Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0024530 (malaria)
44,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report on chloroquine, a 4-amino-quinoline, as an effective inhibitor of the replication of the severe acute respiratory syndrome coronavirus (SARS-CoV) in vitro. Chloroquine is a clinically approved drug effective against malaria. We tested chloroquine phosphate for its antiviral potential against SARS-CoV-induced cytopathicity in Vero E6 cell culture. Results indicate that the IC50 of chloroquine for antiviral activity (8.8 +/- 1.2 microM) was significantly lower than its cytostatic activity; CC50 (261.3 +/- 14.5 microM), yielding a selectivity index of 30. The IC50 of chloroquine for inhibition of SARS-CoV in vitro approximates the plasma concentrations of chloroquine reached during treatment of acute malaria. Addition of chloroquine to infected cultures could be delayed for up to 5h postinfection, without an important drop in antiviral activity. Chloroquine, an old antimalarial drug, may be considered for immediate use in the prevention and treatment of SARS-CoV infections.
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PMID:In vitro inhibition of severe acute respiratory syndrome coronavirus by chloroquine. 1535 31

A preliminary study from our laboratory found retinol (vitamin A alcohol) to have in vitro activity against Plasmodium falciparum at concentrations close to those in normal human serum (1-3 microM). To characterize the antimalarial potential of retinol in more detail, the 3D7 and K1 laboratory strains of P. falciparum were maintained in continuous culture and [3H]hypoxanthine incorporation and microscopy were used to assess the effect of retinol against asexual stages of the parasite life-cycle. Losses of retinol and retinol-associated hemolysis were also quantified in the in vitro culture system. There were retinol losses of >50% but no hemolysis was observed with added retinol concentrations up to 100 microM. All stages of parasite development showed comparable sensitivity to retinol including merozoite invasion (range of mean IC50 values 10.1-21.4 microM after adjustment for losses). Retinol pre-treatment of uninfected RBC did not inhibit merozoite invasion. Retinol treatment was associated with increased vacuolization within the parasite food vacuole and evidence of parasite membrane rupture. These appearances were similar to those seen with quinoline and artemisinin compounds. Although these data do not support a role for acute retinol supplementation in the treatment of falciparum malaria, they add to knowledge regarding potential antimalarial therapies and justify assessment of more potent synthetic retinoids and their metabolites.
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PMID:Characterization of the effect of retinol on Plasmodium falciparum in vitro. 1536 39

A simple two-step synthesis method was used to make 51 B-ring-substituted 4-hydroxyquinolines allowing analysis of the effect of ring substitutions on inhibition of growth of chloroquine sensitive and resistant strains of Plasmodium falciparum, the dominant cause of malaria morbidity. Substituted quinoline rings other than the 7-chloroquinoline ring found in chloroquine were found to have significant activity against the drug-resistant strain of P. falciparum W2.
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PMID:Synthesis of ring-substituted 4-aminoquinolines and evaluation of their antimalarial activities. 1568 3

A series of 2-phenyl quinoline-4-carboxylic acid derivatives related to brequinar, an inhibitor of human dihydroorotate dehydrogenase (DHODH), has been prepared and evaluated as inhibitors of DHODH from the malaria parasite Plasmodium falciparum. Brequinar was essentially inactive against PfDHODH (IC(50) 880 microM) whereas several members of the series inhibited PfDHODH. Unexpectedly, replacement of the carboxylic acid required for brequinar to inhibit hDHODH was not essential in the diisopropylamides that inhibited PfDHODH.
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PMID:Synthesis of brequinar analogue inhibitors of malaria parasite dihydroorotate dehydrogenase. 1572 50

