+/-0.5 years). An inverse relation between LVMI and erythrocytic calpain activity was present in all (P = 0.0023, R2 = 7.9%). This relation was still present considering only untreated hypertensives (P = 0.008; R2 = 9.7%), but was lost in the 43 previously treated hypertensives. Moreover, in the untreated hypertensives, after excluding the possible confounding effects of sex, age, body mass index, blood pressure and duration of hypertension, a stepwise regression showed that only two variables remained significantly related to LVMI: calpain (F = 6.23) and mean arterial pressure (F = 4.689). No relations were found between LVMI and calpastatin activity either in the whole population, or in treated or untreated hypertensives. CONCLUSIONS: If we assume that the level of erythrocyte calpain activity mirrors the level in cardiomyocytes, these data seem to suggest that increased protein degradation by calpain may prevent the development of LVH in hypertensive patients. This effect is independent of the duration and severity of hypertension.

Abstract: BACKGROUND: Previous studies have shown that molecular variants of the cytoskeletal protein adducin may be involved in regulation of blood pressure both in genetic rat hypertension and in human essential hypertension. OBJECTIVE: To investigate the relationship of genetic polymorphism of alpha-adducin with blood pressure, cardiovascular structure, and some biochemical indexes of cardiovascular risk in a sample of general population. DESIGN AND METHODS: A sample of 246 subjects (124 men and 122 women, aged 57.7+/-3.7 years) was randomly chosen from a middle-aged population. Twenty-four-hour ambulatory blood pressure, as well as left ventricular mass (by echocardiographic methods) and carotid wall thickness (by B-mode ultrasound methods) were measured. DNA was extracted from peripheral blood samples; the Gly460Trp diallelic variant of human alpha-adducin was genotyped by polymerase chain reaction amplification and then allele-specific oligo hybridization. RESULTS: A trend toward higher 24 h ambulatory blood pressure values in subjects not treated with antihypertensive drugs was observed among carriers of Trp460 allele, although the differences did not attain statistical significance (at closest, P = 0.066 for a dominant effect of Trp460 on systolic blood pressure). When blood pressure was considered a dichotomous variable, allowing the inclusion of treated hypertensives), a higher prevalence of Trp460 allele among hypertensives was observed (0.188 versus 0.106 among normotensives, P= 0.02). There was no evidence of association either of left ventricular mass or of common carotid wall thickness with Gly460Trp polymorphism. CONCLUSIONS: In this sample of a general population, the relationship of a genetic polymorphism of alpha-adducin with blood pressure values was rather weak. However, a population-based case-control analysis indicated that there was an association between Trp460 allele and hypertension, with a relative risk for subjects carrying at least one Trp460 allele of approximately 1.6. Further investigation of larger and different population samples in order to assess the role of adducin gene polymorphism as a marker of genetic predisposition to the development of hypertension is warranted.

Abstract: Human primary hypertension is a polygenic disease; its phenotypic expression is modulated by the environment. Though the kidney can play a major role in the initiation and maintainance of hypertension, many questions remain open. Kidney cross-transplantation demonstrated that hypertension can be transplanted with the kidney in all strains of genetically hypertensive rats where such experiments have been carried out. Data consistent with those in rats were also obtained in humans. Many abnormalities in kidney function and ion transport were described in hypertensive rats and humans, but the logical sequence from genetic-molecular to cellular abnormality that causes hypertension via modification of kidney function is difficult to prove. We established this sequence in Milan hypertensive rats using a variety of experimental techniques (isolated kidney and renal cell function, cell membrane ion transport, cross-immunization with membrane proteins, molecular biology, genetic crosses and manipulation). Such studies led to the identification of a polymorphism in the cytoskeletal protein adducin. This polymorphism seems involved in blood pressure regulation both in rats and humans. Preliminary results suggest that adducin polymorphism affects kidney function by modulating the overall capacity of tubular epithelial cells to transport ions modifying the assembly of actin cytoskeleton.

Abstract:

Abstract: Previous studies on genetic rat hypertension have shown that polymorphism within the alpha-adducin gene may regulate blood pressure. Adducin is a cytoskeletal protein that may be involved in cellular signal transduction and interacts with other membrane-skeleton proteins that affect ion transport across the cell membrane. There is a high homology between rat and human adducin and pathophysiological similarities between the Milan hypertensive rat strain and a subgroup of patients with essential hypertension. Thus, we designed a case-control study to test the possible association between the alpha-adducin locus and hypertension. One hundred ninety primary hypertensive patients were compared with 126 control subjects. All subjects were white and unrelated. Four multiallelic markers surrounding the alpha-adducin locus located in 4p16.3 were selected: D4S125 and D4S95 mapping at 680 and 20 kb centromeric, and D4S43 and D4S228/E24 mapping at 660 and 2500 kb telomeric. Alleles for each marker were pooled into groups. Comparisons between control subjects and hypertensive patients were carried out by testing the allele-disease association relative to the marker genotype. The maximal association occurred for D4S95 (chi 2(1) 13.33), which maps closest to alpha-adducin. These data suggest that a polymorphism within the alpha-adducin gene may affect blood pressure in humans.

Abstract: 1. Previous studies on the pathogenetic mechanisms of hypertension in the Milan hypertensive strain of rat (MHS) showed that a polymorphism within the alpha-adducin gene is responsible for up to 50% of the blood pressure difference between MHS and their MNS normotensive control strain. A case-control study has shown also in humans an association between alpha-adducin locus and hypertension using 4 multiallelic markers surrounding the alpha-adducin locus. 2. With a multiple regression approach we provide an estimate of the contribution of the genotype for each marker to the blood pressure variability in comparison to that provided by sex, body mass index and age. 3. While sex, body mass index and age contributed by about 40-45% to the overall blood pressure variability, the inclusion of the genotype for the marker closer to the alpha-adducin locus provided a further increase of the variability explained of about 5%. 4. The contribution independently provided by the other markers decreased exponentially with the increase of distance from alpha-adducin locus.

Abstract: Increased erythrocyte (Ca+Mg)ATPase activity was previously observed in idiopathic hypercalciuria. In order to verify if this alteration is a primary or a secondary event, we studied Sr influx in erythrocytes from subjects with idiopathic hypercalciuria. (Ca+Mg)ATPase activity was significantly higher in hypercalciuric than in hypercalciuric than in normocalciuric subjects whereas no difference in Sr influx was found between the two groups. (Ca+Mg)ATPase activity positively correlated with the erythrocyte Sr content found after 5 min of incubation and with urine Ca excretion. The normal Sr permeability suggests that (Ca+Mg)ATPase is primarily altered in idiopathic hypercalciuria. The primary increase of (Ca+Mg)ATPase activity may enhance passive Ca influx by reduction of cellular Ca concentration. It may induce a defect in cellular Ca metabolism that may cause idiopathic hypercalciuria by stimulating bone Ca turn-over and enteral Ca absorption.

