Abstract: Enterococcus faecalis is recognized as a multidrug-resistant nosocomial pathogen. The phenotypic basis for this is largely uncharacterized. The intrinsic efflux system of the antibiotic-susceptible E. faecalis ATCC29212 strain was studied using a semi-automated method that assesses accumulation and efflux of the universal efflux pump substrate ethidium bromide (EB). The results show that the intrinsic efflux system of this Enterococcus strain is controlled by energy derived from the catabolism of glucose and the proton concentration of the medium. At pH 5, agents that inhibit efflux pumps in Gram-positive organisms and the proton gradient un-coupler CCCP do not increase accumulation nor inhibit efflux of EB. In contrast, at pH 8, where the proton concentration is 1,000-fold lower, these agents increase accumulation and efflux of EB. These results are relevant to infections produced by E. faecalis and subsequent antibiotic therapy with antibiotics to which the organism is known to be intrinsically resistant.
Abstract: Multidrug resistance in Gram-negative bacteria is now known to be primarily caused by overexpression of efflux pumps that extrude unrelated antibiotics from the periplasm or cytoplasm of the bacterium prior to their reaching their intended target. This review focuses on a variety of agents that have been shown to be efflux pump inhibitors (EPIs) and which, if used as 'helper compounds' in combination with antibiotics to which the organism is initially resistant, may produce the required cure. Although not all of the EPIs may serve a helper role owing to their toxicity, they may nevertheless serve as lead compounds.
Abstract: We have developed a number of methods that identify efflux pump mediated multi-drug resistant bacteria, characterize efflux systems and screen for inhibitors of efflux pumps. These approaches were complemented by the quantification of the expression of genes that regulate and code for constituents of efflux pumps. The methods described are easy to use, reproducible and for the most part, require instrumentation normally present in a clinical bacteriology laboratory. Because each method provides good reproducibility, they lend themselves for inter-laboratory use.
Abstract: OBJECTIVE: To study the potential benefits of intraoperative methylene blue (MB) use in pilonidal sinus surgery, the correlation between long-term recurrence rate and intraoperative MB use in pilonidal sinus surgery was investigated. BACKGROUND: Explicit investigations of MB effects in sinus surgery are scarce and inconclusive; an effect on long-term recurrence rate has never been systematically investigated. MATERIALS AND METHODS: A random selection of 247 patients out of 1,960 patients with primary sinus surgery was drawn, and the patients were subjected to a telephone interview according to a specific questionnaire. The interview covered a recurrence follow-up time of 14.9 years after surgery (mean, standard deviation=3.8 years, range 8.6-25.4 years). RESULTS: Recurrence was less likely to occur when MB was used intraoperatively (32 of 197, [16% actuarial 20-year recurrence rate, Kaplan-Meier estimate] recurrences with MB vs 15 of 50, 30% [actuarial 20-year recurrence rate, Kaplan-Meier estimate] recurrences without MB; p=0.018; log-rank test). This effect was especially pronounced in acute abscess-forming disease (8 of 46, 17% [actuarial 20-year recurrence rate, Kaplan-Meier estimate] recurrences with MB; 11 of 33, 33% [actuarial 20-year recurrence rate, Kaplan-Meier estimate] recurrences without MB; p=0.078; log-rank test) compared to chronic disease (24 of 151, 16% [actuarial 20-year recurrence rate, Kaplan-Meier estimate]) recurrences with MB; 4 of 17, 24% [actuarial 20-year recurrence rate, Kaplan-Meier estimate] recurrences without MB; p=0.35; log-rank test). CONCLUSIONS: MB application halves the long-term risk of recurrence for pilonidal sinus patients. This significant reduction in recurrence rate can be achieved by a single careful injection of non toxic inexpensive dye into the sinus at the start of the operation. MB application should therefore be considered as an integral part of pilonidal sinus surgery.
Abstract: Recent Dutch studies indicate that methicillin-resistant Staphylococcus aureus (MRSA) sequence type 398 is widely distributed in pigs and may give rise to infection in humans. In this study we present the first two Danish cases of MRSA infection, which in all probability were acquired from occupational contact with pigs. One infection presented as a severe surgical wound infection, following knee surgery, the other as a superficial ear lobe infection. Both MRSA strains were multiresistant, sequence type 398, Spa-type t034, and Panton-Valentine leukocidin-encoding gene negative.
Abstract: Global rates of pulmonary tuberculosis (TB) continue to increase. Moreover, resistance of the causative organism Mycobacterium tuberculosis to the two most effective anti-TB medications continue to rise. Now, multi-drug resistant TB (MDR-TB) has progressed to extensively drug resistant TB (XDR-TB) - a M. tuberculosis organism that is resistant to the most effective second line drugs available for the treatment of TB. This review provides detailed, significant evidence that supports the use of an old neuroleptic compound, thioridazine (TZ), for the management of MDR-TB and XDR-TB infections and which has been shown to inhibit efflux pumps of bacteria. The argument has been previously presented but no one seems to be listening - and the disease continues unabated when there is a very good probability that the suggested drug will prove to be effective. When the prognosis is poor, available therapy predictably ineffective and death is inevitable, compassionate therapy with TZ should be contemplated. The risks are small and the rewards great.
Abstract: Intracellular efflux pumps have been largely the research focus in multidrug-resistant (MDR) Gram-positive and Gram-negative microorganisms and parasites including cancers. However, drug efflux mechanisms other than pumps per se have been observed, supported by the effects of isomeric, non-antibiotic depressant (DPR), phenothiazines and thixenes, and antidepressant (ADPR) phenylpiperidine neurotropic drugs, alone or in combination with classical antimicrobials on MDR Staphylococcus aureus, Staphylococcus epidermidis, Enterococcus faecalis, Streptococcus pyogenes and Streptococcus pneumoniae. Of the non-antibiotics we investigated, the DPR l-thioridazine, trans-clopenthixol and isomers of phenylpiperidines NNC 20-4962 (isomer of femoxetine) and NNC 20-7052 (isomer of paroxetine) were potent antimicrobials with the least neurotropic activity, pointing to a possible general isomeric structure-activity relationship. These compounds may be regarded as new efflux inhibitors. Moreover, these isomers have considerably reduced, in some cases absent, neurotropism and reduced mammalian toxicity. This may alleviate concerns about adverse effects and therapeutic safety for infected patients in life-threatening situations where the non-antibiotic dosage would be in the lower, non-chronic dosage ranges generally prescribed for individuals with mild mental health problems. The results point to the prokaryotic and eukaryotic microorganisms' phospholipid/protein domain involvement of the cationic, amphiphilic, non-antibiotic DPR and ADPR, with the phospholipids being the initial sites attracting and concentrating the neurotropes to induce a form of suspended animation, followed by gross changes of cell wall and membrane structure, and thereby potentiating their destructive or immobilizing effects on various as yet only hinted at resistance and efflux mechanisms. Combination of appropriate isomeric non-antibiotic DPR and ADPR of low neurotropism and toxicity with conventional and classical antimicrobials promises early, new therapeutic strategies salutary against microbial resistance, resistance development, pathogenicity and virulence.
