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)

It is known that malaria parasites are inhibited by sulfonamides and antifolate compounds, require 4-aminobenzoic acid for growth, and respond only partly to intact folic and folinic acids. Biochemical data obtained during the last decade on the synthesis of nucleic acid precursors and on folate enzymes in malaria support the hypothesis that malaria parasites are similar to microorganisms that synthesize folate cofactors de novo. Sulfa drugs inhibit plasmodial dihydropteroate synthase (EC 2.5.1.15). Pyrimethamine and many other antifolate compounds bind to tetrahydrofolate dehydrogenase (EC 1.5.1.3) of the parasite more tightly than to the host enzyme. However, the metabolic consequences of the depletion of folate cofactors as a result of drug inhibition are not yet known. Other areas to be studied are the origin of the pteridine moiety of folates, the addition of glutamate(s) in folate cofactor biosynthesis, the means by which intact, exogenous folates affect malarial growth, and demonstration of the enzymes and reactions involving N(5)-methyl tetrahydrofolate.
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PMID:Folate metabolism in malaria. 33 84

(+)-Deoxoartemisinin (2), a new and more active antimalarial agent, was successfully prepared from artemisinin in one step using NaBH4 and BF3.Et2O in THF. (-)-Deoxodeoxyartemisinin (5), a potential metabolite of deoxoartemisinin, was also prepared either from 2 or from artemisinic acid. 2 shows 8-fold increased antimalarial activity in vitro against chloroquine-resistant malaria as compared to artemisinin (1). Compound 2 possesses superior in vivo antimalarial activity to 1.
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PMID:Synthesis and antimalarial activity of (+)-deoxoartemisinin. 232 74

The widespread emergence of chloroquine-resistant Plasmodium falciparum led to the formulation of an effective, fixed combination of two antimalarial agents, pyrimethamine and the long-acting sulfonamide sulfadoxine, for prophylaxis and treatment. These drugs act at sequential steps to inhibit the formation of tetrahydrofolate in the parasite. Recently, their use for malaria prophylaxis has been associated with severe, at times fatal, cutaneous reactions including erythema multiforme, Stevens-Johnson syndrome, and toxic epidermal necrolysis. These reactions have necessitated a major reassessment of the indications for pyrimethamine-sulfadoxine use and increased the search for pharmacologic, immunologic and behavioral approaches to the prophylaxis and treatment of infection with P. falciparum. Pyrimethamine-sulfadoxine may be effective in preventing recurrent pneumonia caused by Pneumocystis carinii in patients with the acquired immunodeficiency syndrome, but life-threatening cutaneous reactions have also been reported in this setting.
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PMID:Use of pyrimethamine-sulfadoxine (Fansidar) in prophylaxis against chloroquine-resistant Plasmodium falciparum and Pneumocystis carinii. 355 13

Dihydrofolate reductase (DHFR) (5,6,7,8-tetrahydrofolate: NADPH+-oxidoreductase; EC 1.5.1.3) was partially purified by affinity chromatography from three clones of the human malaria parasite Plasmodium falciparum. The three clones were representative of pyrimethamine-sensitive (clone 3D7) and pyrimethamine-resistant (clone HB3 and clone 7G8) parasites with ID50 values of 0.53 nM (3D7), 210 nM (HB3), and 540 nM (7G8), when tested in vitro against the drug. The specific activities of the partially purified DHFR differed by less than a factor of 2 between the sensitive clone 3D7 (442 +/- 39 nmol min-1 mg-1 protein) and the resistant clones HB3 (634 +/- 25 nmol min-1 mg-1 protein) and 7G8 (565 +/- 85 nmol min-1 mg-1 protein). The number of catalytic sites in partially purified DHFR from the three clones was similar and ranged from 151 to 194 pmol mg-1 protein. The Km value for NADPH was similar in all three clones (4.5-11.6 microM). The Km value for dihydrofolate was altered 13-fold comparing the sensitive clone 3D7 (3.2 +/- 0.6 microM) with the resistant clone HB3 (42.6 +/- 1.6 microM), with the Km for the resistant clone 7G8 falling in between (11.9 +/- 1.2 microM). The inhibition constants for pyrimethamine increased from 0.19 +/- 0.08 nM (3D7) to 2.0 +/- 0.3 nM (HB3) to 8.9 +/- 0.8 nM (7G8). The inhibition by pyrimethamine of the sensitive clone 3D7 was noncompetitive and competitive for the two other clones. The titration of partially purified DHFR with pyrimethamine revealed a 500-fold increase in the concentration of the drug needed to inhibit the DHFR activity by 50%, when the sensitive clone 3D7 (0.18 +/- 0.02 nM) was compared to the resistant clone 7G8 (95 +/- 16 nM). From the comparison of the specific activities and the catalytic center activities with the Km values for the substrate and the inhibition constants for pyrimethamine, both of which are altered in the resistant clones, we conclude that the molecular mechanism for pyrimethamine resistance in the three clones studied is not based on an overproduction of the DHFR but is due to a decreased affinity to antifolates by a structurally altered enzyme.
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PMID:Kinetic and molecular properties of the dihydrofolate reductase from pyrimethamine-sensitive and pyrimethamine-resistant clones of the human malaria parasite Plasmodium falciparum. 355 92

