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)

Quinoline antimalarial drugs such as chloroquine and related compounds are believed to act by targeting ferriprotoporphyrin IX (Fe(III)PPIX) in the form of hematin (H(2)O/HO-Fe(III)PPIX), its mu-oxo dimer ([Fe(III)PPIX](2)O) or crystalline beta-hematin ([Fe(III)PPIX](2)) in the malaria parasite. Fe(III)PPIX is formed when the parasite digests host hemoglobin during its intraerythrocytic blood stage. This has led to a number of studies on the interaction of Fe(III)PPIX with quinoline antimalarials and related compounds. This article reviews the spectroscopy, thermodynamics and structures of Fe(III)PPIX-quinoline complexes in solution.
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PMID:Interactions of quinoline antimalarials with hematin in solution. 1638

Plasmodium falciparum resistance to chloroquine (CQ) has been documented in Iran since the early 1980s and has since gradually increased. Iran is therefore reviewing its national drug policy for malaria control. We describe the prevalence of single nucleotide polymorphisms (SNP) associated with quinoline drug resistance in south eastern Iran. Pre-treatment blood from patients with uncomplicated but symptomatic P. falciparum infection was analysed. Polymorphisms at codons 76, 152, 163 and 220 of the pfcrt gene (chloroquine resistance transporter) and at codons 86, 184, 1034, 1042 and 1246 of the pfmdr1 gene (multidrug resistance) were determined by PCR-RFLP and sequencing. In addition, SNPs on a recently described multidrug resistance protein (pfmrp) and a microsatellite (MS-4760) in the pfnhe-1 (sodium hydrogen exchanger) gene associated with quinoline and quinine resistance, respectively, were investigated for the first time in field samples not from Thailand. pfcrt 76T was found in 99% and pfmdr1 86Y in 72% of the samples. pfmrp 191H and 437S associated with decreased quinoline response were found to be absolutely linked at a frequency of 13.6%. The pfnhe-1 MS-4760 one repeat allele associated to quinine response in vitro was also detected. Sequencing of the pfcrt 72-76 haplotype revealed that SVMNT was the most common allele as previously observed in India. This suggests that pfcrt found in the Iranian P. falciparum population may have the same origin as in the P. falciparum populations in India but different from that normally found in south east Asia. In conclusion, the frequencies of quinoline resistance associated gene polymorphisms in this region suggest a population that has been significantly selected for by the long use of CQ.
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PMID:Quinoline resistance associated polymorphisms in the pfcrt, pfmdr1 and pfmrp genes of Plasmodium falciparum in Iran. 1649 Jan 79

Thieno[3,2-c]quinoline-4-yl-amines - synthesis and investigation of activity against malaria pH-Dependant reduction of the methyl 2-(2-nitrophenyl)thiophene-3-carboxylate 3, formed by Suzuki coupling of methyl 2-iodothiophene-3-carboxylate (2) with 2-nitrophenylboronic acid, yielded the cyclic hydroxamic acid 4 and the lactam 5, respectively. The 4-chlorothieno[3,2-c]quinoline 6 was formed from the lactam 5 by heating with POCI3/PCI5s. Melting of 6 with the novaldiamine base in phenol gave the chloroquine analogue 7, whereas the amodiaquine and the pyronaridine analogues 8 and 9 were obtained using phenol Mannich bases. The reaction of 6 with putrescine and N,N'-bis(3-aminopropyl)piperazine as spacer formed the bisquinoline derivatives 10 and 11 as well as the monosubstituted quinoline 12. In the same manner the isomeric 4-chlorothieno[2,3-c]quinoline 13 reacted to yield the quinoline-4-yl-amines 14-16. The compounds 7-12 and 14-16 were tested for in vitro growth inhibition of the malaria parasite Plasmodium falciparum. As most active compound the pyronaridine derivative 9 displayed an IC50 value of 210 nM with the chloroquine sensitive P. falciparum strain 3D7 and 750 nM with the chloroquine resistant P. falciparum strain Dd2. The N,N'-bis(3-aminopropyl)piperazine derivative 11 displayed in vivo activity in Plasmodium vinckei infected mice with an ED50 value of 30 mg/kg after i.p. administration.
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PMID:[Thieno[3,2-c]quinoline-4-yl-amines--synthesis and investigation of activity against malaria]. 1664 37

Imported malaria is an important problem in non-endemic areas because of increasing numbers of travelers, overseas workers and immigrants. Since the presentation of malaria is vague and nonspecific, the diagnosis should be considered in any appropriately symptomatic patient with a history of travel to a malaria-endemic area. If the diagnosis is not made in about one day, the disease can have a fatal outcome. Microscopy of thick and thin blood smears remains the standard laboratory method, although also polymerase chain reaction has become an important diagnostic and research technique in malaria. The main classes of drugs used are the quinoline-related compounds (chloroquine, mefloquine, primaquine), atovaquon/proguanil and the artemisinin derivatives. Management of severe and complicated malaria requires special attention: patients have to be admitted to an intensive care unit, supportive measures must be initiated, and parenteral treatment with quinine should be started as quickly as possible.
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PMID:[Malaria]. 1681 59