Abstract: Our previous studies demonstrated that exposure of a bacterium to increasing concentrations of an antibiotic would increase resistance to that antibiotic as a consequence of activating efflux pumps. This study utilises the same approach; however, it employs the methicillin-resistant Staphylococcus aureus (MRSA) COL strain, which is highly resistant to oxacillin (OXA). MRSA COL was adapted to 3200 mg/L of OXA. Changes in resistance to other antibiotics were evaluated and efflux pump activity during the adaptation process was determined. MRSA COL was exposed to stepwise two-fold increases of OXA. At the end of each step, minimum inhibitory concentration determination for erythromycin (ERY) and other antibiotics was conducted. Reserpine (RES) was employed to evaluate whether resistance to ERY was dependent on efflux pump activity. Efflux pump activity was also evaluated using the ethidium bromide (EB) assay. DNA typing of the products of each culture step was conducted to assess purity. Serial exposure of MRSA COL to increasing concentrations of OXA resulted in increased resistance to ERY, which could be eliminated with RES. Evaluation of efflux pump activity by the EB method indicated increased efflux activity. Resistance to ERY was accompanied by resistance to kanamycin, amikacin, ofloxacin, norfloxacin, ciprofloxacin and rifampicin. This is the first time that a multidrug-resistant phenotype has been experimentally produced as a consequence of exposure of the organism to an antibiotic to which it is initially highly resistant.
Abstract: Diclofenac sodium (Dc), an anti-inflammatory agent, has remarkable inhibitory action both against drug-sensitive and drug-resistant clinical isolates of various Gram-positive and Gram-negative bacteria. The aim of this study was to determine the ability of Dc to protect mice from a virulent Salmonella infection. Dc injected at 1.5 microg/g and 3.0 microg/g mouse body weight significantly protected animals from the lethality of Salmonella infection. As was the case for the in vitro interaction, Dc in combination with streptomycin was even more effective. The non-antibiotic drug Dc has potential for the management of problematic antibiotic-resistant bacterial infections.
Abstract: A previously undescribed, slowly growing Mycobacterium species was isolated from pulmonary specimens of two patients, one from Denmark and one from Italy. The isolates showed unique 16S rRNA internal transcribed spacers and hsp65 sequences: the 16S rRNA was most closely related to Mycobacterium szulgai and Mycobacterium malmoense.
Abstract: BACKGROUND: The aim of the study was to evaluate the effectiveness of thioridazine (TZ) at different dose levels on mice that had been infected intraperitoneally (i.p.) with a high dose of the Mycobacterium tuberculosis ATCC H37Rv strain. SUBJECTS AND METHODS: Groups of five female BALB/C mice were infected i.p. with 10(6) colony forming units/mL. After thirty days, treatment with TZ was initiated, except for the control group. Mice were treated with TZ at equivalent concentrations to that used in the humans (1200 mg/day), ranging from 0.05 to 0.5 mg/day. RESULTS: The results demonstrated that a daily dose of 0.5 mg/day of TZ reduced the number of colony forming units retrieved from the lungs of infected mice within one month. CONCLUSION: By the end of 300 days of therapy, although mycobacteria were still retained their presence, in comparison to that of the control was 8 orders of magnitude lower.
Abstract: Previous studies suggested that the phenothiazine chlorpromazine (CPZ) could reverse or reduce the antibiotic resistance of bacteria. In some areas of the world, the majority of Staphylococcus aureus isolates are now resistant to methicillin, prompting this study to see whether such resistance can be altered by phenothiazine thioridazine (TZ), an agent with equal antibacterial activity, which is free of the severe side-effects associated with chronic administration of CPZ. The results indicated that, whereas methicillin-sensitive strains of Staphylococcus aureus (MSSA) were not rendered more susceptible to oxacillin, resistance to oxacillin by highly-resistant strains (MRSA) could be significantly reduced by sub-inhibitory concentrations of TZ. Reserpine, an inhibitor of efflux pumps, was also shown to reduce the resistance of MRSA strains to oxacillin in a concentration-dependent manner. The phenothiazines have been shown, by others, to inhibit the efflux pumps of bacteria and the mechanism by which MRSA are rendered more susceptible to oxacillin in the presence of TZ is believed to be due to a similar efflux pump.
Abstract: The antibiotic resistance is now common place throughout the globe. Two highly problematic antibiotic resistant infections are those produced by multi-drug resistant Mycobacterium tuberculosis (MDRTB) and methicillin resistant Staphylococcus aureus (MRSA). Although vancomycin is useful for therapy of MRSA, there is now evidence that resistance to this antibiotic is taking place. Intracellular infections of MRSA are very difficult to manage and are recurrent especially when invasive prosthetic devices are employed. This mini-review provides cogent evidence that both intracellular MDRTB and intracellular MRSA can be killed by concentrations of the non-antibiotic phenothiazine, Thioridazine, at concentrations in the medium that are below those present in the plasma of patients treated with this agent. Although thioridazine has been claimed to cause arrhythmias and even sudden death, the frequencies of these episodes are rare and when present, they are related to the patients underlying cardiac status as opposed to the direct effect of the agent itself. The authors do not suggest that thioridazine be used indiscriminately for MDRTB or intracellular infections produced by MRSA. However, there are circumstances where there are no alternative forms of therapy and the patient faces an unfavourable prognosis. For these highly selective and controlled situations, the use of thioridazine in the manner employed for the therapy of psychosis is recommended (compassionate therapy).
Abstract: The antimicrobial activity of the phenothiazine derivatives thioridazine and prochlorperazine have been evaluated with 11 Enterococcus faecalis strains and 9 Enterococcus faecium strains, originating from human infections and animal faecal flora. We found that all E. faecalis and E. faecium strains, regardless of their susceptibility to commonly used antibiotics, were inhibited by thioridazine at a concentration of 16-32 microg/ml and by prochlorperazine at a concentration of 32-64 microg/ml. Combinations of the antibiotics vancomycin or ampicillin and thioridazine and prochlorperazine at subinhibitory concentrations, could render vancomycin- or ampicillin-resistant bacteria sensitive to each of the antibiotics. Verapamil and reserpine, inhibitors of P-glycoprotein-mediated multidrug resistance, did not reduce resistance. Our results outline modification of resistance in enterococci induced by phenothiazine derivatives unrelated to P-glycoprotein-mediated multidrug resistance.
Abstract: Patients presenting with Acquired Immune Deficiency Syndrome (AIDS) are predisposed to co-infection with Mycobacterium avium. The management of such patients is problematic due to underlying immuno-incompetence and the high resistance of M. avium to most non-toxic compounds. Therefore, the need for effective agents is obvious. Because phenothiazines, especially the relatively mild thioridazine, have significant activity against Mycobacterium tuberculosis, we investigated the in vitro activity of chlorpromazine, thioridazine, promazine, promethazine and desipramine against a reference and clinical strains of M. avium. The results obtained show that whereas all of the phenothiazines employed in this study had an minimum inhibitory concentration (MIC) against the strains studied that ranged from ca. 10 to > 50 mg/L, as was previously shown for M. tuberculosis, thioridazine was the most active of the group against M. avium.
Abstract: In 2003 some letters, written from 1905-1915 by the father to the chemotherapy, the Nobellaurter Paul Ehrlich (1854-1915) and his family written to Dr. Thorvald Madsen (1870-1957), Director of the State Serum Institute from 1909 to 1940 was found. In these letters the personal and scientific relations between the two scientists is described on the background of the letters found. The article is written with the intention to celebrate the 150-birthday of Paul Ehrlich and to document the close relations between Paul Ehrlich and the founders of the State Serum Institute in Copenhagen: Carl Julius Salomonsen (1847-1924) and Thorvald Madsen.
