Combination of probenecid-sulphadoxine-pyrimethamine for intermittent preventive treatment in pregnancy
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Abstract:
The antifolate sulphadoxine-pyrimethamine (SP) has been used in the intermittent prevention of malaria in pregnancy (IPTp). SP is an ideal choice for IPTp, however, as resistance of Plasmodium falciparum to SP increases, data are accumulating that SP may no longer provide benefit in areas of high-level resistance. Probenecid was initially used as an adjunctive therapy to increase the blood concentration of penicillin; it has since been used to augment concentrations of other drugs, including antifolates. The addition of probenecid has been shown to increase the treatment efficacy of SP against malaria, suggesting that the combination of probenecid plus SP may prolong the useful lifespan of SP as an effective agent for IPTp. Here, the literature on the pharmacokinetics, adverse reactions, interactions and available data on the use of these drugs in pregnancy is reviewed, and the possible utility of an SP-probenecid combination is discussed. This article concludes by calling for further research into this potentially useful combination.Keywords:
Probenecid
Sulfadoxine
Antifolate
"In Vitro Activity of Pyrimethamine, Cycloguanil, and Other Antimalarial Drugs Against African Isolates and Clones of Plasmodium falciparum" published on Feb 1994 by The American Society of Tropical Medicine and Hygiene.
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Dihydrofolate reductase was obtained from Pneumocystis carinii isolated from heavily infected lungs of female Sprague-Dawley rats infected by transtracheal inoculation. The enzyme differed significantly from other forms of dihydrofolate reductase in response to KCl and to antifolate drugs. Dihydrofolate reductase from P. carinii was used to assess activity of analogs of pyrimethamine, methotrexate, and trimetrexate. One pyrimethamine analog was selective for P. carinii dihydrofolate reductase; potency was in the micromolar range. In contrast, 21 methotrexate analogs and 2 trimetrexate analogs were selective for P. carinii dihydrofolate reductase; potencies for these were in the nanomolar range.
Dihydrofolate reductase
Antifolate
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Dihydrofolate reductase
Antifolate
Plasmodium berghei
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A cloned Plasmodium falciparum line was subjected to in vitro drug pressure, by employing a relapse protocol, to select progressively resistant falciparum lines to pyrimethamine and cycloguanil, the two dihydrofolate-reductase (DHFR) inhibitor antimalarial drugs. The falciparum lines resistant to pyrimethamine were selected much faster than those resistant to cycloguanil. In 348 days of selection/cultivation, there was 2,400-fold increase in IC50 value to pyrimethamine, whereas only about 75-fold decrease in sensitivity to cycloguanil was registered in 351 days. Pyrimethamine-resistant parasites acquired a degree of cross resistance to cycloguanil and methotrexate, another DHFR inhibitor, but did not show any cross resistance to some other groups of antimalarial drugs. The highly pyrimethamine-resistant line was not predisposed for faster selection to cycloguanil resistance. Resistance acquired to pyrimethamine was stable. The series of resistant lines obtained form a good material to study the 'evolution' of resistance more meaningfully at molecular level.
Dihydrofolate reductase
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Cross-resistance
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Resistance to drugs can result from changes in drug transport, and this resistance can sometimes be overcome by a second drug that modifies the transport mechanisms of the cell. This strategy has been exploited to partly reverse resistance to chloroquine in Plasmodium falciparum. Studies with human tumor cells have shown that probenecid can reverse resistance to the antifolate methotrexate, but the potential for reversal of antifolate resistance has not been studied in P. falciparum. In the present study we tested the ability of probenecid to reverse antifolate resistance in P. falciparum in vitro. Probenecid, at concentrations that had no effect on parasite viability alone (50 microM), was shown to increase the sensitivity of a highly resistant parasite isolate to the antifolates pyrimethamine, sulfadoxine, chlorcycloguanil, and dapsone by seven-, five-, three-, and threefold, respectively. The equivalent effects against an antifolate-sensitive isolate were activity enhancements of approximately 3-, 6-, 1.2-, and 19-fold, respectively. Probenecid decreased the level of uptake of radiolabeled folic acid, suggesting a transport-based mechanism linked to folate salvage. When probenecid was tested with chloroquine, it chemosensitized the resistant isolate to chloroquine (i.e., enhanced the activity of chloroquine). This enhancement of activity was associated with increased levels of chloroquine accumulation. In conclusion, we have shown that probenecid can chemosensitize malaria parasites to antifolate compounds via a mechanism linked to reduced folate uptake. Notably, this effect is observed in both folate-sensitive and -resistant parasites. In contrast to the activities of antifolate compounds, the effect of probenecid on chloroquine sensitivity was selective for chloroquine-resistant parasites (patent P407595GB [W. P. Thompson & Co., Liverpool, United Kingdom] has been filed to protect this intellectual property).