Abstract: OBJECTIVE: To analyze the natriuretic and diuretic response to frusemide in 33 male essential hypertensive patients as a function of basal renal sodium handling and erythrocyte transport system. METHODS: The natriuretic and diuretic response to an oral dose of frusemide (25 mg) was assessed with a simplified method. Urinary sodium and water excretion were measured in the basal state and every 30 min after the frusemide dose for 240 min. Basal 24h urinary sodium and water excretion, Na+,K+,Cl- cotransport and Li+-Na+ countertransport were measured 24 h before the test. RESULTS: There was a highly significant correlation between the natriuretic and diuretic response to frusemide and Na+,K+,Cl- cotransport and Li+-Na+ countertransport. After a multiple regression analysis the natriuretic and diuretic response to frusemide was not correlated with indices of proximal tubular function (Li+-Na+ countertransport, fractional uric acid excretion and the ratio of fractional sodium excretion to fractional uric acid excretion). CONCLUSION: These results support the hypothesis that erythrocyte Na+,K+,Cl- cotransport is a marker of distal tubular function.

Abstract: 1. Diabetes mellitus is associated with high body sodium, but the pathogenetic mechanism is still unknown. The possibility that an abnormal renal handling of sodium, an abnormal responsiveness of sodium-modulating factors or a shift in the set point for sodium metabolism may contribute to or be associated with sodium retention was tested with an acute saline infusion. 2. A consecutive sample of 33 patients with stable non-azotaemic diabetes mellitus (24 insulin-dependent patients) and 30 normal control subjects was studied. Two litres of a 0.9% NaCl infusion were infused over 4 h. The urinary sodium excretion during the infusion and the next 18 h was analysed in relation to blood pressure, creatinine and lithium clearances, Na(+)-K+ co-transport, Na(+)-Li+ countertransport, plasma levels of renin, angiotensin II, aldosterone, noradrenaline, adrenaline, atrial natriuretic factor and digoxin-like factor. 3. Diabetic patients and control subjects did not differ in blood pressure, body mass index, clearances of creatinine, sodium or lithium, intracellular sodium Na(+)-K+ co-transport and Na(+)-Li+ countertransport, urinary and plasma levels of digoxin-like factor, plasma renin activity, angiotensin II, aldosterone, noradrenaline, adrenaline and atrial natriuretic factor. The intravenous saline infusion caused a similar natriuresis in diabetic patients and normal subjects; the renin-angiotensin-aldosterone system was suppressed to a higher degree in diabetic patients than in normal subjects, whereas atrial natriuretic factor was stimulated to a similar extent; plasma digoxin-like activity was unchanged in both groups.(ABSTRACT TRUNCATED AT 250 WORDS)

Abstract: The Milan hypertensive strain of rats (MHS) develops a genetic form of renal hypertension that, when compared to its normotensive control (MNS), shows renal dysfunction similar to that of a subset of human patients with primary hypertension. MHS and MNS were shown to be homozygous by multilocus minisatellite analysis and monolocus microsatellite markers. We show here that one point mutation in each of two genes coding for the membrane skeleton protein adducin is associated with blood pressure in the Milan strain of rats. Adducin is a heterodimer formed by alpha and beta subunits that promotes the assembly of actin with spectrin. MHS and MNS differ, respectively, by the amino acids Y and F at position 316 of the alpha subunit. In the beta-adducin locus, MHS is always homozygous for R at position 529 while in MNS either R or Q occurs in that position. The R/Q heterozygotes showed lower blood pressure than any of the homozygotes. In vitro phosphorylation studies suggest that both of these amino acid substitutions occur within protein kinase recognition sites. Analysis of an F2 generation demonstrated that Y alleles segregated with a significant increment in blood pressure. This effect is modulated by the presence of the R allele of the beta subunit. Taken together, these findings strongly support a role for adducin polymorphisms in causing variation of blood pressure in the Milan strain of rats.

Abstract: The chronic effect of PTH on erythrocyte membrane Ca transport was examined. (Ca+Mg)ATPase activity and passive Sr influx were measured to assess the rate of passive Ca influx (total and inhibited by dihydropyridines [DHPs]), in erythrocytes from patients with primary hyperparathyroidism and normal controls. Erythrocyte Sr influx was lower in patients, due to a decreased DHP-sensitive Sr influx. Conversely, efflux activity of (Ca+Mg)ATPase was not different in patients and controls. We hypothesize that in primary hyperparathyroidism chronic PTH stimulation may induce a downregulation of the erythrocyte Ca influx mediated by DHP-sensitive Ca carrier.

Abstract: We compared the response of blood pressure (BP) to either K-Canrenoate (K-Can) or hydrochlorothiazide (HCTZ) in 26 mild-to-moderate essential hypertensives in a double-blind, cross-over design over 2 months each. The dose was 12.5 mg o.d. for HCTZ and 50 mg o.d. for K-Can: dosing was doubled after 1 month if seated diastolic BP was > or = 95 mmHg. Eight pts were "selective responder" to the lowest dose of HCTZ (HCTZ-R), and 6 to K-Can (K-Can-R). Seven pts had their high blood pressure controlled by the highest dose of both drugs and 4 were insensitive to both. One pt dropped out during HCTZ for low plasma K+, and 3 during K-Can (nausea and dizziness: 2 pts; plasma creatinine rise: 1 pt). All these side effects were reverted after drug withdrawal. HCTZ-R and K-Can-R differed for PRA (1.4 +/- 0.6 vs 0.8 +/- 0.4 Ang I ng/ml/h, p < 0.05) and Na-K-Cl cotransport (230 +/- 39 vs 372 +/- 24 mumolNa/L RBC/h, p < 0.01). Our data suggest the existence of a subgroup of essential hypertensives surprisingly insensitive to HCTZ, characterized by a "low" PRA and by a Na(+)-K(+)-Cl- cotransport higher than the HCTZ-R. Their selective response to K-Can suggest a peculiar pathogenetic mechanism underlying their high blood pressure.

Abstract: The Camerano Study on Arterial Hypertension (AH) is a cross-sectional study, carried out on a wide population sample in a small town in Central Italy, and aimed at revealing the prevalence of certain characteristics of AH in the population examined. In particular, we studied some aspects of blood pressure (BP) levels during the medical visits. To evaluate the effects of the medical visit on BP levels, we divided the subjects into 3 groups: I) Hypertensive subjects, II) Treated hypertensive subjects, III) Normotensive subjects (control group). The Systolic Arterial Pressure (SAP) in normotensive subjects reached maximum levels during the first medical visit and then decreased in the following two controls (p < 0.001). The Diastolic Arterial Pressure (DAP) did not show any significant changes during the three measurements (p = n.s.). Instead the maximum level of SAP in the hypertensive group did not appear at the first measurement but only after 5 minutes and was seen to decrease towards the end of the visit (p < 0.001). Even DAP showed different levels compared to the normotensives: a decrease in BP levels was registered after 15 minutes respect to earlier measurements (p < 0.01). The levels of group II were similar to those of normotensive subjects.