Antimalarial drugs such as chloroquine are believed to act by inhibiting hemozoin formation in the food vacuole of the malaria parasite. We have developed a new assay for measuring and detecting inhibition of synthetic hemozoin (beta-hematin) formation. Aqueous pyridine (5% v/v, pH 7.5) forms a low-spin complex with hematin but not with beta-hematin. Its absorbance obeys Beer's law, making it useful for quantitating hematin concentration in hematin/beta-hematin mixtures, allowing compounds to be investigated for inhibition of beta-hematin formation. The assay is rapid (60 min incubation) and requires no centrifugation. The beta-hematin inhibition data show good agreement with alternative assay methods reported by four laboratories. The assay was adapted for high-throughput colorimetric screening, allowing visual identification of beta-hematin inhibitors. In this mode, the assay successfully detected all 18 beta-hematin inhibitors in a set of 47 compounds tested, with no false positive results. The quantitative in vitro antimalarial activities of a set of 13 aminoquinolines and quinoline methanols were found to correlate significantly with beta-hematin inhibition values determined using the assay.
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PMID:A colorimetric high-throughput beta-hematin inhibition screening assay for use in the search for antimalarial compounds. 1574 52

A series of E-2-quinolinylbenzocycloalcanones 5-21 were prepared and evaluated for their activity to inhibit beta-hematin formation and the hydrolysis of hemoglobin in vitro. Positive compounds for both assays were also tested for their efficacy in rodent Plasmodium berghei. Compounds 6, 16, 19, and 20, were the most promising. Inhibition of beta-hematin formation was minimal when a hydrogen or methoxy groups were present on the position 8 of the quinoline and position 4' of the indanone ring as it appeared for compounds 5, 7-15, 17, 18, and 21, and greatest with compounds (52%) and (90%) with a substitution of methoxy on position 6 and 7 or methyl on position 8 of the quinoline nucleus and methoxy or methyl groups on position 4' of the indanone. The most active compound to emerge from this study is 2-chloro-8-methyl-3-[(4'-methoxy-1'-indanoyl)-2'-methyliden]-quinoline 20 effective as antimalarial that target beta-hematin formation and the inhibition of the hydrolysis of hemoglobin in vitro together with a good survival in a murine malaria model, which should help delay the rapid onset of resistance to drugs acting at only a single site. Results with these assays suggest that quinolinylbenzocycloalcanones exert their antimalarial activity via multiple mechanisms.
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PMID:Synthesis and antimalarial activity of E-2-quinolinylbenzocycloalcanones. 1587 18

The strength of inhibition of beta-hematin (synthetic hemozoin or malaria pigment) formation by the quinoline antimalarial drugs chloroquine, amodiaquine, quinidine and quinine has been investigated as a function of incubation time. In the assay used, beta-hematin formation was brought about using 4.5M acetate, pH 4.5 at 60 degrees C. Unreacted hematin was detected by formation of a spectroscopically distinct low spin pyridine complex. Although, these drugs inhibit beta-hematin formation when relatively short incubation times are used, it was found that beta-hematin eventually forms with longer incubation periods (<8h for chloroquine and >8h for quinine). This conclusion was supported by both infrared and X-ray powder diffraction observations. It was further found that the IC(50) for inhibition of beta-hematin formation increases markedly with increasing incubation times in the case of the 4-aminoquinolines chloroquine and amodiaquine. By contrast, in the presence of the quinoline methanols quinine and quinidine the IC(50) values increase much more slowly. This results in a partial reversal of the order of inhibition strengths at longer incubation times. Scanning electron microscopy indicates that beta-hematin crystals formed in the presence of chloroquine are more uniform in both size and shape than those formed in the absence of the drug, with the external morphology of these crystallites being markedly altered. The findings suggest that these drugs act by decreasing the rate of hemozoin formation, rather than irreversibly blocking its formation. This model can also explain the observation of a sigmoidal dependence of beta-hematin inhibition on drug concentration.
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PMID:Quinoline antimalarials decrease the rate of beta-hematin formation. 1592 60