Abstract: Chlorpromazine (CPZ) is concentrated by human macrophages where it kills intracellular mycobacteria when the concentration outside the macrophage is sub-clinical. We have previously demonstrated that thioridazine (TZ), a much milder phenothiazine, has similar activity and kills intracellular methicillin-susceptible S. aureus at sub-clinical concentrations. We have extended this latter study to include methicillin-resistant S. aureus (MRSA) and show that TZ kills intracellular MRSA at clinically relevant concentrations. The ultrastructure of MRSA exposed to in vitro concentrations of TZ just below its MIC and that of MRSA phagocytosed by macrophages previously exposed to a clinically relevant concentration of TZ was also studied. TZ inhibits the replication of phagocytosed MRSA, affecting the structure of the cell envelope, resulting in lysis of the bacterium 6 hours post-phagocytosis. These ultrastructural changes are identical to those produced in vitro by a TZ concentration that is just below the MIC. Because macrophage intracellular MRSA is not killed by the macrophage and its intracellular location protects it from antibiotics that are unable to reach that site, recurrent infections which result may be successfully managed with the use of TZ.
Abstract: Recently, PCR-restriction fragment length polymorphism (PCR-RFLP) of the urease genes of Helicobacter pylori was evaluated in a meta-analysis; acceptable discriminatory indices of the ureAB and C genes were found. In the present investigation, we found a discriminatory index of 0.95 for 191 unrelated clinical H. pylori isolates with PCR-RFLP typing of the ureB gene (933 bp), combining the results obtained with restriction enzymes HaeIII and Sau3A, and a mixture of the enzymes. We therefore find that PCR-RFLP typing of the ureB gene of H. pylori with restriction enzymes HaeIII and Sau3A is comparable to typing of other H. pylori urease genes.
Abstract: Mechanisms of antibiotic resistance of bacteria include efflux pumps which extrude the antibiotic prior to reaching its target. Phenothiazines inhibit the activity of some efflux pumps thereby altering the susceptibility of bacteria. This study demonstrated that chlorpromazine and thioridazine reduce the susceptibility of methicillin-resistant strains (MRSA) but not that of methicillin-susceptible Staphylococcus aureus (MSSA) strains to oxacillin (MIC of oxacillin reduced from >500 to 10 mg/l). Reserpine, an inhibitor of antibiotic efflux pumps also reduced the resistance of MRSA strains to oxacillin suggesting the presence of an efflux pump that contributes to antibiotic resistance of MRSA strains.
Abstract: Efflux-related multidrug resistance (MDR) is a significant means by which bacteria can evade the effects of selected antimicrobial agents. Genome sequencing data suggest that Staphylococcus aureus may possess numerous chromosomally encoded MDR efflux pumps, most of which have not been characterized. Inhibition of these pumps, which may restore clinically relevant activity of antimicrobial agents that are substrates for them, may be an effective alternative to the search for new antimicrobial agents that are not substrates. The inhibitory effects of selected phenothiazines and two geometric stereoisomers of the thioxanthene flupentixol were studied using strains of S. aureus possessing unique efflux-related MDR phenotypes. These compounds had some intrinsic antimicrobial activity and, when combined with common MDR efflux pump substrates, resulted in additive or synergistic interactions. For S. aureus SA-1199B, which overexpresses the NorA MDR efflux pump, and for two additional strains of S. aureus having non-NorA-mediated MDR phenotypes, the 50% inhibitory concentration (IC(50)) for ethidium efflux for all tested compounds was between 4 and 15% of their respective MICs. Transport of other substrates was less susceptible to inhibition; the prochlorperazine IC(50) for acriflavine and pyronin Y efflux by SA-1199B was more than 60% of its MIC. Prochlorperazine and trans(E)-flupentixol were found to reduce the proton motive force (PMF) of S. aureus by way of a reduction in the transmembrane potential. We conclude that the mechanism by which phenothiazines and thioxanthenes inhibit efflux by PMF-dependent pumps is multifactorial and, because of the unbalanced effect of these compounds on the MICs and the efflux of different substrates, may involve an interaction with the pump itself and, to a lesser extent, a reduction in the transmembrane potential.
Abstract: The phenothiazines chlorpromazine (CPZ) and thioridazine (TZ) have equal in vitro activities against antibiotic-sensitive and -resistant Mycobacterium tuberculosis. These compounds have not been used as anti-M. tuberculosis agents because their in vitro activities take place at concentrations which are beyond those that are clinically achievable. In addition, chronic administration of CPZ produces frequent severe side effects. Because CPZ has been shown to enhance the killing of intracellular M. tuberculosis at concentrations in the medium that are clinically relevant, we have investigated whether TZ, a phenothiazine whose negative side effects are less frequent and serious than those associated with CPZ, kills M. tuberculosis organisms that have been phagocytosed by human macrophages, which have nominal killing activities against these bacteria. Both CPZ and TZ killed intracellular antibiotic-sensitive and -resistant M. tuberculosis organisms when they were used at concentrations in the medium well below those present in the plasma of patients treated with these agents. These concentrations in vitro were not toxic to the macrophage, nor did they affect in vitro cellular immune processes. TZ thus appears to be a serious candidate for the management of a freshly diagnosed infection of pulmonary tuberculosis or as an adjunct to conventional antituberculosis therapy if the patient originates from an area known to have a high prevalence of multidrug-resistant M. tuberculosis isolates. Nevertheless, we must await the outcomes of clinical trials to determine whether TZ itself may be safely and effectively used as an antituberculosis agent.
Abstract: One way in which drug-resistant bacteria may be attacked is to screen new series of candidate compounds. Quaternary quinoline compounds and dyes were studied by Carl Browning (1887-1972) and Julius Cohen (1859-1935). A remarkable part of Browning and Cohen's work was the early development of structure-activity relationships for their series of compounds. Thus cationic species were found generally to be more effective antibacterials than neutrals or anionics, and the testing of partial or deconstructed active molecules was also carried out. Much of this work underpinned the fuller understanding of e.g. aminoacridine action developed by Adrien Albert (1907-1989), himself also a collaborator of Browning. Analysis of the activity of a range of compounds developed by Browning and Cohen suggests that these might again be examined as topical antimicrobials in the fight against methicillin-resistant S. aureus (MRSA) and other resistant bacteria.
Abstract: Structural variants of phenylpiperidine selective serotonin reuptake inhibitors (P-SSRIs) inhibited the function of two unique Staphylococcus aureus multidrug efflux pumps. The most active compound was the paroxetine isomer NNC 20-7052, which had an IC(50) for ethidium, acriflavine, and pyronin Y efflux of 9, 53, and 18% of its MIC, respectively, against the NorA pump. The unbalanced effect of NNC 20-7052 on the efflux of different substrates suggests the possibility that P-SSRIs function by a physical interaction with NorA. Under the conditions employed pump inhibition partially extended to the resistance-nodulation-division (RND) pump AcrAB-TolC, but not to the Pseudomonas aeruginosa RND pumps MexAB-OprM or MexCD-OprJ.