Abstract: Little is known of the genetics of glomerular damage in essential hypertension in humans. The prevalence of end-stage renal disease due to primary hypertension varies from 20% to 30% of all cases of renal failure to as low as 0.002%. This depends not only on differences in diagnostic criteria but also on different racial susceptibility to the disease as well as on different genetic backgrounds in different subsets of individuals of the same race. A review of the literature is provided, together with an example of how a point mutation that causes hypertension in Milan hypertensive rats can provide a model to analyze this issue correctly.

Abstract: Elevated erythrocyte sodium-lithium countertransport (SLC) activity is an intermediate phenotype of essential hypertension among Caucasians, and is controversially associated with nephropathy in Type 1 (insulin-dependent) diabetes. Hypertriglyceridemia is a frequent concomitant of elevated SLC in the general population, and may be found in diabetic nephropathy. The present study was designed to investigate the influence of kidney disease, serum triglycerides and blood pressure on the interindividual variability of SLC in Type 1 diabetes. SLC and fasting major serum lipids were studied in 35 Type 1 diabetic patients with persistently elevated urinary albumin excretion and in a group of patients matched for age, sex and duration of diabetes, but with normoalbuminuria. SLC was elevated in patients with clinical nephropathy (N = 10; median: 420 mumol.1RBC-1.hr-1) and in patients with microalbuminuria (N = 25; median: 405 mumol.1RBC-1.hr-1) compared with normoalbuminuric patients (median: 296 mumol.1RBC-1.hr-1; P < 0.01 vs. both groups). Hypertriglyceridemia and hypercholesterolemia were found only among patients with macroalbuminuria. Analysis of covariance indicated that the association of elevated SLC with kidney disease (P < 0.006 in all models) was largely independent of serum triglycerides, but also of total cholesterol, insulin dose and measures of glycemic control. Only diastolic blood pressure was positively associated with SLC (P < 0.02) independently from nephropathy (P < 0.005) also after restricting analysis to the normoalbuminuric patients. Kidney disease and raised blood pressure remain major concomitants of elevated SLC in Type 1 diabetics.

Abstract: OBJECTIVE: To determine whether essential hypertensive patients with high Na+,K+,Cl- cotransport (COT) display alterations of some indices of kidney tubular reabsorption similar to those observed in Milan hypertensive (MHS) rats, which have high COT in both erythrocytes and kidney tubular cells, and hypertension caused by a primary increase of tubular reabsorption. DESIGN: Two sets of experiments were performed. First, renal function in two subgroups of hypertensive patients (one with 'high' and one with 'normal' COT was compared with that in normotensive controls. Secondly, the natriuretic and diuretic effects of a single oral dose of frusemide (25 mg) were analysed in six high- and in six normal- COT hypertensive patients. RESULTS: Compared with normotensives and with normal-COT hypertensives, high-COT hypertensives had lower fractional uric acid excretion and plasma renin activity with similar glomerular filtration rate and urinary sodium and potassium excretion. COT was negatively correlated with fractional uric acid excretion in the essential hypertensive patients but not in the normotensives. The diuretic natriuretic response to frusemide was much higher in high- than in normal-COT hypertensives. CONCLUSION: These results are consistent with the hypothesis that patients with high COT have abnormal renal handling of sodium similar to that observed in MHS rats.

Abstract: The description of pathogenetic mechanisms underlying different genetic models of essential hypertension is a useful way of illustrating the logical sequence needed to dissect a complex phenotypic condition such as hypertension. The abnormalities in renal function observed in spontaneously hypertensive rats of the Okamoto strain and Milan strain will be emphasized. The description may proceed "downward" from alterations that affect the whole body function to cellular and subcellular levels. However, the identification in the Milan strain rats of a point mutation in the gene coding for adducin, a skeletal protein able to modulate transepithelial sodium transport, provides the opportunity to reconstruct, in an "upward" direction, the sequence of events leading from the single point mutation to the final complex phenotype of essential hypertension.

Abstract: The Camerano study on arterial hypertension (AH) was a cross-sectional study, carried out on a large population sample in a small town in central Italy. The main goal was to reveal both the prevalence and certain characteristics of AH in the population examined. The main results, can be summarized as follows: (i) The occurrence of AH in the old (65-74 years) and very old (> or = 75 years) groups was 43.3 and 57.4%, respectively. (ii) isolated systolic hypertension (ISH) was found in 1.7, 23.6 and 3.9% in the adult, old and very old subjects, respectively. (iii) The association of AH with some of the more common cardiovascular risk factors (dyslipidemia, hyperglycemia, obesity, etc.) was significant for all the risk factors in the adult group, while in the old group there was a significant association only with the body mass index. (iv) Blood pressure (BP) values during the medical visits were evaluated, and adult versus old subjects were compared, but no significant differences were found.

Abstract: In the Milan hypertensive rats (MHS) glomerulosclerosis is less evident than in the normotensive strain (MNS). To clarify whether this pattern is due to a 'protective effect' of increased afferent arteriolar tone or to a different mechanism, we studied 12 first-generation hybrids (F1), 4 parental MHS and 4 parental MNS rats. Four-micrometer sections were stained with hematoxylin, Mallory's trichrome stain and periodic acid-Schiff reaction. The blood pressure of the F1 rats was only slightly higher than that of the MNS so that very probably renal vascular resistances were similar. The F1 rats had low proteinuria (23.3 +/- 2.7 mg/24 h) like the MHS (25.3 +/- 4.8), and few damaged glomeruli per section (18.5 +/- 1.2), again like the MHS (18.7 +/- 1.1). MNS had higher proteinuria (363.8 +/- 111.6; p less than 0.01 vs. MHS and F1) with a greater number of damaged glomeruli (51.4 +/- 4.5; p less than 0.01 vs. MHS and F1). The difference in afferent arteriolar resistance is not implicated in glomerulosclerosis.

