Abstract: The tumor suppressor protein p53 triggers many of the cellular responses to DNA damage by regulating the transcription of a series of downstream target genes. p53 acts on the promoter of the target genes by interacting with the trimeric transcription factor NF-Y. H ferritin promoter activity is tightly dependent on a multiprotein complex called Bbf; on this complex NF-Y plays a major role. The aim of this work was to study the modulation of H ferritin expression levels by p53. CAT reporter assays indicate that: (i) p53 overexpression strongly downregulates the transcriptional efficiency driven by an H ferritin promoter construct containing only the NF-Y recognition sequence and that the phenomenon is reverted by p53 siRNA; (ii) the p53 C-terminal region is sufficient to elicitate this regulation and that a correct C-terminal acetylation is also required. The H ferritin promoter displays no p53-binding sites; chromatin immunoprecipitation assays indicate that p53 is recruited on this promoter by NF-Y. The p53-NF-Y interaction does not alter the NF-Y DNA-binding ability as indicated by electrophoretic mobility shift assay (EMSA) analysis. These results demonstrate that the gene coding for the H ferritin protein belongs to the family of p53-regulated genes, therefore adding a new level of complexity to the regulation of the H ferritin transcription and delineate a role for this protein in a series of cellular events triggered by p53 activation.
Abstract: Familial adenomatous polyposis (FAP) is one of the most important clinical hereditary forms of inherited susceptibility
to colorectal cancer and is characterized by a high degree of phenotypic heterogeneity. We used a mass spectrometry driven-
proteomic strategy to identify serum molecules differently expressed in FAP patients. The data obtained were subsequently
processed by bioinformatic analysis and confirmed by Western blotting. Significant differences were highlighted in
the expression of serum proteins of FAP patients. In particular, two proteins (a-2-HS-glycoprotein and apoliprotein D)
were down-regulated (about 0.5- and 0.7-fold, respectively) in carpeting versus diffuse FAP patients and healthy donors,
while a-2-antiplasmin was up-regulated (about 1.4-fold). Moreover, mass spectrometry approach enabled us to identify
serum biomarkers specific for two distinct clinical form of FAP, i.e. carpeting and diffuse FAP. In particular, vitronectin
was up-regulated (more than 1.4-fold) in diffuse FAP patients versus carpeting FAP and versus healthy donors, and two
additional proteins (Haptoglobin and a-1-acid glycoprotein 1) were up-regulated in 2 out of 3 carpeting FAP patients.
Our study suggests that mass spectrometry combined to a strong bioinformatics analysis is a valuable tool for the identification
of quali/quantitative differences in the serum proteome of otherwise indistinguishable FAP phenotypes. Moreover,
the definition of a proteomic profile, supported by the supervised classification, is a powerful and highly sensitive
approach for the identification molecular signatures that are able to outperform the traditional disease markers and
can therefore be efficiently applied for the diagnosis and clinical management of FAP patients.
2008 Elsevier Ireland Ltd. All rights reserved.
Abstract: Purpose: The aim of this study was to explore the gene expression pattern produced by the
cancer-associatedBRCA15083del19 foundermutationby usingamicroarray analysis.Suchamutation,
identifiedina subsetof familialbreast cancer patients, involves a deletionat the 3¶ endof the
BRCA1messenger leading, in themature protein, to the ablationof theBRCT tandemdomain.
Experimental Design:We generated HeLa cells stably expressing both exogenous wild-type
(HeLa/wtBRCA1), used as a control, and 5083del19 BRCA1(HeLa/5083del19BRCA1) alleles; gene
chips were then used to investigate any changes in the transcription profile induced by the
5083del19 BRCA1mutant compared with controls.
Results: Among the genes showing perturbation of their expression, periostin was found to
be up-regulated in HeLa/5083del19BRCA1cells to an extent of 72-fold versus HeLa/pcDNA3.1/empty
and 76-fold versus HeLa/wtBRCA1cells.This finding was validated both in vitro in breast cancer
cell lines harboring mutations of BRCA1and in vivo by immunohistochemistry of breast cancer
specimens bearing the 5083del19 BRCA1mutation as well as byWestern blot analysis of sera
obtained from patients and healthy carriers of the same mutation.