Abstract: The anti-microbial activity of six non-antibiotics (one amino-ethylchloride, three phenothiazines, two tricyclic antidepressives) were tested on 20 clinical isolates of Pseudomonas aeruginosa, one clinical isolate of Klebsiella pneumoniae, 2 ATTC strains and 14 clinical isolates of Staphylococccus aureus, using the plate dilution method. The effects on P. aeruginosa were independent of antibiotic resistance pattern and the species Stenotrophomonas maltophilia was found to be the most susceptible to the non-antibiotics, with MIC values as low as 20 mg/l for some of the substances. The 16 S. aureus strains tested were all particularly susceptible to the anti-microbial effects of the putative inhibitors of efflux pumps thioridazine and trifluoperazine with MIC values of < or =16 mg/l independently of the methicillin resistance profile of the strains. Because phenothiazines are well known to inhibit efflux pumps our results may indicate the existence of such pumps. Current works in progress are attempts at reversing the antibiotic resistance of selected bacterial strains using specific non-antibiotics and their stereo-chemical isomers.
Abstract: Chlorpromazine (CPZ) has in vitro antimicrobial activity against Staphylococcus aureus at concentrations that greatly exceed those achieved clinically. It is concentrated by tissues that are rich in macrophages and it is active against phagocytosed mycobacteria when the concentration in the medium is compatible with that achieved clinically. In this report we show that nontoxic concentrations of CPZ below clinical levels have killing activity against S. aureus phagocytosed by human monocyte-derived macrophages that have nominal killing activity against these bacteria. Little or no resistance to the antimicrobial activity of this compound is anticipated to result because of its large number of cellular targets. Therefore, CPZ may have a role in the management of intracellular staphylococcal infections that normally require the use of antibiotics whose potential toxicity exceeds that associated with short-term management with CPZ.
Abstract: Treatment failures are common in patients infected with metronidazole-resistant Helicobacter pylori in the gastric mucosa when triple therapy including metronidazole is used. In patients with treatment failure and metronidazole-resistant H. pylori, a higher eradication rate for H. pylori was found after secondary treatment with bismuth/ranitidine in combination with antibiotics including metronidazole, compared with the same antibiotics combined with a standard dose of omeprazole. This agrees with our previous finding that bismuth was able to reduce the susceptibility of H. pylori to metronidazole. In this study, we have found that nizatidine, an H(2)-receptor antagonist, is also able to reduce the susceptibility of H. pylori to metronidazole in vitro, despite having no direct inhibitory effect on the growth of H. pylori. This agrees with earlier findings that compounds having the ability to reverse antibiotic resistance do not necessarily have an antibiotic or chemotherapeutic effect in the sense of growth inhibition. Therefore, it was decided to investigate the effect of nizatidine and omeprazole on the oxidative respiratory chain, as it is known that metronidazole is able to inhibit the activity of fumarate reductase of H. pylori. This enzyme is a key enzyme in the alternative respiratory chain under anaerobic conditions. Nizatidine was, in these preliminary experiments, found to inhibit fumarate reductase in a dose-dependent way, like metronidazole, whereas omeprazole had almost no effect on fumarate reductase. No other significant effects on the enzymes of the respiratory chain were found. The synergistic effect of nizatidine on metronidazole resistant H. pylori strains could be explained by the effect on fumarate reductase, whereas the effect of omeprazole is different and could be an inhibition of a proton pump in H. pylori. Reversal of antimicrobial resistance with the help of different non-antibiotics seems to be possible by using quite different compounds, and is therefore to be explained by different molecular mechanisms.
Abstract: A painting made by the Danish painter and author Henrik Have (born 1946) illustrates the front page of Jette E. Kristiansen's medical thesis The Antimicrobial Activity of Psychotherapeutic Drugs and Stereo-isomeric Analogues (1990). The painting illustrates beautifully that art and science can go hand in hand. Even very complicated chemical, pharmacological and microbiological questions can be expressed by means of colours and by means of symbols used in everyday life, such as a spiral (DNA), or a pair of hands expressing working together. Prayers, wishes and the most difficult questions in receptor stereo-chemistry in eucaryotic and procaryotic cell-systems are illustrated in this painting. Synthetic chemistry and pharmacology are linked in the development of the synthetic dyes. The chemical colours are often the same in dyes and drugs. The red colour in the pharmacology is associated with the antibiotic drugs as sulfonamides as well as with the staining of Gram-negative bacteria. The yellow colour is associated with the antibiotic drugs, quinolones and the Ziehl-Neelsen staining for tubercle bacillii. The blue colour is associated with the psychoactive drugs, phenotiazines, as well as with methylenblue staining and the staining of Gram-positive bacteria. These association and symbols have been used in this painting.
Abstract: The in vitro and in vivo anti-mycobacterial activities of a number of phenothiazine compounds are reviewed. These compounds, normally employed for the management of psychosis, inhibit the growth in vitro of Mycobacterium tuberculosis at concentrations that are significantly greater than those that can safely be achieved in a patient harbouring these infections. Nevertheless, one of these phenothiazines, chlorpromazine, is concentrated by human macrophages to 10-100 times its concentration in plasma, and has activity against mycobacteria that have been phagocytosed by these cells. Phenothiazines have significant in vitro activity against susceptible, polydrug- and multidrug-resistant strains of M. tuberculosis, as well as enhancing the activity of some agents employed for first-line treatment. Because thioridazine, the very mild anti-psychotic agent whose most common side effect is drowsiness, has equal anti-tuberculosis properties in vitro to chlorpromazine, we recommend that thioridazine be studied as an adjuvant to the four- or five-drug regimens employed for the management of a freshly diagnosed tuberculosis infection of unknown antibiotic susceptibility, at least during the period required for the assessment of antibiotic susceptibility. Because it also enhances the activity of rifampicin and streptomycin, antibiotics that frequently have adverse effects, additional studies evaluating the use of thioridazine as an adjuvant may eventually allow a reduction in the dosages of these antibiotics and result in a decreased frequency of adverse effects. It is important to note that whereas the management of patients with thioridazine for periods in excess of many months will result in the appearance of some undesirable side effects, its use for a limited period of 2-3 months should not produce side effects that are more severe than simple drowsiness. Nevertheless, further in vitro and in vivo studies are essential before thioridazine may be recommended for the management of select cases of pulmonary tuberculosis.
Abstract: Creutzfeldt-Jakob disease acquired from bovines (nvCJD) has been responsible for nearly 100 deaths in the UK and thousands more may die in the years to come. New variant CJD (nvCJD) is incurable and although clinical diagnosis is becoming more precise, the diagnosis is only certain at autopsy. Phenothiazine derivatives inhibit production of prions, the disease causing agent, in cultured neuroblastoma cells, and an advanced case of nvCJD was recently brought to remission by the use of these agents in combination with an antimalarial. In this review we present direct and circumstantial evidence in support of a model describing the manner by which the intracellular antimicrobial activity of phenothiazines might cause the destruction of intracellular prions.
Abstract: The in vitro and in vivo activity of phenothiazines against antibiotic susceptible and antibiotic resistant Mycobacterium tuberculosis and malaria-causing Plasmodia is reviewed. Given the facts that pulmonary tuberculosis and malaria are the major causes of death in developing countries, that both of these infections continue to escalate in their resistance to antibiotics, that the cost for the management of these infections is beyond that afforded by most developing nations, and lastly, that new and effective agents are not forthcoming from the pharmaceutical industry, the scientific rationale for the potential use of select phenothiazines for the management of these infections is presented.