Abstract:

Abstract: Na-K-Cl cotransport was measured in 209 essential hypertensive patients (EH) and in 114 normotensive controls (NT). The distribution of Na-K-Cl cotransport was bimodal in EH and unimodal in NT. The EH with higher Na-K-Cl cotransport values had increased passive permeability to Na in fresh erythrocytes and increased Li-Na countertransport compared to NT. Li-Na countertransport was significantly increased in the EH as a whole, but the increase was accounted for by some EH individuals with elevated Na-K-Cl cotransport values. A simple biometric analysis of the Na-K-Cl cotransport was performed for 287 individuals of 86 families with different prevalence of hypertension (neither parent hypertensive, 39 families; one, 31 families; or both, 16 families). Na-K-Cl cotransport was not correlated between spouses, but was correlated highly significantly between the average value of the two parents (mid-parent) and offspring. The polygenic additive heritability (h2) was about 50% for all families considered together. It increased slightly for the hypertensive families analyzed alone (no significant correlation was found, and hence genetic heritability, in the normotensive families). Finally, after applying arbitrary cut-off points to the Na-K-Cl cotransport values, segregation analysis showed that some major gene, recessive for the high allele, also contributes to the phenotypic value of Na-K-Cl cotransport.

Abstract: The mechanisms of cyclosporine A (Cs A) nephrotoxicity are not clear, but may be associated with high blood pressure and high serum uric acid levels even when kidney function is still normal. To evaluate proximal tubular resorption and its relationship with erythrocyte cation transport systems that are known to be abnormal in essential hypertension, we measured fractional excretion of endogenous uric acid (FE Ur%) and exogenous lithium (FE Li%), erythrocyte sodium concentration, Na-K pump, Na-K cotransport and Li-Na countertransport in two groups of kidney transplant recipients with normal kidney function (creatinine less than 1.6 mg/dL), one treated with Cs A and steroid (Cs A group) and the other with azathioprine and steroid (Aza group). Patients were matched for sex, body mass index, and age. Antihypertensive treatment was measured using arbitrary scores. Erythrocyte sodium transport systems were similar in the two groups. Despite normal kidney function, the Cs A group had higher blood pressure (mean blood pressure 108.6 +/- 3.1 mmHg vs 98.3 +/- 2.4, p less than 0.01), although taking more antihypertensive treatment, and increased proximal tubular resorption (FE Li%: 12.8 +/- 1.5 vs 20.5 +/- 1.7, p less than 0.001) and global proximal tubular resorption (FE Ur%: 5.2 +/- 0.48 vs 7.09 +/- 0.41, p less than 0.05). These findings may explain the greater prevalence of hypertension in the Cs A group. Increased urate resorption may be involved in interstitial abnormalities, which are the earliest signs of Cs A toxicity. Cs A did not modify erythrocyte ion transport systems.

Abstract: This study investigated whether fractional lithium excretion (FELi), used as a marker of proximal fluid delivery, changes during different phases of essential hypertension. Forty-eight subjects were studied: 12 essential hypertensives (EH); 12 borderline hypertensives (BL); 12 normotensives with a positive family history of essential hypertension (NH) and 12 normotensives without a family history of essential hypertension (NN). Measurements were performed in the recumbent position, both in basal conditions and after a saline load (2% body weight in 1 h; 0.333 ml/min per kg body weight). In basal conditions, a moderate extracellular volume expansion was already present in the subjects. In these conditions, FELi of EH was significantly higher than that of all the other groups (P less than 0.01). After the saline load, fractional sodium excretion increased in all the groups (P less than 0.01), but to a significantly greater extent in EH (P less than 0.01). FELi rose significantly only in BL (P less than 0.05). The change in FELi of BL correlated positively (P less than 0.02) with the change in blood pressure in 10 of these subjects 3 years after this study. Moderate extracellular volume expansion may be able to either reveal or stimulate an increase of FELi in subjects with established hypertension. When a greater degree of extracellular volume expansion is induced, this increases FELi in BL and this effect may be related to the subsequent development of hypertension.

Abstract: Erythrocyte Na-K cotransport is high and genetically correlated to hypertension in Milan hypertensive strain (MHS) rats. In man there is a substantial overlap of individual values between essential hypertensives and controls. However, the findings in rat strains with different types of genetic hypertension suggest that Na-K cotransport studies may throw light on the different pathogenetic mechanisms of the human disease. In 28 normotensive and 22 hypertensive families the midparent-offspring correlation of Na-K cotransport values was significant only in hypertensive families (r = 0.48) and not significant in normotensive ones (r = 0.06), indicating genetic polymorphism for its phenotypic expression only in the hypertensives. In 189 essential hypertensives and 109 normotensives carefully selected from a population-based screening in order to exclude uneven sampling bias, analysis for the bimodality of the distribution of Na-K cotransport clearly showed that normotensives are distributed unimodally and hypertensives bimodally, with nadir of the distributions at about 450 mumols (1 RBC/h). Dividing the hypertensives according to Na-K cotransport value, the high Na-K cotransport subgroup has lower fractional percent excretion of uric acid and plasma renin activity. These data suggest that the high Na-K cotransport subgroup has peculiar characteristics of greater proximal tubular reabsorption (lower fractional excretion of uric acid) that may cause body volume expansion (lower plasma renin activity).

Abstract: Environmental factors, genetic polymorphism and differences in experimental design have been the main impediments to evaluating the evidence for a genetic association between cell membrane cation transport abnormalities and human essential or genetic hypertension. The present paper reviews the results obtained in the Milan hypertensive rat (MHS) and in its corresponding normotensive strain (MNS) in order to illustrate our approach to defining the role of cation transport abnormality in a particular type of genetic hypertension. Kidney cross-transplantation between the strains showed that hypertension is transplanted along with the kidney. Proximal tubular cell volume and sodium content were lower in MHS rats while sodium transport across the brush border membrane vesicles of MHS rats was faster. Erythrocytes of MHS rats have a smaller volume, faster Na,K cotransport and a lower Km for internal sodium compared with MNS rats. The faster cotransport is also present in renal cells of the ascending limb and in vascular muscle cells. Moreover, these erythrocyte abnormalities are genetically associated in F2 hybrids and are primarily determined in the stem cells. These differences in ion transport between MHS and MNS rats are not present when studied in erythrocyte inside-out vesicles, which are deprived of membrane skeletal proteins, suggesting that a molecular abnormality underlies the functional one. We have identified a point mutation of one of these cytoskeletal membrane protein adducin genes in MHS rats. At present we are evaluating the possibility that mutation of the adducin gene in MHS rats might account for the differences in ion transport and, therefore, in blood pressure between the two strains.