Conclusions: Our results suggest that periostin overexpression, whose product is released from
cells in the extracellular fluids, might be a potential marker for early cancer detection in a specific
subset of hereditary breast carcinomas triggered by cancer-associated BRCA1mutations that
affect the BRCT tandem domain.
Abstract: BRCA1 is a nuclear phosphoprotein that plays a key role in many cell functions, including DNA repair, control of transcription, recombination and cell cycle homeostasis. Inherited missense mutations in the BRCA1 gene may predispose to breast and ovarian cancer, but the molecular mechanisms underlying BRCA1-induced tumorigenesis are still to be elucidated. Functional studies performed so far have contributed to the characterization of several single-nucleotide variants, mostly located at the BRCT domain, but very little is known about modifications in the protein pattern occurring in cells carrying these mutations. To shed more light in the molecular events triggered by missense mutations affecting breast cancer susceptibility genes, we have analyzed the whole cell proteome of stably transfected HeLa cell lines bearing three distinct single aminoacid changes in the BRCA1 protein (Ser1841Asn, Met1775Arg and Trp1837Arg) by means of liquid chromatography coupled to tandem-mass spectrometry. The results show that the Met1775Arg and the Trp1837Arg do not produce significant changes in the proteomic pattern compared to cells transfected with the wild-type BRCA1 cDNA. On the other hand, a different profile is detected in the BRCA1 Ser1841Asn-bearing cell line. In this particular subset, our attention has been focused on two proteins--the tumor protein D52 (TD52) and the folate receptor alpha (FOL1)--whose expression has been already reported to be upregulated in breast cancer, as well as in other tumors. Our findings indicate that Ser1841Asn BRCA1 mutation is able to activate specific protein pathways that are not triggered by other single aminoacid changes and pinpoint to the role TD52 and FOL1 as potential markers in breast cancer patients carrying this particular BRCA1 gene alteration.
Abstract: The H ferritin promoter spans approximately 150 bp, upstream of the transcription start and is composed by two cis-elements in position -132 (A box) and -62 (B-box), respectively. The A box is recognized by the transcription factor Sp1, and the B-box by a protein complex called Bbf, which includes the CAAT binding factor NF-Y. In this study we performed a functional analysis of an H ferritin promoter allele carrying a G to T substitution adjacent to the Bbf binding site, in position -69. In vitro studies with reporter constructs revealed a significantly reduced transcriptional activity of this allele compared to that of the w.t. promoter that was mirrored by a decrease in Bbf binding. In vivo, this variant genotype is accompanied by a reduced amount of the H mRNA in peripheral blood lymphocytes.
Abstract: Women with BRCA1 gene mutations have an increased risk for breast and ovarian cancer (BOC). Classification of missense variants as neutral or disease causing is still a challenge and has major implications for genetic counseling. BRCA1 is organized in an N-terminal ring-finger domain and two BRCT (breast cancer C-terminus) domains, involved in protein-protein interaction. The integrity of the C-terminal, BRCT repeat region is also critical for BRCA1 tumor suppressor function. Several molecular partners of BRCA1 have so far been identified; among them, the tumor suppressor protein p53 seems to play a major role. This study was aimed at evaluating the impact of two missense mutations, namely the W1837R and the S1841N, previously identified in BOC patients and located in the BRCT domain of the BRCA1 gene, on the binding capacity of this protein to p53. Co-immunoprecipitation assays of E. coli-expressed wild-type and mutated BRCTs challenged with a HeLa cell extract revealed, for the S1841N variant a significant reduction in the binding activity to p53, while the W1837R mutant showed an inverse effect. Furthermore, a clonogenic soft agar growth assay performed on HeLa cells stably transfected with either wild-type or mutant BRCA1 showed a marked decrease of the growth in wild-type BRCA1-overexpressing cells and in BRCA1S1841N-transfected cells, while no significant changes were detected in the BRCA1W1837R-transfected cells. These results demonstrate that: i) distinct single nucleotide changes in the BRCT domain of BRCA1 affect binding of this protein to the tumor suppressor p53, and ii) the two missense mutations here described are likely to play a role in breast tumorigenesis. We suggest that in vitro/in vivo experiments testing the effects of unclassified BRCA1 gene variants should therefore be taken in to consideration and that increased surveillance should be adopted in individuals bearing these two BRCA1 missense alterations.