Abstract: A series of neuroleptic agents and their structural isomers have been tested as inhibitors of HIV-replication. At non-toxic concentrations, cis (Z)- and trans (E)-flupentixol and several derivatives of the 5HT-uptake-inhibitors paroxetine and femoxetine, inhibit HIV-1 replication. The findings indicated that these compounds could be used in combination with other anti-retroviral therapy in HIV-1 infected patients with AIDS-related dementia.
Abstract: Chlorpromazine (CPZ), a compound employed for the management of psychosis, has a wide ranging antibacterial activity. The growth of Salmonella typhimurium100 mg/l), was initially inhibited during the first 8-16 h of exposure to concentrations of CPZ below the MIC. During this period of transient susceptibility, the distribution of ribosomes was markedly altered in a concentration dependent manner; the rough cell wall was transformed into a smooth form. The protein composition of the outer cell wall of 55 kDa was markedly decreased, whilst there was an increased number of high molecular weight proteins. After 16 h of exposure to sub-MIC levels of CPZ, the inhibitory effect of the drug was no longer apparent whereas the effects noted on the cell wall were retained. These Salmonella were, as the control, agglutinated by O antigen specific antibody. Whereas agglutination of the control Salmonella was blocked by the presence of CPZ at concentrations that induced the cell-wall effects, agglutination of CPZ exposed-Salmonella for periods in excess of 16 h was not blocked by any concentration of CPZ. These results suggested that eventual resistance to CPZ was dependent upon changes induced by CPZ at the cell wall level. The results also suggested that the CPZ binds to the 55 kDa protein and that such binding interfered with the recognition of the O antigen by antibody.
Abstract: Increased frequency of multidrug resistant strains of Mycobacterium tuberculosis results from inappropriate treatment and lack of patient compliance. The Center for Disease Control/American Thoracic Society (CDC/ATS) guidelines issued for the management of newly diagnosed cases of tuberculosis (TB) will not be totally effective regardless of adherence to the guidelines and patient cooperation. The long interim period between the diagnosis of TB and confirmation of antibiotic susceptibility contributes to the infection rate. Consequently, the use of an adjuvant that is known to inhibit all encountered multidrug resistant strains of M. tuberculosis may be helpful until antibiotic susceptibility is known. Phenothiazines such as chlorpromazine, methdilazine and thioridazine are effective against strains of M. tuberculosis in vitro and in vivo. It is recommended that studies be designed and conducted for the purpose of managing new cases of TB that emanate from areas known to harbour multidrug resistant strains of M. tuberculosis, with phenothiazines as adjuvants to the regimen recommended by the CDC/ATS guidelines until antibiotic susceptibility is defined. Because the normal maximum period for obtaining conventional antibiotic susceptibility results is less than 7 or 8 weeks, the probability of serious side effects from the use of a phenothiazine is remote.
Abstract: Treatment failures using triple therapy that include metronidazole, are common in patients infected with metronidazole-resistant Helicobacter pylori in the gastric mucosa. Higher eradication rates in such patients have been described when treatment regimens include bismuth salts compared to regimens that include proton pump inhibitors. In the present study, the synergistic effect of subinhibitory concentrations (0.25-0.5 MIC) of either bismuth subcitrate or omeprazole with metronidazole on the susceptibility of 42 H. pylori strains was investigated by agar dilution method and the Epsilometer test (Etest). With 0.5 MIC of either of the two drugs, the susceptibility of all H. pylori4 mg/l) reverted to being metronidazole sensitive. These results suggested that either bismuth salts or proton pump inhibitors may be effective in the treatment of some infections with metronidazole-resistant H. pylori strains when used in sufficiently high doses.
Abstract: The inhibitory effect of selected membrane stabilisers on Mycoplasma pneumoniae, M. hominis and Ureaplasma urealyticum was investigated in vitro. The phenothiazine chlorpromazine (CPZ) and the barbiturate thiopental (Leopental(R)) as well as the stereo-isomeric thioxanthene derivatives; cis(Z)-clopenthixol (Zu-clopenthixol(R))/ trans (E)-clopenthixol and cis (Z)-chlorprothixen (Truxal(R))/trans(E)-chlorprothixen, all have antimycoplasmal effect in the range 3.9-312 mg/l, measured as growth inhibition. It was also demonstrated that the enzymatic functions of the different mycoplasma strains, such as breakdown of glucose, arginine and urea, were abolished by concentrations of CPZ that were sufficiently low to allow multiplication of the organisms. A similar effect was obtained with Leopental(R) although the mycoplasmas were generally only half as sensitive to this drug. Also M. gallisepticum and Acholeplasma laidlawii were inhibited by CPZ and Thiopental. The four thioxanthenes were all inhibitory to mycoplasmal growth and the effect was independent of their stereo-isomeric configuration. The clopenthixol stereoisomers, but not the chlorprothixene isomers, inhibited colour change at concentrations lower than those which inhibited growth. While enzyme activity may continue for some time in vitro when classic antibiotics have inhibited mycoplasmal growth, the reverse effect was observed with phenothiazines and thioxanthenes. The membrane stabilisers may be useful tools in the investigation of microbiological activity on the mycoplasma membrane. From these drugs, new 'antibiotics' might be developed with another action than that of the known antimycoplasmal drugs.
Abstract: Drugs, not designed as antibiotics, and whose primary mode of action is modulation of active and passive ionic transport-mechanisms in the eucaryotic cell, also act on procaryotic cell-walls, and the action is antimicrobial. The drugs may be classified, non-antibiotics. Anaesthetic gases are bactericidal in the fluid state, and in the vaporous state at high concentrations. Local anaesthetics of the ester type have stronger antimicrobial actions than the amidetype, and synergy is found between local anaesthetics and antibiotics. Barbiturates show antimicrobial action at high concentrations, and there is a possible synergy with antibiotics. Synthetic analogs of morphine have stronger antimicrobial action than the natural derivatives. Aspirin (ASA) inhibits the growth of Klebsiella pneumoniae at concentrations within the range of that in plasma in normal clinical usage; but induces non-genetical resistance to antibiotics. Increasing problems of bacterial resistance to common antibiotics might render non-antibiotics subject to development into antibiotics, and to be utilized in combination treatment of resistant infectious diseases.
Abstract: The antimicrobial activity of synthetic, non-chemotherapeutic compounds, such as the phenothiazine, methylene blue, has been known since the time of Ehrlich (1854-1915). In this context the term 'non-antibiotics' is taken to include a variety of compounds which are employed in the management of pathological conditions of a non-infectious aetiology, but which modify cell permeability and have been shown to exhibit broad-spectrum antimicrobial activity. The antimicrobial properties of compounds such as phenothiazines, as well as those of other neurotropic compounds, have only been investigated sporadically, and their application to management of microbial infections has not been evaluated. A review of the literature, coupled with a number of more recent investigations, suggests that some of these and other membrane-active compounds enhance the activity of conventional antibiotics, eliminate natural resistance to specific antibiotics (reversal of resistance) and exhibit strong activity against multi-drug resistant forms of Mycobacterium tuberculosis. Thus non-antibiotics may have a significant role in the management of certain bacterial infections.