Abstract: The efficacy of captopril at 75 mg/day, atenolol at 100 mg/day and canrenoate potassium at 200 mg/day was compared in 42 essential hypertensive patients in randomly assigned sequences. All the drugs lowered blood pressure significantly but variations were found in the individual response. Patients who were more responsive to captopril also seemed to be more responsive to atenolol and vice versa (r = 0.75; P less than 0.0001), while the relationship between mean blood pressure reached after canrenoate potassium and that reached after atenolol or captopril was much weaker. The patients who were responsive to atenolol and captopril were considered as one group (n = 22) and compared with the 12 patients more responsive to canrenoate potassium. Before treatment, the former group had higher plasma renin activity (PRA) and lower Na,K cotransport activity across the erythrocyte membrane than the latter. These two variables, considered together as a discriminant function, correctly classified 92% of cases in the canrenoate potassium responder group and 73% of cases in the atenolol-captopril responders. These results raise the problem of individual assessment to obtain the most effective antihypertensive therapy and suggest that PRA and Na,K cotransport may be useful in predicting the individual response to antihypertensive drugs.

Abstract: Essential hypertension develops from interactions between genetic and environmental components. Studies on cell membrane ions (in particular the sodium ion) transport in essential hypertension were originally carried out in order to better understand the roles these two components play in a less complex system than the overall organ system or the single organs involved in blood pressure regulation. The theory supporting this experimental approach is based on the observation that cell membrane function affects all the phenomena involved in blood pressure regulation. Receptor function, hormonal secretion, cell volume regulation, ion transport and ion composition of the cell are all regulated at the cell membrane level. However the problem of the relevance of cellular sodium metabolism in the pathogenesis of essential hypertension and of the interpretation of the many conflicting results has grown in complexity with the growing mass of data published in the literature. At least part of this complexity seems related to methodological problems but part is surely due to real differences among the various populations or subpopulations studied. This review analyzes the main sources of the discrepancies, the different ion transport systems and the end point of the overall transport system as well as the steady state intracellular cation concentration in both genetic animal models of essential hypertension and in man.

Abstract: Essential hypertension is a genetic disease. Its phenotypic expression depends on the interaction between genetic and environmental factors. In prehypertensive rats of the Milan hypertensive strain (MHS) a genetically inherited increase of tubular reabsorption was found, which causes the increase of blood pressure. Studies of ion transport systems in these rats have shown that the Na-K cotransport activity is increased both in erythrocytes and in tubular cells of MHS rats compared with their normotensive controls (MNS) and that this alteration is genetically linked to the transmission of high blood pressure levels. Also, in young human normotensives prone to develop essential hypertension there is an abnormal pattern of renal function which could be in agreement with a primitive increase in tubular reabsorption. Studies of erythrocyte ion transport systems in these subjects suggest that at least in a subgroup of humans predisposed to develop essential hypertension a pathogenetic mechanism similar to the one proposed for the MHS rat can be at work.

Abstract: The role of the kidney in "essential" or "genetic" types of hypertension has been evaluated both in a rat model such as the Milan hypertensive strain (MHS) or in humans. In both species, abnormalities of renal function have been demonstrated before the development of hypertension. Moreover hypertension could be "transplanted" with the kidney when kidney cross-transplantation was carried out between MHS and the Milan normotensive strain (MNS). Also in humans, the familiality for hypertension of the donor affected the requirement of antihypertensive therapy of the recipient. Further studies furnished results that were consistent with the hypothesis that a primary increase in Na transport across the tubular cell could be responsible for the pressor effect of the kidney in MHS or in humans. Because many similarities were found between the function of the tubular cell and the red blood cell in MHS, red blood cells were used to gain information about the molecular genetic mechanisms underlying these cellular changes. The results so far obtained showed that red blood cell abnormalities in MHS were genetically determined within the stem cells and genetically associated with the development of hypertension in F2 hybrids obtained by crossing the F1 (MHS X MNS). Moreover, the abnormal Na transport across the cell membrane may be due to an abnormal function of the membrane skeleton proteins. Studies are in progress to evaluate a possible cause-effect relationship between: membrane skeleton protein-ion transport across the cell membrane and the development of hypertension.

Abstract: An approach to evaluating the genetic components of essential hypertension using an animal model, the Milan hypertensive strain (MHS) of rats, and studies in human families with positive and negative histories for high blood pressure are described and discussed. Differences at renal and cellular levels between MHS and its normotensive control strain, MNS, show many similarities to those between offspring from hyper- and normotensive families in humans. These include, with respect to the former group of each species, lower erythrocyte volume and Na content, higher Na-K cotransport across red blood cell (RBC) membranes higher Na excretion after load, and greater pressor effect in transplanted kidneys. A novel protein found in rat RBC cytoskeleton appears to have a function in Na-K cotransport and it may, eventually, be possible to demonstrate in man.

Abstract: The differences observed among rat strains in both basal [Na+]i and the several cation transport systems seem to be due to the different genetic background as clearly shown in F2 populations or after bone marrow transplantation in MHS. The same may be true for humans. In spite of all the caution taken in interpreting the data, because of the great possibility of methodological errors, it is likely that the differences observed in many laboratories are due to uneven genetic or ethnic composition of the samples studied, as shown by Dagher and Canessa. One intriguing observation is that most reports of "low Na-K cotransport" values in hypertensive patients are from Mediterranean countries (Italy, France, and Spain), whereas most reports of "high," or "not low Na-K cotransport," or very high values of countertransport came from populations originating from North Europe (Denmark, USA, South African whites). We are not aware of any study on erythrocyte Na-K cotransport performed in Great Britain (the greatest source of American immigrants). Indeed the difference in cotransport values between North and South European hypertensives might be due to different environmental factors, but if this is so, the difference does not depend on the salt consumption or plasma lipids that are similar in our high and low Na-K cotransport hypertensives (Cusi D et al, submitted). The picture seems relatively less confusing for calcium. The most consistent alterations in different models of hypertension is a decreased Ca-pump in SHR, MHS, and DOCA rats, reduced calcium binding in SHR and MHS, and reduced microsomal ATP dependent calcium uptake in SHR and DOCA rats. [Ca++]i, which is increased in established hypertension in man and rats, is normal in young prehypertensive rats and humans, and returns to normal values after pharmacological treatment of hypertension. This pattern of changes suggests that genetic control of these transport systems is weaker, and probably much influenced by different environmental conditions. However, because of the pivotal role of calcium in vascular smooth muscle cell concentration, its intracellular increase may be the common pathway of the different forms of hypertension. What remains unclear is the relation, if any, between calcium and sodium. Blaustein tried to find a link between them, but his hypotheses have yet to be confirmed.

Abstract: Essential hypertension develops from the interaction of genetic and environmental factors. In the Milan hypertensive strain (MHS) rat before the development of hypertension, there is a genetically inherited increase of tubular reabsorption which is the cause of the following increase of blood pressure. Also in young normotensive humans, predisposed to develop essential hypertension later in life, there is an abnormal pattern of renal function that may be explained by increase of tubular reabsorption. The studies of the erythrocyte membrane transport support these data and suggest that at least a subset of essential hypertensive humans may develop a form of hypertension that has pathogenetic mechanisms similar to the ones of MHS rats.