The molecular weight of dihydrofolate reductase (5,6,7,8-tetrahydrofolate:NADP+ oxidoreductase, EC 1.5.1.3) from protozoa has been reported to be 5- to 10-fold larger than the isofunctional enzyme of most other organisms studied, based on gel filtration. This enzyme from the protozoal flagellate Crithidia fasciculata has been purified to homogeneity and found to be a bifunctional protein with thymidylate synthase (5,10-methylene tetrahydrofolate:dUMP C-methyltransferase, EC 2.1.1.45) activity. The purified protein, eluted from methotrexate-Sepharose columns by dihydrofolate, migrated as a single band on both nondenaturing and denaturing polyacrylamide gel electrophoresis. The monomer Mr is 56,700 +/- 200. The native Mr was calculated to be 107,000 from a sedimentation coefficient of 5.9 and Stokes radius of 4.4 nm. Dihydrofolate reductase and thymidylate synthase activities of the rodent malaria organism Plasmodium berghei also copurified on Sephadex G-200 and methotexate-Sepharose columns, suggesting that this unique bifunctional protein might occur throughout the Protozoa.
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PMID:Dihydrofolate reductase: thymidylate synthase, a bifunctional polypeptide from Crithidia fasciculata. 693 11

Antifolate drugs that target the biosynthesis and processing of essential folate cofactors are widely used for treatment of chloroquine-resistant falciparum malaria. Salvage of pre-formed folate can strongly compromise the efficacy of these drugs in vitro and the availability of folate from the human host in natural infections also influences therapeutic outcomes. To investigate how different parasite lines respond to the presence of exogenous folate, we measured the effect of the latter on the susceptibility of parasites to sulfa-drug blockage of folate biosynthesis, utilising the parents and 22 progeny of the HB3-Dd2 genetic cross of Plasmodium falciparum, together with selected unrelated lines. Complete linkage of the folate utilisation phenotype was observed to a DNA sequence of 48.6 kb lying between nucleotide positions 738,489 and 787,058 of chromosome 4 and encompassing the dihydrofolate reductase-thymidylate synthase (dhfr-ts) gene locus. Examination of the putative ORFs on this fragment upstream (3) and downstream (4) of dhfr-ts revealed no plausible candidate genes for folate processing. Similarly, a marked heterogeneity in the 5'-UTR regions of Dd2 and HB3, manifest as a directly repeated 256 bp sequence in the former, also did not correlate with the folate utilisation phenotype nor apparently influence levels of dhfr-ts transcripts or protein products. By contrast, the nature of the coding sequence of the dhfr domain appeared to play a direct role, with the single mutant (S108N) HB3-type utilising folic acid much less efficiently than other allelic variants. We also compared the processing of exogenous folic acid, folinic acid and p-aminobenzoic acid (pABA) in metabolic labelling studies of HB3 and Dd2. These support the view that DHFR is likely to have a low-level folate reductase activity as well as its normal function of reducing dihydrofolate to tetrahydrofolate, and that a significant hurdle in the utilisation of exogenous folic acid is the initial reduction of fully oxidised folic acid to dihydrofolate, an activity that the single mutant enzyme found in HB3 is postulated to perform particularly poorly. This would mirror earlier studies indicating that the DHFR activity of HB3 is also compromised relative to other variants.
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PMID:Genetic and metabolic analysis of folate salvage in the human malaria parasite Plasmodium falciparum. 1528 89

Serine hydroxymethyltransferase (SHMT), which catalyzes the reversible reaction of serine and tetrahydrofolate to glycine and methylenetetrahydrofolate, is one of the three enzymes in dTMP synthesis pathway that is highly active during cell division and has been proposed as a potential chemotherapeutic target in infectious diseases and cancer. This is the first study to describe nucleotide and amino acid sequences of SHMT from the malaria parasite Plasmodium vivax. Sequencing of 12 P. vivax isolates revealed limited polymorphisms in 3 noncoding regions. Its biological function is also reported.
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PMID:Cloning and characterization of Plasmodium vivax serine hydroxymethyltransferase. 1809 29