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As it had been shown in previous trials that very small doses of pyrimethamine and sulfadoxine or dapsone were effective in eliminating Plasmodium falciparum in 2 or 3 days, small-scale field trials were carried out on children to investigate the efficacy of this combination of drugs in suppressing malaria.Doses of pyrimethamine 2 mg with sulfadoxine 40 mg, fortnightly, appeared to be completely successful in suppressing seasonal hyperendemic malaria in a group of 38 Gambian children over a 6-month period. On the other hand, pyrimethamine alone at the recommended dose failed to suppress falciparum malaria in some children of another group. Parasite resistance to the sulfonamide-pyrimethamine combination was not encountered nor was there any suggestion of toxicity. It is concluded that these drugs in combination could have a place in malaria chemoprophylaxis.
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Sulfadoxine/pyrimethamine
Chemoprophylaxis
Dapsone
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Sulfadoxine
Folinic acid
Toxoplasmosis
Sulfadoxine/pyrimethamine
Tolerability
Sulfanilamide
Sulfonamide
Congenital toxoplasmosis
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In vivo testing for resistance of Plasmodium falciparum to co-trimoxazole (trimethoprim/sulfamethoxazole) was performed in Uganda in 41 children with uncomplicated malaria, and blood samples were screened before and after treatment for polymorphisms in the antifolate target genes for dihydrofolate reductase (DHFR) and dihydropteroate synthetase (DHPS). Selection towards a specific genotype at some codons of the DHFR and DHPS genes was observed in samples collected after exposure to co-trimoxazole drug pressure. The alleles 51-isoleucine, 59-arginine, and 108-serine of DHFR were significantly associated with clinical resistance, as was allele 581-alanine of DHPS. Resistance against antifolate combinations probably requires resistance-related polymorphisms in both the DHFR and the DHPS genes. In addition, it appears that the trimethoprim-resistant DHFR genotype differs from that for pyrimethamine at residue 108.
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Dihydropteroate synthase
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Trimethoprim
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A cloned Plasmodium falciparum line was subjected to in vitro drug pressure, by employing a relapse protocol, to select progressively resistant falciparum lines to pyrimethamine and cycloguanil, the two dihydrofolatereductase (DHFR) inhibitor antimalarial drugs. The falciparum lines resistant to pyrimethamine were selected much faster than those resistant to cycloguanil. In 348 days of selection/cultivation, there was 2, 400-fold increase in IC50 value to pyrimethamine, whereas only about 75-fold decrease in sensitivity to cycloguanil was registered in 351 days. Pyrimethamine-resistant parasites acquired a degree of cross resistance to cycloguanil and methotrexate, another DHFR inhibitor, but did not show any cross resistance to some other groups of antimalarial drugs. The highly pyrimethamine-resistant line was not predisposed for faster selection to cycloguanil resistance. Resistance acquired to pyrimethamine was stable. The series of resistant lines obtained form a good material to study the ‘evolution’ of resistance more meaningfully at molecular level.
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Quinine
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The in vitro sensitivity to chloroquine and pyrimethamine of 19 culture-adapted southern African reference isolates of Plasmodium falciparum was determined using a 48-hour assay. Four isolates collected in KwaZulu, Natal, were sensitive to chloroquine, and one of these was sensitive to the drug in vivo. Eight isolates from KwaZulu or Mozambique were resistant to chloroquine in vitro. Six of these isolates were chloroquine-resistant in varying degrees in vivo. Four of five isolates from north-eastern Transvaal and two clinically chloroquine-resistant Malawian isolates were resistant to chloroquine in vitro. A wide range of pyrimethamine susceptibilities was detected (0.01 mumol/l to greater than 3.0 mumol/l), although most isolates were inhibited at 0.1 mumol/l, indicating a low level of resistance. These results confirm the presence of both chloroquine and pyrimethamine resistance in the endemic areas of South Africa. This has serious implications for the prophylaxis and treatment of P. falciparum malaria in South Africa.
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