Abstract: Chlorpromazine and thioridazine are phenothiazines employed in the treatment of psychosis. These agents inhibited the respiration of clinical isolates of Mycobacterium tuberculosis resistant to streptomycin, rifampin, isoniazid, ethambutol and/or pyrazinamid, all first line drugs. Since any adverse reaction to thioridazine is generally less severe than to chlorpromazine, the possibility is attractive that thioridazine may have a potential in the initial management of patients with newly diagnosed tuberculosis with an as yet undetermined antibiotic susceptibility profile.
Abstract: The antibiotic resistance of 6 Staphylococcus aureus strains was eliminated with a frequency from 1.2 to 10% in the presence of subinhibitory concentrations of promethazine. The pigment production of the cells was also eliminated by the promethazine to an extent of 0 to 5%. The cell size was increased and the protein A production was markedly decreased in S. aureus cells cultured in the presence of promethazine. Complex formation between protein A and promethazine was detected by differential spectrophotometry. The biological activity of staphylococcus protein A was abolished by promethazine in the passive haemagglutination of rabbit antiserum treated sheep red blood cells. Evidence has been found that plasmid-encoded functions of S. aureus cells can be altered in the presence of promethazine, and the chromosomally controlled synthesis of protein A, one of the weakest virulence factor of S. aureus is also lowered by promethazine.
Abstract: In May 1990 the 1st International Conference on Antimicrobial Activity of Non-Antibiotics was held in Copenhagen, Denmark. More than 200 scientists were drawn from 34 countries and from all five continents. Papers were presented dealing with the antimicrobial activity of different synthetic and natural compounds, and interactions between antibiotics and non-antibiotics. The conference pointed to the unusual properties of non-antibiotic drugs. These effects might create unexpected therapeutic possibilities and lead to new basic insights.
Abstract: Eighty-two strains of bacteria (Neisseria meningitidis, Haemophilus influenzae, Enterobacteriaceae, Streptococcus pneumoniae, group B streptococci and Listeria monocytogenes) were examined for their in vitro susceptibility to eight drugs, seven neuroleptics (perphenazine, fluphenazine, cis(Z)-clopenthixol, haloperidol, clozapine, clebopride and SCH 23390), and the neuroleptically inactive trans(E)-clopenthixol. The phenothiazines and the thioxanthenes were, on the whole, the most active drugs when measured, the IC50(50) for each group of bacteria being 7.4 to 84 mg/l (with the exception of the activity against the enterobacteriaceae). The antibacterial potency of clozapine, which has an atypical neuroleptic profile, was between 50 and 140 mg/l. Haloperidol also showed an antibacterial activity in the concentration range 35-140 mg/l. The selective D1 antagonist, SCH 23390 and the selective D2 antagonist, clebopride, inhibited only few of the bacteria in the concentration range investigated.
Abstract: A simple test for the evaluation of drugs interfering with bacterial motility was established with Proteus vulgaris. With this model, promethazine, 7-hydroxy-chlorpromazine, imipramine, 7,8-dioxochlorpromazine and acridine orange were shown to exert significant motility and swarming inhibitory action on Proteus vulgaris strains at subinhibitory concentrations. Quinidine enhanced the antimotility effect of promethazine. The antimotility effect of promethazine was synergized by proton pump inhibitors omeprazole and abscissic acid, but antagonized by extracellular potassium and sodium ions.
Abstract: Chlorpromazine, cis(Z)-chlorprothixene (Truxal), and the non-neuroleptic trans(E)-chlorprothixene and trans(E)-flupenthixol were studied in vitro for possible antiviral effect on Herpes simplex virus 2 and for toxic effect on human diploid fibroblasts. Based on an enzyme-linked immunosorbent assay (ELISA) antiviral activity was demonstrated for all the compounds in the concentration range 0.39 micrograms/ml-25 micrograms/ml. A cell-toxic effect was shown in the higher concentration range for all the compounds except cis(Z)-chlorprothixene. A cell-stimulatory effect was also detected at the lower concentration range (about 3.13 micrograms/ml) for all compounds. Thus both cell stimulation and antiviral effect can be found for the same agent within the same concentration range. The results point to the possibility of creating different antiviral drugs--which would also include a cell-stimulatory activity--among psychopharmacological drugs and their stereoisomeric analogues.
Abstract: The aim of the investigation was to throw light on the question whether drugs other than antibiotics and chemotherapeutic agents exert an antimicrobial effect. In order to elucidate this, the antimicrobial effect of selected psychotherapeutic drugs and their stereo-isomeric analogues was studied. The development of psychotherapeutic drugs from aniline dyes has been reviewed against the background of its history considered as a scientific idea. It is demonstrated that psychotherapeutic drugs have an antimicrobial effect. Psychotherapeutic drugs show antimicrobial activity at high concentrations. Stereo-isomeric analogues of known psychotherapeutic drugs also have an antimicrobial effect. The selectivity of the various stereo-isomeric compounds depends on which microorganism and which chemical compound is investigated. Synergism is found between psychotherapeutic drugs (CPZ) and penicillin in vitro, and between a non-neuroleptic stereo-isomeric compound trans-CPT and penicillin in vivo, using infected mice as material. The antibacterial activity of psychotherapeutic drugs is independent of the antihistaminic, antihypersecretory, neuroleptic and antidepressant effect of these drugs. The examples chosen of investigations of the antimicrobial effect of psychotherapeutic drugs in vitro and in vivo lead to the conclusion and to the perspectives in the present study. Namely, the need for a general theory of the interplay between host organism, microorganisms and drugs. This proposition is based on a concern to argue against the view that the prokaryotic effect of eukaryote-directed drugs is without major significance, either for scientific research or for clinical treatment.
Abstract: Twelve Capnocytophaga and seven DF-2 strains were tested for their susceptibility to 14 antimicrobial agents using an agar dilution and an agar diffusion method. Twenty-three other antibiotics were evaluated using the diffusion test only. All strains were fully susceptible to penicillin, ampicillin, cefuroxime, cefotaxime, erythromycin, clindamycin, chloramphenicol, doxycycline, rifamycin and ofloxacin using both methods. Clindamycin, rifamycin and cefotaxime were most active. Using agar dilution some strains were susceptible to gentamicin, but agar diffusion showed total resistance. One Capnocytophaga strain was susceptible and another moderately susceptible to metronidazole, other strains were resistant. The agar diffusion test showed that both Capnocytophaga and DF-2 were resistant to most other aminoglycosides, to fosfomycin, polymyxin and trimethoprim. All strains of both taxa were fully susceptible to piperacillin, cefoxitin, imipenem and fusidic acid and showed different susceptibilities to the other agents. Susceptibility testing by means of agar diffusion using an enriched chocolate agar and 5% CO2 atmosphere could be used to test Capnocytophaga and DF-2 strains and gives sufficient accuracy for routine use, when revised inhibition zone breakpoints are employed.
Abstract: The history of phenothiazines, from methylene blue via chlorpromazine to recently synthesized isomeric derivatives of various neuroleptics, is reviewed in the light of their antimicrobial activity and Paul Ehrlich's receptor concept. The latter is clearly in line with most modern theories concerning drug action of stereo-isomeric compounds.