Abstract: We compared the antihypertensive efficacy of atenolol (100 mg/d), canrenoate potassium (200 mg/d), and captopril (75 mg/d) in 30 essential hypertensives. The three drugs were administered in a randomized change-over sequence for four-months each. The main variables associated with blood pressure regulation were measured in the basal condition and at the end of each treatment period. The erythrocyte Na transport systems were measured only in the basal condition and at the end of the first treatment period. The average blood pressure reduction was similar for each drug. Mean blood pressure levels after captopril correlated positively with those after atenolol in the individual patients (P less than 0.0001); mean blood pressure levels after canrenoate potassium, on the contrary, did not correlate with those after the other two drugs. Captopril and canrenoate potassium treatment reduced intraerythrocyte Na content (P less than 0.02), canrenoate potassium increased Na-K pump (P0.05), atenolol did not change any erythrocyte membrane Na transport parameters. The ouabain-resistant Na transport systems were not modified by any drug. The patients were divided in three groups according to their antihypertensive response: nonresponders (six patients), canrenoate potassium responders (nine patients) and captopril-atenolol responders (15 patients, equally responsive to both drugs). Nonresponders had the lowest basal Na pump (P less than 0.02). Canrenoate potassium responders had higher basal Na-K cotransport than captopril-atenolol responders (P less than 0.02). Atenolol-captopril responders had the highest basal plasma renin activity (PRA, P less than 0.02). The blood pressure reduction after atenolol correlated with the induced fall in PRA (P less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)

Abstract: Idiopathic hypercalciuria is a common disorder whose inheritance suggests an enzyme abnormality in calcium transport. We measured calcium-magnesium-ATPase activity in erythrocytes from 38 patients (mean age [+/- SEM], 40 +/- 2.1 years) with idiopathic hypercalciuria (24-hour urinary calcium excretion greater than or equal to 0.1 mmol per kilogram of body weight) and a history of multiple calcium oxalate kidney stones. As compared with 41 healthy controls, the patients with hypercalciuria had increased erythrocyte-membrane calcium-magnesium-ATPase activity (64.2 +/- 2.19 vs. 51.6 +/- 1.91 nmol of ATP split per milligram per minute; P less than 0.01) and increased sodium-potassium pump activity (6866 +/- 233 vs. 6096 +/- 228 mumol of sodium per liter of red cells per hour; P less than 0.05). No significant difference between the two groups was found in erythrocyte sodium-potassium cotransport, sodium-lithium countertransport, or potassium content. In 66 patients with kidney stones (38 with hypercalciuria and 28 with normal calcium excretion), 24-hour urinary calcium excretion correlated with calcium-magnesium-ATPase activity (r = 0.46, P less than 0.001). Erythrocyte calcium-magnesium-ATPase activity remained unchanged in eight subjects studied after four months on a low-calcium diet. A study of 30 healthy families found significant correlations between mean values in parents and those in offspring for calcium-magnesium-ATPase (r = 0.68, P less than 0.001) and urinary calcium excretion (r = 0.45, P less than 0.02), with no significant correlations between parents with respect to these measures (r = 0.27 and r = 0.08, respectively). We conclude that abnormalities in erythrocyte calcium-magnesium-ATPase activity may represent an inherited defect in calcium transport related to the cause of idiopathic hypercalciuria.

Abstract: The calpain-calpain inhibitor system was evaluated in erythrocytes of patients with essential hypertension and normotensive controls, either with or without a family history of hypertension. Calpain levels were similar in the controls and hypertensive patients, whereas the inhibitor activity level was significantly reduced in the latter (301.8 +/- 26.4 vs 220 +/- 14 U/mg hemoglobin, p less than 0.001). Borderline hypertensive patients and a few controls with a history of hypertension showed low inhibitor activity. Similar results have recently been reported in genetically hypertensive rats of the Milan strain. A significant inverse correlation (r = -0.43, p less than 0.001) was found between mean arterial pressure and calpain inhibitor. Although the pathophysiological significance of these observations is not yet clear, they suggest a new area of investigation into the molecular mechanisms underlying essential hypertension and its complications.

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Abstract: We report in this paper different modes of Na and K transport in human red cells, which can be inhibited by furosemide in the presence of ouabain. Experimental evidence is provided for inward and outward coupled transport of Na and K, Ki/Ko and Nai/Nao exchange, and uncoupled Na or K efflux. The outward cotransport of Na and K was defined as the furosemide-sensitive (FS) component of Na and K effluxes into choline medium and as the Cl-dependent or cis-stimulated component of the ouabain-resistant (OR) Na and K effluxes. Inward cotransport of Na and K was defined by the stimulation by external Na (Nao) of the K influx and the stimulation by external K (Ko) of the Na influx in the presence of ouabain. Both effects were FS and Cl dependent. Experimental evidence for an FS Ki/Ko exchange pathway of the Na/K cotransport was provided by (a) the stimulation by external K of FS K influx and efflux, and (b) the stimulation by internal Na or K of FS K influx in the absence of external Na. Evidence for an FS Nai/Nao exchange pathway was provided by the stimulation of FS Na influx by internal Na from a K-free medium (130 mM NaCl). This pathway was four to six times smaller than the Ki/Ko exchange. In cells containing only Na or K, incubated in media containing only Na or K, respectively, there was FS efflux of the cation without simultaneous inward transport (FS uncoupled Na and K efflux). The stoichiometric ratio of FS outward cotransport of Na and K into choline medium varied with the ratio of Nai-to-Ki concentrations, and when Nai/Ki was close to 1, the ratio of FS outward Na to K flux was also 1. In choline media, FS Na efflux was inhibited by external K (noncompetitively), whereas FS k efflux was stimulated. The stimulation of FS K efflux was due to the stimulation by Ko of the Ki/Ko exchange pathway. Thus, the stoichiometry of FS Na and K effluxes also varied in the presence of external K. A minimal model for a reaction scheme of FS Na and K transport accounts for cis stimulation, trans inhibition, and trans stimulation, and for variable stoichiometry of the FS cation fluxes.

Abstract: In this article, we present the results we have obtained from experimental and genetic models of human essential hypertension, in order to investigate those findings relevant to understanding the time course and the mechanisms underlying the human disease. With experiments on the renal artery constriction in the conscious dog, we have shown that a kidney lesion can produce a form of hypertension not different, in the established phase, from the essential one and that the onset of this form follows a phasic pattern during which the initial stages are crucial for understanding the mechanisms leading to hypertension. We also consider a rat model (MHS) that spontaneously develops a form of hypertension very similar to the human disease. In this model, we have demonstrated by a kidney cross-transplantation experiment and functional studies that the kidney is responsible for the rise in blood pressure and that the organ dysfunction is probably due to a primary abnormality in ion handling of the cell membrane. This cellular alteration, detected both in MHS erythrocytes and in their kidney proximal tubular cells, should be the cause for the higher rate of kidney Na+ reabsorption observed in the MHS. Comparing this animal model with, at least, a subgroup of humans prone to develop hypertension or already hypertensive, it is possible to detect a series of similarities in the kidney function, hormonal pattern, and cellular function of the two species that allows us to argue that the MHS is a suitable model from which to draw conclusions relevant to the pathogenesis of essential hypertension in some humans.

