UMLS:C0024530 - FACTA Search

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

Three mutations in Plasmodium falciparum yielding increased resistance to pyrimethamine were obtained following treatment with chemical mutagens and selection in presence of pyrimethamine. From parasite clone TM4/8.2 a mutant, TM4/8.2/4.1, was produced which raised pyrimethamine resistance about 500 times and was found to involve an amino acid change in the DHFR-TS enzyme molecule from Ser108 to Asn108. A clone of another isolate, T9/94, yielded a mutant, T9/94/300.300, raising pyrimethamine resistance about 10 times and involving an amino acid change from Ile164 to Met164. However, another mutant from T9/94, T9/94/M1-1(b3), although it raised the pyrimethamine resistance 100 times, did not involve any changes in the coding sequence of the DHFR-TS gene, but resulted in the production of about twice as much DHFR-TS enzyme as the original clone T9/94. No amplification of the DHFR-TS gene was detected. It is concluded that changes in pyrimethamine resistance of malaria parasites may arise in at least 2 ways: (1) by structural changes in the DHFR domain of the DHFR-TS gene (as previously found by other workers); (2) by other changes, possibly affecting the expression of the DHFR-TS gene. The relative importance of these 2 mechanisms in causing resistance in wild populations of P. falciparum is discussed.
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PMID:Pyrimethamine resistant mutations in Plasmodium falciparum. 162 Jan 55

Pyrimethamine resistance in cultivated laboratory isolates of Plasmodium falciparum is linked to the dihydrofolate reductase mutation Asn-108, a mutation that acts by interrupting drug binding within the active site of the enzyme. To determine the prevalence of this mutation in endemic regions harboring pyrimethamine-resistant malaria, we used a mutation-specific polymerase chain reaction assay to survey P. falciparum strains from a wide section of the Brazilian Amazon. Mutations were identified directly from blood samples without intervening steps of in vitro cultivation. Of 42 samples collected from four states in Brazil, 38 (90%) contained the Asn-108 codon AAC that confers pyrimethamine resistance, four samples contained only the wild-type Ser-108 codon AGC, and none contained the Thr-108 codon ACC found in cycloguanil-resistant pyrimethamine-sensitive strains. These findings indicate that a very high incidence of the Asn-108 DHFR mutation is responsible for pyrimethamine resistance in the Amazon, and they are consistent with recent failure rates reported for Fansidar (pyrimethamine-sulfadoxine). We suggest that limited use of proguanil be evaluated as an alternative to pyrimethamine.
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PMID:Prevalence of the dihydrofolate reductase Asn-108 mutation as the basis for pyrimethamine-resistant falciparum malaria in the Brazilian Amazon. 195 58

Selection of the rodent malaria Plasmodium chabaudi with low levels of the antifolate drug pyrimethamine has previously been shown by us to result in duplication of the dihydrofolate reductase-thymidylate synthase (DHFR-TS) gene by a duplication of chromosome 7 and subsequent rearrangements. We have selected this resultant parasite line with large doses of pyrimethamine and analysed the DHFR-TS gene and chromosomes for any changes. Increased drug pressure has resulted in reappearance of a chromosome with the same structure as chromosome 7 from DS the parent line. Sequencing of the DHFR gene from each of the chromosomes has identified a single point mutation that results in a serine to asparagine change at position 106. This is the equivalent mutation that has been identified as the key residue in the mechanism of resistance to pyrimethamine in Plasmodium falciparum. There is no apparent increase in transcription of the DHFR-TS gene and the large increase in resistance is most likely a result of the mutation in the DHFR gene.
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PMID:Chromosomal rearrangements and point mutations in the DHFR-TS gene of Plasmodium chabaudi under antifolate selection. 223 98

Resistance to antifolate drugs such as pyrimethamine is widespread among malaria parasites of the most pathogenic species Plasmodium falciparum. These drugs inhibit the dihydrofolate reductase activity of the dihydrofolate reductase-thymidylate synthetase (DHFR-TS) bifunctional enzyme. This review examines work done to characterize the enzyme, the cloning of plasmodial DHFR-TS genes, chromosomal mapping studies of these genes by pulsed-field gel electrophoresis, and the structural insights into the mechanism of drug resistance that have been gained by comparing genes from drug-sensitive parasites with those from drug-resistant strains that have arisen in the field or after experimental induction.
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PMID:The dihydrofolate reductase-thymidylate synthetase gene in the drug resistance of malaria parasites. 227 77

