Artemisinin-resistant Plasmodium falciparum Kelch13 mutant proteins display reduced heme-binding affinity and decreased artemisinin activation

IF 5.2 1区生物学 Q1 BIOLOGY

Communications Biology Pub Date : 2024-11-13 DOI:10.1038/s42003-024-07178-2

Abdur Rahman, Sabahat Tamseel, Smritikana Dutta, Nawaal Khan, Mohammad Faaiz, Harshita Rastogi, Jyoti Rani Nath, Kasturi Haldar, Pramit Chowdhury, Ashish, Souvik Bhattacharjee

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Abstract

The potency of frontline antimalarial drug artemisinin (ART) derivatives is triggered by heme-induced cleavage of the endoperoxide bond to form reactive heme-ART alkoxy radicals and covalent heme-ART adducts, which are highly toxic to the parasite. ART-resistant (ART-R) parasites with mutations in the Plasmodium falciparum Kelch-containing protein Kelch13 (PfKekch13) exhibit impaired hemoglobin uptake, reduced yield of hemoglobin-derived heme, and thus decreased ART activation. However, any direct involvement of PfKelch13 in heme-mediated ART activation has not been reported. Here, we show that the purified recombinant PfKelch13 wild-type (WT) protein displays measurable binding affinity for iron and heme, the main effectors for ART activation. The heme-binding property is also exhibited by the native PfKelch13 protein from parasite culture. The two ART-R recombinant PfKelch13 mutants (C580Y and R539T) display weaker heme binding affinities compared to the ART-sensitive WT and A578S mutant proteins, which further translates into reduced yield of heme-ART derivatives when ART is incubated with the heme molecules bound to the mutant PfKelch13 proteins. In conclusion, this study provides the first evidence for ART activation via the heme-binding propensity of PfKelch13. This mechanism may contribute to the modulation of ART-R levels in malaria parasites through a novel function of PfKelch13. Elucidation of heme binding affinity and artemisinin activation by the Plasmodium falciparum Kelch13 protein variants.

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耐青蒿素的恶性疟原虫 Kelch13 突变体蛋白显示出血红素结合亲和力降低和青蒿素激活能力下降。

一线抗疟药物青蒿素（ART）衍生物的药效是由血红素诱导的内过氧键裂解形成活性血红素-ART 烷氧基自由基和共价血红素-ART 加合物引发的，后者对寄生虫有剧毒。恶性疟原虫含 Kelch 蛋白 Kelch13（PfKekch13）发生突变的抗逆转录病毒寄生虫（ART-R）表现出血红蛋白摄取受损、血红蛋白衍生血红素产量减少，从而降低了 ART 的活化。然而，PfKelch13 直接参与血红素介导的 ART 激活的情况尚未见报道。在这里，我们发现纯化的重组 PfKelch13 野生型（WT）蛋白与铁和血红素（ART 激活的主要效应物）具有可测量的结合亲和力。寄生虫培养物中的原生 PfKelch13 蛋白也具有血红素结合特性。与 ART 敏感的 WT 和 A578S 突变蛋白相比，两个 ART-R 重组 PfKelch13 突变体（C580Y 和 R539T）显示出较弱的血红素结合亲和力，当 ART 与结合到突变 PfKelch13 蛋白上的血红素分子孵育时，这进一步转化为血红素-ART 衍生物产量的减少。总之，本研究首次提供了通过 PfKelch13 的血红素结合倾向激活 ART 的证据。这一机制可能有助于通过 PfKelch13 的新功能调节疟原虫体内的 ART-R 水平。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Communications Biology Medicine-Medicine (miscellaneous)

CiteScore

8.60

自引率

1.70%

发文量

1233

审稿时长

13 weeks

期刊介绍： Communications Biology is an open access journal from Nature Research publishing high-quality research, reviews and commentary in all areas of the biological sciences. Research papers published by the journal represent significant advances bringing new biological insight to a specialized area of research.