Ferroquine (FQ) is a 4-aminoquinoline antimalarial which contains a quinoline nucleus similar to chloroquine, but a novel ferrocenic group in its side chain. Previous work has demonstrated that this compound has excellent activity against malaria parasites, both in vitro and in vivo, with especially good activity against chloroquine-resistant parasites, but details of its mechanism of action have not previously been reported. In this study, we have investigated the physicochemical properties of FQ for comparison with chloroquine (CQ). Like CQ, FQ forms complexes with hematin in solution (log K = 4.95 +/- 0.05). FQ is an even stronger inhibitor of beta-hematin formation than CQ (IC(50) = 0.78 equiv relative to hematin for FQ vs 1.9 for CQ). These data suggest that the mechanism of action of FQ is likely to be similar to that of CQ and probably involves hematin as the drug target and inhibition of hemozoin formation. However, both the basicity and lipophilicity of FQ are significantly different from those of CQ. The lipophilicity of FQ and CQ are similar when protonated at the putative food vacuole pH of 5.2 (log D = -0.77 and -1.2 respectively), but differ markedly at pH 7.4 (log D = 2.95 and 0.85 respectively). In addition, the pK(a) values of FQ are lower (pK(a1) = 8.19 and pK(a2) = 6.99) than those of CQ (10.03 and 7.94, respectively). This suggests that there will be somewhat less vacuolar accumulation of FQ compared with CQ. Single crystal structure determination of FQ shows the presence of a strong internal hydrogen bond between the 4-amino group and the terminal N atom. This, together with the electron donating properties of the ferrocene moiety, probably explains the decreased pK(a). Interestingly, the decreased accumulation arising from the less basic behavior of this compound is partly compensated for by its stronger beta-hematin inhibition. Increased lipophilicity, differences in geometric and electronic structure, and changes in the N-N distances in FQ compared to CQ probably explain its activity against CQ-resistant parasites.
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PMID:Insights into the mechanism of action of ferroquine. Relationship between physicochemical properties and antiplasmodial activity. 1593 79

A decline in our ability to successfully treat patients with malaria infections of the parasitic protozoan Plasmodium falciparum with cheap quinoline drugs has led to a huge escalation in morbidity and mortality in recent years. Many approaches have been taken, including classical genetics, reverse genetics and molecular epidemiology, to identify the molecular determinants underlying this resistance. The contribution of the P. falciparum multidrug resistance gene, pfmdr1, to antimalarial resistance has been a source of controversy for over a decade since it was first identified. In the current issue of Molecular Microbiology, Sidhu and colleagues use powerful reverse genetics to demonstrate the importance of commonly occurring alleles of pfmdr1 in conferring resistance to the second-line drugs quinine and sensitivity to the new alternatives mefloquine and artemisinin. They also elegantly highlight the importance of genetic background and epistasis between pfmdr1 and other potential modulators of drug resistance. Such molecular knowledge will facilitate surveillance/monitoring and aid the development of strategies for the reversal of resistance.
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PMID:Multiple drug resistance genes in malaria -- from epistasis to epidemiology. 1609 Oct 34

Methylene blue (MB) represents a promising antimalarial drug candidate for combination therapies against drug-resistant parasite strains. To support and facilitate the application of MB in future field trials, we studied its antiparasitic effects in vitro. MB is active against all blood stages of both chloroquine (CQ)-sensitive and CQ-resistant P. falciparum strains with 50% inhibitory concentration (IC50) values in the lower nanomolar range. Ring stages showed the highest susceptibility. As demonstrated by high-performance liquid chromatography-tandem mass spectrometry on different cell culture compartments, MB is accumulated in malarial parasites. In drug combination assays, MB was found to be antagonistic with CQ and other quinoline antimalarials like piperaquine and amodiaquine; with mefloquine and quinine, MB showed additive effects. In contrast, we observed synergistic effects of MB with artemisinin, artesunate, and artemether for all tested parasite strains. Artemisinin/MB combination concentration ratios of 3:1 were found to be advantageous, demonstrating that the combination of artemisinin with a smaller amount of MB can be recommended for reaching maximal therapeutic effects. Our in vitro data indicate that combinations of MB with artemisinin and related endoperoxides might be a promising option for treating drug-resistant malaria and should be studied in future field trials. Resistance development under this drug combination is unlikely to occur.
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PMID:In vitro assessment of methylene blue on chloroquine-sensitive and -resistant Plasmodium falciparum strains reveals synergistic action with artemisinins. 1625


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