In non Mg(2+)-loaded and non malaria-infected rat erythrocytes, mefloquine (100 micromol x l (-1)) stimulated choline/Mg2+ antiport without affecting the Na+/Mg2+ antiport. The stimulation of the choline/Mg2+ antiport by mefloquine, found in this study, and by trifluoperazine and fluvoxamine, reported previously [Ebel et al. Biochim Biophys Acta 2004; 1167: 132-40], was associated with CF3 groups attached to the quinoline or benzene ring. The effect of mefloquine on choline/Mg2+ antiport in vitro was not related to the antimalarial action of mefloquine in vivo. In rat erythrocytes, the choline/Mg2+ antiport can be differentiated from the Na+/Mg2+ antiport through the use of cinchonine that inhibited the choline/Mg2+ antiport [Ebel et al. Biochim Biophys Acta 2002; 1559: 135-44], and mefloquine that stimulated the choline/Mg2+ antiport, whereby the Na+/Mg2+ antiport was not affected by either drug at proper concentrations. The Na+/Mg2+ antiport and choline/Mg2+ antiports behave as different molecular entities.
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PMID:Stimulation of choline/Mg2+ antiport in rat erythrocytes by mefloquine. 1684 95

Prion diseases are invariably fatal neurodegenerative diseases, in which the infectious agent consists of PrP(Sc), a pathogenic misfolded isoform of the normal cellular prion protein (PrP(C)). Until now, no pharmacological options exist for these novel pathogens. Here we describe the screening of a series of polyquinolines and quinolines linked to a large variety of terminal groups for their ability to cure a persistently prion infected cell line (ScN2a). Several compounds showed antiprion activity in the nanomolar range. The most active molecule, named 42, had a half-effective concentration (EC50) for antiprion activity of 50 nM. In a library of quinoline derivatives we were able to identify several structure-activity relationships (SAR). Remarkably, antiprion SAR in ScN2a cells were similar to antimalarial SAR in a cell model of malaria, particularly for the sulfonamide quinoline derivatives, suggesting that some molecular targets of antiprion and antimalarial substances overlap.
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PMID:Similar structure-activity relationships of quinoline derivatives for antiprion and antimalarial effects. 1691 19

The development and spread of resistance to antimalarial drugs poses a severe and increasing public health threat. Failures of prophylaxis or treatment with quinolines, hydroxynaphthoquinones, sesquiterpene lactones, antifolate drugs and sulfamides are involved in a return malaria-related morbidity and mortality. Resistance is associated with a decrease in accumulation of drugs into the vacuole, which results from a reduced uptake of the drug, an increased efflux or a combination of both. A number of candidate genes in P. falciparum have been proposed to be involved in antimalarial resistance, each concerned in membrane transport. Weaker or stronger associations are seen in P. falciparum between the resistance to quinolines or artemisinin derivatives and codon changes in Pfmdr1, a gene which encodes Pgh-1, an ortholog of one of the P-glycoproteins expressed in multi-drug resistant human cancer cells (ABC transporter). Further analysis has revealed a new gene, Pfcrt, encoding a PfCRT protein, which resembles an anion channel. Codon changes found in the Pfcrt sequence in drug resistant isolates could facilitate the drug efflux through a putative channel. It has been proposed that the reversal of quinoline resistance by verapamil is due to hydrophobic binding to the mutated PfCRT protein. Several compounds have demonstrated in the past decade a promising capability to reverse the antimalarial drug resistance in vitro in parasite isolates, in animal models and in human malaria. These drugs belong to different pharmacological classes such as calcium channel blockers, tricyclic antidepressants, antipsychotic calmodulin antagonists, histamine H1-receptor antagonists, analgesic and antipyretic drugs, non-steroidal anti-inflammatory drugs, and to different chemical classes such as synthetic surfactants, alkaloids from plants used in traditional medicine, pyrrolidinoaminoalkanes and anthracenic derivatives. Here we summarize the progress made in biochemical and genetic basis of antimalarial resistance, emphasizing the recent developments on drugs, which interfere with trans membrane proteins involved in drug efflux or uptake.
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PMID:Chloroquine resistance reversal agents as promising antimalarial drugs. 1691 22