Abstract: The BRCA1 tumor suppressor gene encodes a phosphoprotein involved in many cellular key functions including DNA repair, transcription regulation, cell-cycle control and apoptosis. Most of these functions are strictly related to the ability of BRCA1 to interact with the other partners of a multimeric complex called BASC. Among these components, an important role is played by the human homolog of the bacterial MutL, MLH1. In this study, we have identified the BRCA1 binding domains to MLH1 and demonstrated that three distinct mutations in one of these interaction domains can produce, in vitro, a microsatellite instability phenotype, one of the hallmarks of an imbalance in the mismatch DNA repair machinery. These data support a model in which a structural modification in a critical domain of the BRCA1 gene product secondary to single amino acid mutations, may be able, per se, to impair the DNA damage response pathway, inducing genomic instability and eventually leading to breast carcinogenesis.
Abstract: Germline mutations within the mismatch repair (MMR) genes are generally found in colorectal cancer (CRC) patients with a positive family history for the presence of the neoplasia. Clinical standard criteria have been established to define hereditary-non-polyposis-colorectal cancer (HNPCC)-prone families. Interestingly, the number of MMR gene mutations found in kindreds not fulfilling these criteria is still increasing. In this work we report the identification of a novel germline mutation of the hMSH2 gene, in two CRC-bearing subjects. The two probands belong to a large kindred from South Italy with no history suggestive for cancer aggregation. On the other hand, the early-onset of the neoplasia as well as the presence of a high number of tumor infiltrating lymphocytes (TILs) in the histological specimens of both patients, prompted us to perform a comprehensive genetic analysis. This analysis included the evaluation of the microsatellite instability (MSI) status with five markers according to the National Cancer Institute recommendations, followed by direct sequencing of the hMLH1 and hMSH2 genes. Both probands were found to carry a germline missense (277 C>T) mutation leading to the change (L93F) of an amino acid residue in a highly conserved domain of the MSH2 protein. This mutation is accompanied by the loss of expression of the hMSH2 gene in the tumor tissue. Our findings suggest that in the presence of the above-mentioned criteria it may be useful to perform a molecular analysis of the MMR genes, even if the pedigree does not show marked aggregation of cancers.
Abstract: Germ-line mutations in the breast cancer susceptibility BRCA1 gene account for approximately half of hereditary breast cancer cases and most of breast/ovarian cancer cases. We speculated whether breast hereditary cancers might be differentially sensitive to antitumor agents such as the mitotic spindle poisons Vinca alcaloid vinorelbine (VNR) and the taxoid docetaxel (DOC), which are commonly used in the treatment of breast cancer. We investigated the sensitivity of the BRCA1-mutated HCC1937 (derived from a BRCA1 related hereditary tumor) and BRCA1 competent MCF-7 and MDA-MB468 sporadic breast cancer cell lines to these drugs. We found that HCC1937 cells were significantly more sensitive to VNR as compared to MCF-7 or MDA-MB468 cells. Instead, BRCA1-mutated breast cancer cells exposed to DOC showed similar sensitivity as compared to BRCA1-competent MCF-7 or were less sensitive than MDA-MB468. In order to assess the role of BRCA1 in this specific pattern of chemosensitivity, we transfected the BRCA1-mutated HCC1937 cells with a full-length BRCA1 cDNA and the stable clone (HCC1937/WTBRCA1) was exposed to both drugs. Full-length BRCA1 transfection led to a significant induction of resistance to VNR, whereas only a weak but not significant increase of sensitivity to DOC was detected. Moreover, VNR induced apoptotic cell death and cytoskeletal rearrangements in HCC1937 cells. We further investigated whether a defective targeting of mitotic spindle by the mutated BRCA1 gene product might be involved in the differential sensitivity to VNR. We demonstrated that mutated BRCA1 was indeed capable of co-localizing with alpha-tubulin in the mitotic spindle, suggesting therefore that different mechanisms should account for these effects. In conclusion, our data suggest that BRCA1-mutated tumors might be differentially sensitive to anti-microtubule agents, supporting the rationale for clinical trials to improve the outcome of hereditary breast cancer patients by tailored treatments.