Abstract: A series of conventional anti-ulcer drugs, tricyclic antidepressants and neuroleptics (and some CNS non-active isomers) were tested in vitro for possible inhibition of Campylobacter pylori. These bacteria are claimed to play an etiological role in peptic ulcer disease, at least in gastritis B. While cimetidine, famotidine, ranitidine and pirenzepine were inactive, all the antipsychotic agents and their isomeric derivatives were active to various degrees with IC50 of 26-59 microM. Of special interest is trimipramine (Surmontil) that has been demonstrated to be effective against duodenal ulcers in some trials. The activity of the non-neuroleptic stereo-isomers of clopenthixol and chlorprothixene may lead to investigation in patients with peptic ulcer disease of this kind of agents. However, a firm connection between the antimicrobial activity of these compounds, their possible anti-ulcer effect and the etiological role of Campylobacter pylori in peptic ulcer disease must first be established.
Abstract: Previous in vitro studies have shown suppression of the growth of Plasmodium falciparum by the neuroleptic agents chlorpromazine and zuclopenthixol (formerly known as cis(Z)-clopenthixol) as well as by the neuroleptic inactive steroisomer trans(E)-clopenthixol. These compounds are chemically related to riboflavin and may act as inhibitors of riboflavin metabolism. As trans(E)-clopenthixol has been found active against chloroquine-resistant strains of P. falciparum in vitro and has been approved for human use, though inactive as a neuroleptic, this drug was selected for the present in vivo study. The dosage of trans(E)-clopenthixol was optimized through a pharmacokinetic study, and the suppression of the growth of Plasmodium berghei in vivo was tested in mice, with chloroquine acting as the positive and saline as the negative control. Trans(E)-clopenthixol did not inhibit the growth of P. berghei, whereas chloroquine almost eradicated the infection. The use of in vitro screening for anti-malarial activity in drugs approved for human use for other indications is discussed in the light of the results. It is concluded that the selection of drugs for further studies in vivo cannot solely be based on positive results in vitro.
Abstract: Some neuroleptic drugs of the phenothiazine and thioxanthene groups have an antimicrobial effect in vitro. This is also true for neuroleptically inactive stereo-isomeric analogs of the thioxanthenes e.g. trans(E)-clopenthixol (t-CPT). In a murine pneumococcus peritonitis model t-CPT demonstrated a slight, but non-significant antibacterial effect in doses of 0.3-0.9 mg per mouse, while higher doses seemed to enhance the bacterial virulence. If combined with subtherapeutic doses of penicillin, a significantly higher survival rate was obtained compared with either drug given alone. In vitro studies demonstrated a similar synergistic effect. These results indicate that at least one non-neuroleptic thioxanthene stereo-isomer has an antibiotic potential also in vivo. The mechanism of action is not known.
Abstract: Various types of phenothiazines were examined for antibacterial effect on 61 Gram-positive and Gram-negative bacterial strains in vitro. The investigated phenothiazines were two neuroleptic drugs, fluphenazine and chlorpromazine, and two antihistaminic drugs, alimemazine and promethazine. All four drugs have antibacterial effects in vitro, the phenothiazines being more potent against the Gram-positive microorganisms. The antibacterial potency of the drugs was measured as IC50: Fluphenazine 29 microM (15 micrograms/ml), alimemzaine 49 microM (37 micrograms/ml), promethazine 88 microM (28 micrograms/ml) and chlorpromazine 92 microM (29 micrograms/ml). The antibacterial potency of the drugs was linked neither to the neuroleptic nor the antihistaminic potency of the drugs, which is in agreement with results of earlier stereoisomeric investigations. Thus, the known phenothiazines may represent a pool of potentially new antimicrobial drugs. A therapeutic application of these results, however, requires additional in vitro an in vivo testing in an animal model. The bacterial model might be of value as a model system in the study of the interaction of neuropharmacological agents and other membrane active compounds on biological membranes.
Abstract: Rothia dentocariosa is part of the human oral flora and has only rarely been reported as a cause of clinical infection. We report the isolation of Rothia dentocariosa from the blood of a septicaemic patient with chronic lymphocytic leukaemia and bone marrow depression following treatment with clomipramine and zuclopentixol.
Abstract: The antibacterial effect of the stereo-isomeric compounds cis(Z)- and trans(E)-clopenthixol and the two main metabolites of clopenthixol in man, N-dealkyl-clopenthixol and clopenthixol sulfoxide, was examined in 24 Gram-positive and 37 Gram-negative bacterial strains in vitro. The antibacterial potency of the drugs towards the Gram-positive strains, measured as IC50, was: N-dealkyl-clopenthixol, 6.2 microM (3.7 micrograms/ml), trans(E)-clopenthixol, 16 microM (7.6 micrograms/ml) and cis(Z)-clopenthixol, 37 microM (17.5 micrograms/ml), and clopenthixol sulfoxide was inactive in the investigated area. Against the Gram-negative strains the drugs are less potent. A therapeutic application of these results, especially in the case of trans(E)-clopenthixol, which possesses no neuroleptic activity, requires in vivo testing in an animal model. However, the in vitro model employed might also be useful in the study of such agents and other membrane-active compounds with regard to their interaction with biological membranes.
Abstract: A case of fatal septicaemia caused by DF-2, a fastidious gram-negative rod is presented. Attention is drawn to the connection between DF-2 septicaemia and dog bites or contacts, not only in patients with impaired host defence but also in previously healthy individuals. As the organism is difficult to subculture, infections with DF-2 may easily be overlooked.
Abstract: The present investigation has been undertaken to illustrate the antibacterial effect on 20 diarrhoea producing enterobacteriaceae of an anti-depressive drug available as femoxetine and its three analogs. It has been shown that the stereo-isomeric trans forms of femoxetine are more than twice as active as the cis forms and inhibited all the strains below 400 microgram/ml (1.2 mM). The two cis compounds only inhibited 11 and 9 of the 20 strains respectively in the investigated area 100 microgram/ml - 800 microgram/ml (0.3 mM - 2.4 mM). Our investigations point out that the bacterial cell has a target for psychopharmacologically active agents. Thus the known psychopharmaca and their stereo-isomeric analogs may represent a pool of potentially new antimicrobial drugs. Furthermore the bacterial model may be useful as a model system in the study of the interaction of neuropharmacological agents and other membrane active compounds with biological membranes.
Abstract: The aim of the present investigation was to illustrate the antibacterial effect of various phenothiazine and thioxanthene derivatives on mycobacteria in vitro. It was demonstrated that clopenthixol is about twice as potent as chlorpromazine (CPZ) and levomepromazine-maleate is about half as potent as CPZ, measured by the inhibitory effect on the growth of the mycobacterial strains. Measured in the same way the stereoisomeric compounds of flupenthixol are shown to be more potent than the stereo-isomeric compounds of clopenthixol and chlorprothixen. The two last-named compounds are equal in potency. The stereo-isomeric analogs of the thioxanthene derivatives are equal in antibacterial potency against the slow-growing mycobacteria. The mycobacterial strains investigated show no difference in sensitivity between the cis (Z)--and and trans (E)--compounds of the thioxanthenes. It seems particularly promising that also the more resistant mycobacteria other than Mycobacterium tuberculosis, e.g. M. avium and M. intracellulare, are sensitive in the concentration range investigated. Considered as a whole, these results might be a stimulus to investigate the antimicrobial effect of the thioxanthenes in vivo.
