抗疟三嗪WR99210和前药PS-15：叶酸对恶性疟原虫体外活性的逆转作用及前药的非抗叶酸作用模式。

The antimalarial triazine WR99210 and the prodrug PS-15: folate reversal of in vitro activity against Plasmodium falciparum and a non-antifolate mode of action of the prodrug.

作者信息

Kinyanjui S M, Mberu E K, Winstanley P A, Jacobus D P, Watkins W M

机构信息

Kenya Medical Research Institute/Wellcome Trust Collaborative Research Program, Nairobi.

出版信息

Am J Trop Med Hyg. 1999 Jun;60(6):943-7. doi: 10.4269/ajtmh.1999.60.943.

DOI:10.4269/ajtmh.1999.60.943

PMID:10403325

Abstract

We have studied the reversal of activity against Plasmodium falciparum of WR99210, a triazine antimalarial drug, and of the pro-drug PS-15 by folic acid (FA) and folinic acid (FNA). Folic acid and FNA inhibit the growth of P. falciparum in vitro at concentrations > 10(-4.5) and 10(-3.5) mol/L, respectively. The activity of pyrimethamine against Kenyan strains M24 and K39 is reduced 10-12-fold by 10(-5) mol/L of FA, and virtually eliminated by 10(-5) mol/L of FNA. Folates do not antagonise the action of WR99210 against Kenyan strains, and only partially antagonize the action of WR99210 action against the Southeast Asian strains V1/S and W282. Similarly, FA and FNA exerted weak or no antagonism of the action of PS-15. The inability of folates to antagonize the action of WR99210 can be explained in terms of high drug-enzyme affinity, but this does not account for the inability of FA and FNA to antagonize PS-15. These results suggest that action of PS-15 against P. falciparum is primarily due to a non-folate mechanism.

摘要

我们研究了三嗪抗疟药WR99210以及前体药物PS - 15对恶性疟原虫的活性被叶酸（FA）和亚叶酸（FNA）逆转的情况。叶酸和亚叶酸分别在浓度大于10^(-4.5)和10^(-3.5) mol/L时抑制恶性疟原虫在体外的生长。10^(-5) mol/L的FA使乙胺嘧啶对肯尼亚菌株M24和K39的活性降低10 - 12倍，而10^(-5) mol/L的FNA几乎使其活性消除。叶酸并不拮抗WR99210对肯尼亚菌株的作用，仅部分拮抗WR99210对东南亚菌株V1/S和W282的作用。同样，FA和FNA对PS - 15的作用表现出微弱或无拮抗作用。叶酸无法拮抗WR99210的作用可以用药物与酶的高亲和力来解释，但这并不能解释FA和FNA无法拮抗PS - 15的原因。这些结果表明，PS - 15对恶性疟原虫的作用主要归因于非叶酸机制。

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抗疟三嗪WR99210和前药PS-15：叶酸对恶性疟原虫体外活性的逆转作用及前药的非抗叶酸作用模式。

The antimalarial triazine WR99210 and the prodrug PS-15: folate reversal of in vitro activity against Plasmodium falciparum and a non-antifolate mode of action of the prodrug.

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