To investigate the genetic basis of drug resistance in human malaria parasites, we have sequenced the entire dihydrofolate reductase thymidylate synthetase DHFR-TS bifunctional gene from the highly pyrimethamine-resistant K1 isolate of Plasmodium falciparum. The protein is predicted to consist of 607 amino acids (aa), (71,685 Da), with an N-terminal methionine encoded by the second start codon of the open reading frame. Compared to the sequence from drug-sensitive parasites, there are two nucleotide changes in the coding region which bring about a substitution of Arg for Cys at aa position 59 and Asn for Thr at aa position 108. Both changes occur in regions of the DHFR domain involved in inhibitor and cofactor binding and are hence strongly implicated in drug resistance. The gene is present as a single copy in both K1 and drug-sensitive FCR3 isolates, and is assigned to chromosome 4. Codon usage follows the pattern observed in that of malarial surface antigen genes, with the exception fo codons corresponding to Val and Pro. The Asn and Lys contents of the predicted protein are exceptionally high, these residues being particularly concentrated in the DHFR and junction domains.
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PMID:Characterisation of the dihydrofolate reductase-thymidylate synthetase gene from human malaria parasites highly resistant to pyrimethamine. 266 50

Analysis of a genetic cross of Plasmodium falciparum and of independent parasite isolates from Southeast Asia, Africa, and South America indicates that resistance to pyrimethamine, an antifolate used in the treatment of malaria, results from point mutations in the gene encoding dihydrofolate reductase-thymidylate synthase (EC 1.5.1.3 and EC 2.1.1.45, respectively). Parasites having a mutation from Thr-108/Ser-108 to Asn-108 in DHFR-TS are resistant to the drug. The Asn-108 mutation occurs in a region analogous to the C alpha-helix bordering the active site cavity of bacterial, avian, and mammalian enzymes. Additional point mutations (Asn-51 to Ile-51 and Cys-59 to Arg-59) are associated with increased pyrimethamine resistance and also occur at sites expected to border the active site cavity. Analogies with known inhibitor/enzyme structures from other organisms suggest that the point mutations occur where pyrimethamine contacts the enzyme and may act by inhibiting binding of the drug.
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PMID:Evidence that a point mutation in dihydrofolate reductase-thymidylate synthase confers resistance to pyrimethamine in falciparum malaria. 290 49

The causal prophylactic activity of several reference and experimental antimalarial compounds was assessed in sporozoite-induced infections of NMRI mice with Plasmodium berghei yoelii (strain 17X). The animals were inoculated with 10 000 sporozoites per mouse and treated once 2-4 hours later. The test system has proved to be very suitable in experiments involving more than 3 000 mice. The infection rate in 448 untreated controls was 97.3%. Lowering the sporozoite content of the inoculum to 1 000 or 100 sporozoites markedly reduced the rate (65.1% and 32.7%). In experiments with primaquine the causal prophylactic activity was also influenced by the time of drug administration before or after sporozoite inoculation. No causal prophylactic effect was demonstrable with quinine, chloroquine, amodiaquine, amopyroquine, RC-12, or B 505. Primaquine was active, but pamaquine and pentaquine were only sporadically active. The pre-erythrocytic stages of P. b. yoelii were only slightly sensitive to dapsone, sulfadiazine, and sulformethoxine; they were 10-100 times more susceptible to proguanil, cycloguanil, and pyrimethamine. The experimental 6-aminoquinolines NI 147/36, NI 187/82, and BA 138/111 and the 7-chlorolincomycin derivative U 24729 were also studied. Experiments in which curative activity against blood-induced infections of P. b. yoelii was evaluated showed that the causal prophylactics act more specifically against the pre-erythrocytic than against the erythrocytic forms. This specificity was most pronounced among the DHFR-inhibitors, whose outstanding activity may be explained by the fact that the rate of multiplication of the pre-erythrocytic forms of P. b. yoelii is greater than that of other plasmodia used hitherto; it is also greater than the rate shown by the malaria parasites of man and that of the erythrocytic forms of P. b. yoelii itself. We believe that this feature will render P. b. yoelii very useful for determination of the causal prophylactic activity of new compounds, but it may also overrate the potency of drugs that interfere with nucleic acid biosynthesis.
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PMID:Assessment of causal prophylactic activity in Plasmodium berghei yoelii and its value for the development of new antimalarial drugs. 415 55