Abstract: Germline mutations of the tumour suppressor gene BRCA1 are involved in the predisposition and development of breast cancer and account for 20-45% of all hereditary cases. There is an increasing evidence that these tumours are characterised by a specific phenotype and pattern of gene expression. We have hypothesised that differences in chemosensitivity might parallel molecular heterogeneity of hereditary and sporadic breast tumours. To this end, we have investigated the chemosensitivity of the BRCA1-defective HCC1937 breast cancer cell line, and the BRCA1-competent MCF-7 (hormone-sensitive) and MDA-MB231 (hormone-insensitive) breast cancer cell lines using the MTT assay. The 50% inhibitory concentration (IC(50)) for the individual compounds were derived by interpolate plot analysis of the logarithmic scalar concentration curve after a 48 h exposure. HCC1937 cells were significantly (P<0.005) more sensitive to cisplatin (CDDP) (IC(50) : 30-40 microM) compared with MCF-7 (IC(50) : 60-70 microM) and MDA-MB231 (IC(50) : 90-100 microM) cells. On the other hand, BRCA1-defective breast cancer cells were significantly less sensitive to doxorubicin (Dox) (IC(50) : 45-50 microM) compared with MCF-7 (IC(50) : 1-5 microM) and MDA-MB231 (IC(50) : 5-10 microM) (P<0.02), as well as to paclitaxel (Tax) (IC(50) : >2 microM for HCC1937, 0.1-0.2 microM for MCF-7 and 0.01-0.02 microM for MDA-MB231) (P<0.001). Full-length BRCA1 cDNA transfection of BRCA1-defective HCC1937 cells led to the reconstituted expression of BRCA1 protein in HCC1937/(WT)BRCA1-derived cell clone, but did not reduce tumour cell growth in soft agar. BRCA1 reconstitution reverted the hypersensitivity to CDDP (P<0.02), and restored the sensitivity to Dox (P<0.05) and Tax (P<0.001), compared with parental HCC1937 cells. Taken together, our findings suggest a specific chemosensitivity profile of BRCA1-defective cells in vitro, which is dependent on BRCA1 protein expression, and suggest prospective preclinical and clinical investigation for the development of tailored therapeutical approaches in this setting.
Abstract: A simple genetic system has been developed to test the effect of over-expression of wild-type or mutated human MutL homologue 1 (hMLH1) proteins on methyl-directed mismatch repair (MMR) in Escherichia coli. The system relies on detection of Lac(+) revertants using MMR-proficient or MMR-deficient E. coli strains carrying a lac +1 frameshift mutation expressing hMLH1 proteins. We report that expression of wild-type hMLH1 protein causes an approx. 19-fold increase in mutation rates. The mutator phenotype was due to the ability of hMLH1 protein to interact with bacterial MutL and MutS proteins, thereby interfering with the formation of complexes between MMR proteins and mismatched DNA. Conversely, expression of proteins encoded by alleles deriving from hereditary-non-polyposis-colon-cancer (HNPCC) families decreases mutation rates, depending on the specific amino acid substitutions. These effects parallel the MutL-and MutS-binding and ATP-binding/hydrolysis activities of the mutated proteins.
Abstract: Fallopian tube cancer (FTC) accounts for 0.1-0.5% of all gynaecological malignancies, so that very few studies have demonstrated a significant linkage between this cancer type and BRCA1/BRCA2 mutations. We report the identification of a novel germline mutation (Q3034R) in BRCA2 gene in a 41-year-old patient. The nucleotide change (CAG > CGG) abolishes a DdeI restriction site, making genotype identification rapid and inexpensive. Our findings support the hypothesis that the primary FTC should be considered, at least in a subset of patients, as a BRCA2-associated tumor. Genetic counselling could result, in these cases, in early diagnosis of genetically predisposed individuals.
Abstract: Hereditary nonpolyposis colon cancer (HNPCC) is associated with malfunction of postreplicative mismatch repair (MMR). While a majority of HNPCC-associated mutations in the MMR genes MLH1, MSH2, or MSH6 genes cause truncations-and thus loss of function--of the respective polypeptides, little is currently known about the biochemical defects associated with nontruncating mutations. We studied the interactions of six MLH1 variants, carrying either missense mutations or in-frame deletions, with normal PMS2 and tested the functionality of these heterodimers of MLH1 and PMS2 (MutL(alpha)) in an in vitro MMR assay. Three MLH1 carboxy-terminal mutations, consisting of internal deletions of exon 16 (amino acids 578-632) or exon 17 (amino acids 633-663), or a missense R659P mutation in exon 17, affected the formation of a functional MutL(alpha). Interestingly, mutations C77R and I107R in the amino-terminal part of MLH1 did not affect its heterodimerization with PMS2. The complexes MLH1(C77R)/PMS2 and MLH1(I107R)/PMS2, however, failed to complement a MMR-deficient extract lacking a functional MutL(alpha). As all these five mutations were identified in typical HNPCC families and produce nonfunctional proteins, they can be considered disease-causing. In contrast, the third amino-terminal mutation S93G did not affect the heterodimerization, and the MLH1(S93G)/PMS2 variant was functional in the in vitro MMR assay, given thus the nature of the HNPCC family in question. Although the missense mutation segregates with the disease, the mean age of onset in the family is unusually high (approximately 65 years).