Abstract: We measured red blood cell Na+-K+ pump, Na+-Li+ countertransport and Na+-K+ cotransport activities, together with intraerythrocyte sodium content before and after 3 months therapy with captopril and two other antihypertensive drugs (atenolol and canrenoate potassium) in subjects suffering from essential hypertension. All patients discontinued any previous treatment at least 3 months before the basal evaluation of cell membrane activities. All three drugs significantly lowered blood pressure but only captopril and canrenoate potassium induced significant modifications in red blood cell parameters. After three months of captopril therapy intraerythrocyte Na+ content was significantly decreased (P less than 0.01) without any detectable change in cation transport system activity. After 3 months of canrenoate potassium therapy we also observed a significant decrease in internal Na content (P less than 0.01), together with a significant increase in Na+-K+ pump (P less than 0.02) and Na+-Li+ countertransport (P less than 0.05) activities.

Abstract: This paper reports experiments designed to find the concentrations of internal and external Na and K at which inward and outward furosemide-sensitive (FS) Na and K fluxes are equal, so that there is no net FS movement of Na and K. The red cell cation content was modified by using the ionophore nystatin, varying cell Na (Nai) from 0 to 34 mM (K substitution, high-K cells) and cell K (Ki) from 0 to 30 mM (Na substitution, high-Na cells). All incubation media contained NaCl (Nao = 130 or 120 nM), and KCl (Ko = 0-30 mM). In high-K cells, incubated in the absence of Ko, there was net extrusion of Na through the FS pathway. The net FS Na extrusion increased when Nai was increased. Low concentrations of Ko (0-6 mM) slightly stimulated, whereas higher concentrations of Ko inhibited, FS Na efflux. Increasing Ko stimulated the FS Na influx (K0.5 = 4 mM). Under conditions similar to those that occur in vivo (Nai = 10, Ki = 130, Nao = 130, Ko = 4 mM, Cli/Clo = 0.7), net extrusion of Na occurs through the FS pathway (180-250 mumol/liter cell X h). The concentration of Ko at which the FS Na influx and efflux and the FS K influx and efflux become equal increased when Nai increased in high-K cells and when Ki was increased in high-Na cells. The net FS Na and K fluxes both approached zero at similar internal and external Na and K concentrations. In high-K cells, under conditions when net Na and K fluxes were near zero, the ratio of FS Na to FS K unidirectional flux was found to be 2:3. In high-K cells, the empirical expression (Nai/Nao)2(Ki/Ko)3 remained at constant value (apparent equilibrium constant, Kappeq +/- SEM = 22 +/- 2) for each set of internal and external cation concentrations at which there was no net Na flux. These results indicate that in the physiological region of concentrations of internal and external Na, K, and Cl, the stoichiometry of the FS Na and K fluxes is 2 Na:3 K. In high-Na cells under conditions when net FS Na and K fluxes were near zero, the ratio of FS Na to FS K unidirectional fluxes was 3:2 (1).(ABSTRACT TRUNCATED AT 400 WORDS)

Abstract: Many similarities in kidney-function abnormalities were found between hypertensive rats of the Milan strain (MHS) and young normotensive human subjects with hypertensive parents, compared with the appropriate controls. These similarities included an increased glomerular filtration rate, increased pressor effect of the kidney after transplantation, increased 24-h urinary output and lower plasma renin activity and urinary kallikrein. The isolated MHS kidney perfused in vitro with an artificial medium had a higher glomerular filtration rate, a higher urinary output, higher tubular sodium reabsorption and higher oxygen consumption than the kidney of control Milan normotensive rats (MNS). Further, reogenic sodium transport across brush border vesicles isolated from proximal tubular cells is faster in MHS than in MNS. Erythrocytes and proximal tubular cells of MHS have a lower volume and sodium content than those of MNS, while sodium transport is faster and the Ca2+-ATPase at Vmax is lower. This indicates that the 'genetic' cellular abnormality responsible for the renal-function abnormality and the hypertension is also present in erythrocytes. Thus these cells may be used to study the genetic cellular mechanisms of hypertension. Experiments with bone marrow transplantation and with F2 hybrids obtained by crossing the F1 (MHS X MNS) hybrids showed that the MHS erythrocyte abnormalities are genetically determined within the stem cells and are genetically associated with the hypertension. Since, in human hypertensives, there was a correlation between abnormal erythrocyte sodium transport and renal function, it is proposed that erythrocytes may be used in studying the cellular molecular mechanisms of hypertension.

Abstract: Evidence indicates that an alteration in kidney function has a causal role in the pathogenesis of hypertension in the Milan hypertensive strain (MHS) rat. At the prehypertensive stage, these animals have increased glomerular filtration rate and 24-hour urinary output, whereas plasma renin activity and urinary kallikrein are lower. After transplantation, the MHS kidney increases the blood pressure of a normotensive recipient. Micropuncture experiments, where single nephron filtration rate, tubuloglomerular feedback, proximal tubular reabsorption, micro-pressures in tubuli, and interstitium and interstitial oncotic pressure were measured, suggest that the intrinsic ability of MHS proximal tubular epithelium to reabsorb solute and water is greater in prehypertensive MHS rats than in Milan normotensive strain (MNS) rats. Also rheogenic Na transport across the brush-border vesicles isolated from proximal tubular cells is faster. When erythrocytes and proximal tubular cells of MHS rats are compared to those of MNS rats, the former have smaller volume and Na content, whereas the Na transport is faster and the Ca ATPase at Vmax is lower. This indicates that the genetic cellular abnormality responsible for the renal functional abnormality and hypertension is also present in erythrocytes. Moreover, MHS erythrocyte abnormalities are genetically determined within the stem cells and are genetically associated with hypertension. Because a correlation was also found in human hypertension between erythrocyte Na transport abnormality and renal function, it is proposed that the erythrocyte may be used for studying the genetic molecular mechanisms of hypertension.