The intraerythrocytic malaria parasite constructs an intracellular haem crystal, called haemozoin, within an acidic digestive vacuole where haemoglobin is degraded. Haem crystallization is the target of the widely used antimalarial quinoline drugs. The intracellular mechanism of molecular initiation of haem crystallization, whether by proteins, polar membrane lipids or by neutral lipids, has not been fully substantiated. In the present study, we show neutral lipid predominant nanospheres, which envelop haemozoin inside Plasmodium falciparum digestive vacuoles. Subcellular fractionation of parasite-derived haemozoin through a dense 1.7 M sucrose cushion identifies monoacylglycerol and diacylglycerol neutral lipids as well as some polar lipids in close association with the purified haemozoin. Global MS lipidomics detects monopalmitic glycerol and monostearic glycerol, but not mono-oleic glycerol, closely associated with haemozoin. The complex neutral lipid mixture rapidly initiates haem crystallization, with reversible pH-dependent quinoline inhibition associated with quinoline entry into the neutral lipid microenvironment. Neutral lipid nanospheres both enable haem crystallization in the presence of high globin concentrations and protect haem from H2O2 degradation. Conceptually, the present study shifts the intracellular microenvironment of haem crystallization and quinoline inhibition from a polar aqueous location to a non-polar neutral lipid nanosphere able to exclude water for efficient haem crystallization.
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PMID:The role of neutral lipid nanospheres in Plasmodium falciparum haem crystallization. 1704 14

Resistance to quinoline antimalarials, especially to chloroquine and mefloquine has had a major impact on the treatment of malaria worldwide. In the period since 2000, significant progress has been made in understanding the origins of chloroquine resistance and to a lesser extent mefloquine resistance in Plasmodium falciparum. Chloroquine resistance correlates directly with mutations in the pfcrt gene of the parasite, while changes in another gene, pfmdr1, may also be related to chloroquine resistance in some strains. Mutations in pfcrt do not appear to correlate with mefloquine resistance, but some studies have implicated pfmdr1 in mefloquine resistance. Its involvement however, has not been definitively demonstrated. The protein products of these genes, PfCRT and Pgh-1 are both located in the food vacuole membrane of the parasite. Current evidence suggests that PfCRT is probably a transporter protein. Chloroquine appears to exit the food vacuole via this transporter in resistant PfCRT mutants. Pgh-1 on the other hand, resembles mammalian multi-drug resistance proteins and appears to be involved in expelling hydrophobic drugs from the food vacuole. Resistance reversing agents are believed to act by inhibiting these proteins. The currently known chloroquine- and mefloquine-resistance reversing agents are discussed in this review. This includes a discussion of structure-activity relationships in these compounds and hypotheses on their possible mechanisms of action. The status of current clinical applications is also briefly discussed.
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PMID:Quinoline-resistance reversing agents for the malaria parasite Plasmodium falciparum. 1706 51

The morphology of micrometer-sized beta-hematin crystals (synthetic malaria pigment) was determined by TEM images and diffraction, and by grazing incidence synchrotron X-ray diffraction at the air-water interface. The needle-like crystals are bounded by sharp {100} and {010} side faces, and capped by {011} and, to a lesser extent, by {001} end faces, in agreement with hemozoin (malaria pigment) crystals. The beta-hematin crystals grown in the presence of 10% chloroquine or quinine took appreciably longer to precipitate and tended to be symmetrically tapered toward both ends of the needle, due to stereoselective additive binding to {001} or {011} ledges. Evidence, but marginal, is presented that additives reduce crystal mosaic domain size along the needle axis, based on X-ray powder diffraction data. Coherent grazing exit X-ray diffraction suggests that the mosaic domains are smaller and less structurally stable than in pure crystals. IR-ATR and Raman spectra indicate molecular based differences due to a modification of surface and bulk propionic acid groups, following additive binding and a molecular rearrangement in the environment of the bulk sites poisoned by occluded quinoline. These results provided incentive to examine computationally whether hemozoin may be a target of antimalarial drugs diethylamino-alkoxyxanthones and artemisinin. A variation in activity of the former as a function of the alkoxy chain length is correlated with computed binding energy to {001} and {011} faces of beta-hematin. A model is proposed for artemisinin activity involving hemozoin nucleation inhibition via artemisinin-beta-hematin adducts bound to the principal crystal faces. Regarding nucleation of hemozoin inside the digestive vacuole of the malaria parasite, nucleation via the vacuole's membranous surface is proposed, based on a reported hemozoin alignment. As a test, a dibehenoyl-phosphatidylcholine monolayer transferred onto OTS-Si wafer nucleated far more beta-hematin crystals, albeit randomly oriented, than a reference OTS-Si.
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PMID:Crystal nucleation, growth, and morphology of the synthetic malaria pigment beta-hematin and the effect thereon by quinoline additives: the malaria pigment as a target of various antimalarial drugs. 1729 Sep 93


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