Abstract: New antimalaria drugs are needed on the background of increasing resistance to chloroquine. This study was undertaken to elucidate whether other membrane stabilizers than chloroquine have anti-malarial activity in vitro. We here report the anti-plasmodial activity of chlorpromazine (CPZ) and the stereo-isomeric compounds cis(Z)- and trans(E)-clopenthixol. As a screening method we used a modified Desjardins' 3H-hypoxanthine assay. The IC50 = 50% inhibition of 3H-hypoxanthine uptake was found at 1.028 ng/ml = 3.2 microM CPZ, 758 ng/ml = 1.6 microM trans(E)-clopenthixol and 436 ng/ml = 0.9 microM cis(Z)-clopenthixol. The inhibitory effect of trans(E)-clopenthixol in these low concentrations on Plasmodium falciparum in vitro seems particularly promising, since it is known that trans(E)-clopenthixol has no neuroleptic effect.
Abstract: The present investigation has been undertaken to illustrate the anti-bacterial effect of chlorpromazine, clopenthixol and levomepromazine-maleate. It has been shown that clopenthixol has the strongest antibacterial effect. It is known that chlorpromazine also has an antisecretory activity. The fact that clopenthixol exists in cis(Z)- and trans(E)-isomerical compounds, and that these compounds both have an antibacterial effect, but only the cis-compound has an antisecretory and neuroleptic effect, might suggest the development of more specific pharmaceuticals in these new fields.
Abstract: The authors report a prospective, randomized 18-month study on the effect of prophylactic antibiotic treatment in 152 hydrocephalic patients in whom clean shunt operations or revisions were done. The treated group received methicillin (totally 200 mg/kg) divided into six i.v. doses during 24 hours starting at the induction of anesthesia. Patients allergic to penicillin received erythromycin instead. Seventy-nine patients received antibiotics, and 73 (the control group) received none. All patients were followed at least 6 months after operation or to their death. Eleven patients developed signs of infection, giving an overall infection rate of 7.2%; however, the infection occurred less than 1 month after the operation in only half of these. Six of the patients had septicemia, 4 had peritonitis, and 1 had meningitis. In the treated group, the infection rate was 8.9%; in the control group, the rate was 5.5%. There was no statistically significant difference. The prophylactic antibiotic regimen in this investigation did not reduce the infection rate connected with cerebrospinal fluid shunting procedures.
Abstract: Phenothiazines have been shown to depress several functions of neutrophils, including chemotaxis. A biphasic effect of chlorpromazine (CPZ) and other phenothiazines on human neutrophil chemotaxis has recently been described. We investigated the effect of the stereo-isomers of clopenthizol, a thioxanthene, and of CPZ on human neutrophil chemotaxis. CPZ, at a concentration of 157 microM, and cis(Z)- or trans(E)-clopenthixol, at 105 microM, decreased cell viability. Cis(Z)- and trans(E)-clopenthixol as well as CPZ exerted a biphasic effect on neutrophil chemotaxis with a maximal enhancement of 57%, 92%, and 119%, respectively, and inhibition at higher concentrations. Enhancement of human neutrophil chemotaxis and possibly of the antibacterial activity of these cells by CPZ and the stereo-isomeric compounds of clopenthixol may have clinical implications especially in immunocompromised hosts. The enhancing effect of trans(E)-clopenthixol is of particular importance as this stereo-isomer of clopenthixol exhibits both antimicrobial and antiplasmodial activity but has no antipsychotic or antihypersecretory effect.
Abstract: The investigation of two clinical isolates and two reference strains of DF-2 showed that supplementary cysteine and incubation in a humid atmosphere were important growth-promoting factors for these fastidious, gram-negative bacteria. Broth-base media with phenol red indicator were proven to be satisfactory for carbohydrate fermentation tests. Two four-hour enzyme assays (API ZYM and Rosco Diagnostic Tablets) were used to compare the enzymatic activity of DF-2 with that of 27 species of other non-enterobacterial organisms. The Rosco assay revealed that only the DF-2 strains had a positive alpha-fucosidase reaction, suggesting that this character may provide the means for rapid characterization and identification of these bacteria and also be of value for taxonomic classification. The incongruent results of the API ZYM assay seem to be due to the different substrates of the two assay systems.
Abstract: Four Capnocytophaga strains from blood cultures of immunocompromised patients with malignant disease and the type strains of three Capnocytophaga species were examined and compared to strains representing five other genera that are hard to differentiate from Capnocytophaga. With three rapid identification methods, negative catalase and oxidase reactions and positive ONPG assay, Capnocytophaga was easily separated from Eikenella corrodens, Actinobacillus actinomycetemcomitans, Cardiobacterium hominis, and CDC group DF-2. Haemophilus aphrophilus was excluded by leucine, valine and cystine arylamidase and alpha-glucosidase reactions (API ZYM). Further confirmatory reactions constituted gelatin hydrolysis, haemin requirement, and carbohydrate and esculin breakdown. Although rapid identification of Capnocytophaga to the genus level was feasible, differentiation on a species level proved impossible.
Abstract: The effect of different categories of membrane stabilizers on K+ loss and growth has been characterized in a culture of Staphylococcus aureus. Chlorpromazine, thiopental and tetracaine at low concentrations produced a marked inhibition of K+ loss and an equivalent increase in the K+ contents of S. aureus. Whereas the inhibitory effect of chlorpromazine on K+ loss was observed at lower than bacteriostatic concentrations of the drug, thiopental had no effect on growth in the concentration range where K+ loss was maximally inhibited. It is concluded that the bacteriostatic action of chlorpromazine is probably not related to its membrane stabilizing effect only.
Abstract: The ultrastructure of Staphylococcus aureus grown on plates containing chlorpromazine (CPZ) in concentrations up to a bacteriostatic level (50 micrograms/ml) was studied. High concentrations of CPZ induced large mesosome-like structures and asymmetrical cell divisions in a considerable number of cells.
Abstract: Measurement of the IC50 of cis(Z)-clopenthixol and trans(E)-clopenthixol on 188 bacterial strains from human clinical specimens shows that the antibacterial activity of clopenthixol is exerted by both isomerical components and trans(E)-clopenthixol is the most active antibiotic of the two drugs against the sensitive strains. It is known that the trans(E)-clopenthixol isomere is without neuroleptic effect. The possibility of creating new antibiotics by e.g. steric alteration of neuroleptical agents is stressed. These drugs have different antibiotic patterns from those of classical antibiotics. It seems particularly promising that Pseudomonas aeruginosa is sensitive to these drugs.
Abstract: The present investigation has been made to illustrate whether the cell walls of micro-organisms are affected by membrane stabilizers. In vitro experiments were carried out with S. aureus under the influence of chlorpromazine (CPZ). De-pigmentation and a bacteriostatic and bactericidal effect of CPZ on the micro-organisms were seen. It has been shown that concentrations of CPZ near the bacteriostatic value, in combination with bacterial haemolysins, alters erythrocyte membranes (horse and rabbit) in such a way that they become resistant to haemolysis. It has been shown that CPZ in bacteriostatic concentration probably changes the transport of potassium through the bacterial membrane in the same manner as described for mammalian muscle tissue.