The folate derivatives folic acid (FA) and folinic acid (FNA) decrease the in vivo and in vitro activities of antifolate drugs in Plasmodium falciparum. However, the effects of 5-methyl-tetrahydrofolate (5-Me-THF) and tetrahydrofolate (THF), the two dominant circulating folate forms in humans, have not been explored yet. We have investigated the effects of FA, FNA, 5-Me-THF, and THF on the in vitro activity of the antimalarial antifolates pyrimethamine and chlorcycloguanil and the anticancer antifolates methotrexate (MTX), aminopterin, and trimetrexate (TMX), against P. falciparum. The results indicate that these anticancers are potent against P. falciparum, with IC50 < 50 nM. 5-Me-THF does not significantly decrease the activity of all tested drugs, and none of the tested folate derivatives significantly decrease the activity of these anticancers. Thus, malaria folate metabolism has features different from those in human, and the exploitation of this difference could lead to the discovery of new drugs to treat malaria. For instance, the combination of 5-Me-THF with a low dose of TMX could be used to treat malaria. In addition, the safety of a low dose of MTX in the treatment of arthritis indicates that this drug could be used alone to treat malaria.
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PMID:Effect of folate derivatives on the activity of antifolate drugs used against malaria and cancer. 1825 76

The plant-like, bifunctional dihydrofolate reductase-thymidylate synthase (DHFR-TS) from malaria parasites has been a good target for drug development. Dihydrofolate reductase (DHFR) is inhibited by clinically established antimalarials, pyrimethamine and cycloguanil. Thymidylate synthase (TS) is the target of potent experimental antimalarials such as 5-fluoroorotate and 1843U89. Another enzyme in folate recycling, serine hydroxymethyltransferase (SHMT), produces 5,10-methylenetetrahydrofolate which, in many cells, is required for the de novo, biosynthesis of thymidine and methionine. Thus, the biochemical characterization of malarial SHMT was of interest. The principle, active Plasmodium falciparum SHMT (PfSHMT) was expressed in E. coli and purified using an N-terminal histidine tag. Unlike the plant enzyme, but like the host enzyme, PfSHMT requires the cofactor pyridoxal 5'-phosphate for enzymatic activity. The substrate specificities for serine, tetrahydrofolate, and pyridoxal 5'-phosphate were comparable to those for SHMT from other organisms. Antifolates developed for DHFR and TS inhibited SHMT in the mid-micromolar range, offering insights into the binding preferences of SHMT but clearly leaving room for improved new inhibitors. As previously seen with P. falciparum DHFR-TS, PfSHMT bound its cognate mRNA but not control RNA for actin. RNA binding was not reversed with enzyme substrates. Unlike DHFR-TS, the SHMT RNA-protein interaction was not tight enough to inhibit translation. Another gene PF14_0534, previously proposed to code for an alternate mitochondrial SHMT, was also expressed in E. coli but found to be inactive. This protein, nor DHFR-TS, enhanced the catalytic activity of PfSHMT. The present results set the stage for developing specific, potent inhibitors of SHMT from P. falciparum.
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PMID:Catalytic and ligand-binding characteristics of Plasmodium falciparum serine hydroxymethyltransferase. 1959 83

Unusually for a eukaryote, the malaria parasite Plasmodium falciparum expresses dihydrofolate synthase (DHFS) and folylpolyglutamate synthase (FPGS) as a single bifunctional protein. The two activities contribute to the essential pathway of folate biosynthesis and modification. The DHFS activity of recombinant PfDHFS-FPGS exhibited non-standard kinetics at high co-substrate (glutamate and ATP) concentrations, being partially inhibited by increasing concentrations of its principal substrate, dihydropteroate (DHP). Binding of DHP to the catalytic and inhibitory sites exhibited dissociation constants of 0.50microM and 1.25microM, respectively. DHFS activity measured under lower co-substrate concentrations, where data fitted the Michaelis-Menten equation, yielded apparent K(m) values of 0.88microM for DHP, 22.8microM for ATP and 5.97microM for glutamate. Of the substrates tested in FPGS assays, only tetrahydrofolate (THF) was efficiently converted to polyglutamylated forms, exhibiting standard kinetics with an apparent K(m) of 0.96microM; dihydrofolate, folate and the folate analogue methotrexate (MTX) were negligibly processed, emphasising the importance of the oxidation state of the pterin moiety. Moreover, MTX inhibited neither DHFS nor FPGS, even at high concentrations. Conversely, two phosphinate analogues of 7,8-dihydrofolate that mimic tetrahedral intermediates formed during DHFS- and FPGS-catalysed glutamylation were powerfully inhibitory. The K(i) value of an aryl phosphinate analogue against DHFS was 0.14microM and for an alkyl phosphinate against FPGS 0.091microM, with each inhibitor showing a high degree of specificity. This, combined with the absence of DHFS activity in humans, suggests PfDHFS-FPGS might represent a potential new drug target in the previously validated folate pathway of P. falciparum.
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PMID:Characterisation of the bifunctional dihydrofolate synthase-folylpolyglutamate synthase from Plasmodium falciparum; a potential novel target for antimalarial antifolate inhibition. 2035 May 71


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