Abstract: c-Jun is a member of the activator protein 1 family, and its interaction with different nuclear factors generates a wide spectrum of complexes that regulate transcription of different promoters. H ferritin promoter transcription is tightly dependent on nuclear factor Y (NFY). Ferritin transcription is activated by c-Jun, although the promoter does not contain a canonical binding site. NFY, on the other hand, does not bind c-Jun in vitro, whereas in vivo c-Jun is found in the complex containing NFY. Moreover, a c-Jun-GCN4 chimaeric construct containing only the transactivation domain of Jun and the basic-region leucine-zipper domain of GCN4 stimulates the H ferritin promoter. A synthetic GAL4 promoter and the cognate activator, the fusion protein NFY-GAL4, are potently activated by c-Jun. Titration of p300 by co-expressing E1A abolishes the stimulatory effect. Moreover, another p300-dependent promoter, the cAMP-response element, can be superactivated by c-Jun using the same mechanism. These data indicate that c-Jun, when activated or overexpressed, is recruited to the H ferritin promoter by p300, which links NFY, bound to DNA, to the complex. These results add a new level of complexity to transcriptional regulation by c-Jun, which can activate p300-dependent promoters without binding directly to the target DNA.
Abstract: We have characterized the promoter region of the human gene coding for the MLH1 mismatch repair protein. The total transcriptional activity of the hMLH1 promoter is driven by two positive cis-elements included between nucleotides -300 and -220. The upstream element is a canonical CCAAT box, and it is recognized by the heterotrimeric transcription factor NF-Y. On the other hand, the downstream element is recognized by a nuclear factor of about 120 kDa. Variations in hMLH1 intracellular levels may influence the surveillance of the genome integrity. The identification of the two elements may shad some light on the regulation of the transcriptional regulation of hMLH1 expression.
Abstract: Several genes have been involved in the pathogenesis of hereditary breast/ovarian cancer (BOC), but mutations in the BRCA1 gene are by far the most recurrent. In this study, we report the identification of a founder mutation in a geographically and historically homogeneous population from Calabria, a south Italian region. A screening performed on 24 patients from unrelated families highlighted the high prevalence of a 5083del19 alteration in the BRCA1 gene, which accounts for 33% of the overall gene mutations. The same mutation was also detected in 4 patients, all of Calabrian origin, referred to us by research centres from the north of Italy. Allelotype analysis, performed on probands and unaffected family members revealed the presence a common allele, therefore suggesting a founder effect due to a common ancestor. Our findings underscore the importance of ethnic background homogeneity in patients' selection and highlight the usefulness of founder mutations as a potential tool for optimisation of preclinical diagnosis in gene carriers and therapeutic approaches in affected individuals.
Abstract: Hereditary nonpolyposis colon cancer results from heritable defects in the MLH1, MSH2, PMS1 and PMS2 genes, which encode proteins involved in the mismatch repair process. In this work we report the identification of two novel germline mutations in the MLH1 gene from two unrelated HNPCC families. The two affected families do not fulfill the Amsterdam criteria. In family 1 we found a missense S93G mutation, which lies in a MLH1 domain critical for its MMR functions. In family 2 we found a two nucleotide insertion (AG) in position 523 from the AUG which determines an early stop codon at position 606 (codon 203). In both families the mutant alleles cosegregate with the cancer phenotype.