Abstract: The relationship between the kidney and genetic hypertension has been assessed in light of the changes seen in some kidney and cell functions during the phases preceding and accompanying the development of "genetic" types of hypertension in rats and humans. Comparison of the kidney function of normotensive subjects likely to develop hypertension with that of matched controls resistant to hypertension showed, in the former, a higher glomerular filtration rate (GFR), greater tubular reabsorption, larger 24-h urinary output, larger fraction of cardiac output to the kidney, and lower plasma renin activity. After the transplantation of a kidney from a subject in the hypertension-prone group, recipients had higher blood pressure and required more antihypertensive therapy than recipients of kidneys from the hypertension-resistant group. In humans this finding is not as clear as in rats. During the development of hypertension most of these differences in kidney function in the two groups of subjects tend to disappear. The changes in cell function, measured particularly in rats, were consistent with the organ function changes. Cell volume and sodium content were lower, while the transport rate across the cell membrane was faster in proximal tubular cells of rats with genetic hypertension than in the appropriate controls. This is in keeping with the concept of a primary increase in proximal tubular reabsorption leading, on the one hand, to an increase in GFR and renal blood flow and a decrease in renin and, on the other, to an increase in blood pressure.(ABSTRACT TRUNCATED AT 250 WORDS)

Abstract: In this brief review, some aspects of the relation between sodium balance and peripheral resistance in four types of arterial hypertension are discussed. Renal hypertension, hypertension caused by reduced kidney mass and sodium load, mineralocorticoid hypertension, and spontaneous or "genetic" hypertension in rats are considered. In all these forms of hypertension, the increase in peripheral resistance is preceded by changes in body sodium and fluids. However, the precise role of these changes in the development of the subsequent rise of peripheral resistance is not yet clear. Changes in ion transport across the cell membranes have been demonstrated even before the development of hypertension, especially the forms caused by mineralocorticoids or genetic factors. Even though we do not know the underlying mechanisms, it is very likely that these cell-membrane changes are involved in the rise of peripheral resistance and blood pressure.

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Abstract: In 65 young normotensive subjects with two hypertensive parents (HP), and in 55 matched subjects with two normotensive parents (NP), the following factors were measured: renal plasma flow (RPF), glomerular filtration rate (GFR) both as Inutest and creatinine clearances; 24-hr urinary output; plasma renin activity (PRA); Na and K in plasma and in 24-hr urine and 24-hr urinary excretion of aldosterone. In 30 HP and in 34 NP, the cardiac output and plasma concentrations of noradrenaline, adrenaline, and dopamine were also measured in the supine position and after 10 min of standing. The HP have greater RPF (P less than 0.01), faster GFR (P less than 0.02), greater 24-hr urinary output (P less than 0.05), and lower PRA (P less than 0.01) than the NP. All the other factors were similar in the two groups of patients. It is proposed that the differences in renal function in the HP and the NP may be due to an abnormality in tubular handling of ions and water in the HP, which may be responsible for the increase in blood pressure in a proportion of patients with essential hypertension.

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Abstract: Renal and cardiac function were measured in 65 offspring of hypertensive parents (OHP) and in 56 offspring of normotensive parents (ONP). In two additional groups of 24 OHP and 42 ONP plasma renin activity (PRA) and plasma active (PRAC), inactive (PRIC) and total (PRTC) concentration were measured. OHP had significantly higher renal plasma flow (p less than 0.01), glomerular filtration rate (p less than 0.02) and 24-hour urinary output than ONP, while PRA was lower (p less than 0.01). The measurements of the different forms of renin gave the following results: PRIC and PRTC were lower in OHP than in ONP, but the only statistically significant difference concerns PRIC (p less than 0.025). A possible interpretation of these findings is that a primary increased tubular ion and water reabsorption might be the cause of the kidney function pattern seen in OHP.

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Abstract: The maximal rate of activity of Na extrusion by the Na pump, Na-K outward cotransport, Na-Li countertransport and the rate constant for passive permeability to Na, K and Li were measured in the RBC of 24 normotensive subjects with both parents normotensive, 45 hypertensive subjects and 24 of their normotensive offspring. The Na extrusion by the Na pump and the passive permeability to Na, K and Li are equal. The hypertensives have significantly greater Na-Li countertransport and smaller Na-K cotransport when compared to the normotensives. Na-K cotransport and Na-Li countertransport are positively correlated, thus suggesting some relationship between the two systems. When arbitrary normal limits are set the hypertensives are divided in three groups: normal cotransport and countertransport (22.2%) high countertransport (31.1%) and low cotransport (44.4%). In nine hypertensive families studied if either alteration was observed in a hypertensive propositus, this was of the same kind as the one in case observed in any first degree relative, whether already hypertensive or young normotensive. The observed alterations are primitive to the development of hypertension and possibly related to its pathogenesis.

Abstract: 1. The maximal rate of activity of sodium extrusion by the sodium pump, Na+--K+ outward cotransport, passive permeability to sodium and potassium, Na+--Li+ countertransport, and passive permeability to lithium were measured in 45 essential hypertensive patients, 24 young normotensive subjects with at least one hypertensive parent and 24 normotensive subjects with both parents normotensive. 2. The maximal rate of activity of the sodium pump and the rate constants for passive permeability to sodium, potassium and lithium were similar in the three groups. 3. The mean value for Na+--K+ outward cotransport was significantly lower and that for Na+--Li+ countertransport significantly higher in the hypertensive patients than in the normotensive subjects without a family history of hypertension, but there was a great overlap between individual values. The offspring of hypertensive parents had intermediate values. 4. A highly significant positive correlation existed between Na+--K+ cotransport and Na+--Li+ countertransport both in the normotensive and in the hypertensive subjects, indicating that in the latter there were some with high Na+--Li+ countertransport and others with low Na+--K+ cotransport. 5. In nine hypertensive families studied, if an alteration of the transport system was detected in a hypertensive propositus, the same type of alteration was also found in his still normotensive offspring, thus indicating a familial tendency for the alteration to occur.

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Abstract: The renal abnormality which causes hypertension in the Milan hypertensive strain of rats disappears as hypertension develops. Because of the many analogies between the condition in these rats and "essential" hypertension in man, the same pattern of change may occur if a renal abnormality is the cause of essential hypertension in man. This hypothesis was tested in two groups of young normotensive subjects matched for age, sex, and body-surface area; in the first group both parents were hypertensive, and in the second group both parents were normotensive. Renal plasma-flow, glomerular filtration-rate, plasma-volume, plasma-renin activity, plasma-concentrations of Na+, K+, and catecholamines, 24 h urinary excretion of Na+, K+, and aldosterone, and the cardiac index were measured so that renal function and the role of factors affecting blood-pressure regulation could be assessed. Renal plasma-flow was significantly higher (p less than 0.01) in the first group, whereas results of tests for all the other factors were almost the same in both groups. The hypothesis that a primary kidney abnormality causes hypertension in a proportion of patients with essential hypertension is proposed.

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