To facilitate genetic analysis of the protozoan parasite Toxoplasma gondii, sequences derived from the parasite's fused dihydrofolate reductase-thymidylate synthase (DHFR-TS) gene have been used to produce vectors suitable for stable molecular transformation. Mutations introduced into the DHFR coding region by analogy with pyrimethamine-resistant malaria confer drug resistance to Toxoplasma, providing useful information on the structure of fused DHFR-TS enzymes and a powerful selectable marker for molecular genetic studies. Depending on the particular drug-resistance allele employed and the conditions of selection, stable resistance can be generated either by single copy nonhomologous insertion into chromosomal DNA or by massively amplified transgenes. Frequencies of integration are independent of selection, and transgenes are stable without continued selection. Cointegration of a reporter gene adjacent to the selectable marker (under the control of an independent promoter) shows no loss of the cointegrated sequences over many parasite generations. By bringing the full power of molecular genetic analysis to bear on Toxoplasma, these studies should greatly facilitate the development of a model genetic system for Apicomplexan parasites.
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PMID:Stable molecular transformation of Toxoplasma gondii: a selectable dihydrofolate reductase-thymidylate synthase marker based on drug-resistance mutations in malaria. 826 12

Clinical resistance to many therapies for malaria is a rapidly evolving problem in most endemic areas, particularly, Southeast Asia. Recent studies have suggested linkages between the mdr-like genes of Plasmodium falciparum and resistance to quinoline containing compounds. Other studies have found an association between allelic polymorphisms in the DHFR gene and antifol resistance in these parasites. The purpose of this study was to further examine these associations in recent isolates from Cambodia. DNA sequences and gene copy number of the pfmdrl and the DHFR-TS gene in 10 Cambodian isolates were analyzed and correlated with the drug sensitivity pattern. No new intragenic alleles were detected in the pfmdrl gene by a full-length DNA sequence analysis of the L-14/Cambodia clone. The allelic variations seen in pfmdrl in these isolates did not correlate with chloroquine resistance as previously reported. The full-length sequence of the DHFR latter findings may be correlated with high-level resistance to the antifolate drugs as has been previously described. None of the Cambodian isolates presented gene amplification in either pfmdrl or DHFR-TS genes.
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PMID:Plasmodium falciparum: molecular characterization of multidrug-resistant Cambodian isolates. 861 53

A rapid and simple method to detect pyrimethamine susceptibility of Plasmodium falciparum by analyzing DNA from whole blood is presented. Samples from cultured isolates and from patients infected with P. falciparum were spotted onto filter paper disks, dried, and stored for subsequent analyses. After extracting the P. falciparum DNA using Chelex-100 ion-chelating resin (Bio-Rad, Richmond, CA), the polymerase chain reaction (PCR) was used to amplify the dihydrofolate reductase (dhfr) gene. The PCR product of 727 basepairs was digested with the Alu I restriction endonuclease to detect whether the isolates were sensitive or resistant to the antimalarial drugs pyrimethamine and cycloguanil. This reaction endonuclease digests only DNA from pyrimethamine-sensitive parasites because the recognition locus of Alu I is changed by mutations giving rise to pyrimethamine and cycloguanil resistance. This method is simple and sensitive and could therefore bu used to study the epidemiology of pyrimethamine resistant in P. falciparum. The DHFR gene of pyrimethamine-resistance clones from Vietnamese patients showed three amino acid changes that were previously found in pyrimethamine-resistant isolates. Two other clones, T9/94 and T9/96, originally isolated from a single malaria patient from Thailand, had different DHFR gene sequences. The nucleotide sequence of the DHFR gene from T9/96 was identical to the wild-type DHFR sequence, whereas T9/94 possessed amino acid substitutions at positions 16 and 108 that have been described in cycloguanil-resistant parasites.
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PMID:Rapid detection of pyrimethamine susceptibility of Plasmodium falciparum by restriction endonuclease digestion of the dihydrofolate reductase gene. 861 45

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