Abstract: Transcription of the H ferritin gene in vivo is stimulated by cAMP and repressed by the E1A oncoprotein. We report here the identification of the cis-element in the human promoter responsive to both cAMP- and E1A-mediated signals. This promoter region is included between positions -62 to -45 and binds a approximate 120-kDa transcription factor called Bbf. Bbf forms a complex in vivo with the coactivator molecules p300 and CBP. Recombinant E1A protein reduces the formation of these complexes. In vivo overexpression of p300 in HeLa cells reverses the E1A-mediated inhibition of the ferritin promoter transcription driven by Bbf. These data suggest the existence of a common mechanism for the cAMP activation and the E1A-mediated repression of H ferritin transcription.
Abstract: We have characterized the promoter of the human gene coding for the apoferritin L subunit. Transient transfections of 5' and 3' deletion mutants indicate that the efficiency of the L promoter depends on both negative and positive cis-elements, located upstream and downstream of the transcription start point. DNaseI footprinting analysis of this DNA region revealed the presence of five protected segments. The most upstream one (element 1) corresponds to the negative cis-element and is recognized by factor(s) sharing a GC-sequence specificity. Three positive elements are in the region upstream of the start of transcription; a fifth positive cis-element (element 5) is localized in the first exon of the L gene.
Abstract: In this paper, we examine the mechanisms that regulate the expression of the heavy (H) ferritin subunit in the colon carcinoma Caco-2 cell line allowed to differentiate spontaneously in vitro. The differentiation process of these cells in continuous culture is accompanied by an accumulation of the mRNA coding for the apoferritin H chain. The analysis of Caco-2 subclones stably transfected with an H-chain promoter-chloramphenicol acetyltransferase (CAT) construct revealed that the mRNA increase is paralleled by an enhanced transcription of the H gene, driven by the -100 to +4 region of the H promoter. The H gene transcriptional activation seems to be a specific feature of differentiated Caco-2 cells, since the activity of other promoters did not change upon differentiation. The -100 to +4 region of the H promoter binds a transcription factor called Bbf (B-box binding factor); electrophoretic-mobility-shift-assay analyses showed that the retarded complex due to Bbf-H promoter interaction is significantly increased in the differentiated cells. We propose that the activation of H-ferritin gene expression may be associated with the establishment of a differentiated phenotype in Caco-2 cells, and that the H-ferritin gene transcriptional up-regulation is accompanied by a modification in the activity of the transcription factor Bbf.
Abstract: The human gene coding for the apoferritin H subunit belongs to a complex multigene family constituted by the expressed gene and by an undefined number of pseudogenes. We have used a strategy based on PCR to amplify specifically the H pseudogenes from a sample of human genomic DNA. With this approach, three new H pseudogenes have been cloned and characterized by DNA sequence analysis. In addition, we have identified a new type of pseudogene, the size of which (700 bp) is caused by multiple detection events in the putative coding region.
Abstract: The frequency and distribution of angiotensin converting enzyme insertion/deletion (ACE I/D) polymorphism, and its association with other known risk factors for coronary atherosclerosis, has been studied, in a normal south Italian population. Subjects homozygous for deletion showed elevated fasting blood glucose levels when compared with subjects homozygous for insertion. The difference was consistent with an increased number of type 2 diabetics among the former group of subjects.
Abstract: We analysed the allelic and genotypic frequencies of three restriction fragment length polymorphisms in the region of chromosome 11 encoding apolipoprotein AI and CIII genes in a free-living population from South Italy (Calabria). These markers are located at -2500 and -78 bp from the transcription start site of apolipoprotein AI gene (XmnI and MspI, respectively), and in the 3' untranslated region of apolipoprotein CIII gene (SstI). XmnI and SstI label rare alleles (X2 and S2 indicate the presence of the site), whereas the absence of the MspI site (because of a G to A transition) marks the rare allele, M2. Pairwise linkage disequilibrium analysis was determined. Two significant non-random associations were found: a positive disequilibrium between ApoA1/XmnI and ApoA1/MspI markers (P < 0.0001), and a negative disequilibrium between ApoA1/XmnI and ApoC3/SstI markers (P < 0.05). Statistical analysis showed a significant difference in the S2-M2 haplotype frequency between the group of subjects with serum cholesterol levels in the highest decile (P < 0.005) and the group with serum cholesterol levels below the highest decile. The allelic frequency for each locus showed no significant difference between the two groups for all other metabolic parameters, included total cholesterol serum levels. These haplotypes are a more precise measure of genetic variations in the apolipoprotein cluster and their use should allow the mapping of mutations responsible for high serum cholesterol levels.
