Structure–function analysis of nucleotide housekeeping protein HAM1 from human malaria parasite Plasmodium falciparum

Debanjan Saha, Atanu Pramanik, Aline Freville, Asim Azhar Siddiqui, Uttam Pal, Chinmoy Banerjee, Shiladitya Nag, Subhashis Debsharma, Saikat Pramanik, Somnath Mazumder, Nakul C. Maiti, Saumen Datta, Christiaan van Ooij, Uday Bandyopadhyay
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Abstract

Non-canonical nucleotides, generated as oxidative metabolic by-products, significantly threaten the genome integrity of Plasmodium falciparum and thereby, their survival, owing to their mutagenic effects. PfHAM1, an evolutionarily conserved inosine/xanthosine triphosphate pyrophosphohydrolase, maintains nucleotide homeostasis in the malaria parasite by removing non-canonical nucleotides, although structure–function intricacies are hitherto poorly reported. Here, we report the X-ray crystal structure of PfHAM1, which revealed a homodimeric structure, additionally validated by size-exclusion chromatography–multi-angle light scattering analysis. The two monomeric units in the dimer were aligned in a parallel fashion, and critical residues associated with substrate and metal binding were identified, wherein a notable structural difference was observed in the β-sheet main frame compared to human inosine triphosphate pyrophosphatase. PfHAM1 exhibited Mg++-dependent pyrophosphohydrolase activity and the highest binding affinity to dITP compared to other non-canonical nucleotides as measured by isothermal titration calorimetry. Modifying the pfham1 genomic locus followed by live-cell imaging of expressed mNeonGreen-tagged PfHAM1 demonstrated its ubiquitous presence in the cytoplasm across erythrocytic stages with greater expression in trophozoites and schizonts. Interestingly, CRISPR-Cas9/DiCre recombinase-guided pfham1-null P. falciparum survived in culture under standard growth conditions, indicating its assistive role in non-canonical nucleotide clearance during intra-erythrocytic stages. This is the first comprehensive structural and functional report of PfHAM1, an atypical nucleotide-cleansing enzyme in P. falciparum.

恶性疟原虫核苷酸管家蛋白 HAM1 的结构功能分析。
作为氧化代谢副产物产生的非规范核苷酸,由于其诱变作用,严重威胁着恶性疟原虫基因组的完整性,从而威胁着它们的生存。PfHAM1 是一种进化保守的肌苷/三磷酸黄嘌呤焦磷酸水解酶,它通过去除非典型核苷酸来维持疟原虫体内的核苷酸平衡,但其结构和功能的复杂性迄今鲜有报道。在这里,我们报告了 PfHAM1 的 X 射线晶体结构,它显示了一种同源二聚体结构,并通过尺寸排阻色谱-多角度光散射分析进行了验证。二聚体中的两个单体单元以平行方式排列,并确定了与底物和金属结合相关的关键残基,与人类三磷酸肌苷焦磷酸酶相比,在β片主框架中观察到了明显的结构差异。PfHAM1 具有 Mg++ 依赖性焦磷酸水解酶活性,而且与其他非典型核苷酸相比,通过等温滴定量热法测量,PfHAM1 与 dITP 的结合亲和力最高。对 pfham1 基因组位点进行修饰,然后对表达的 mNeonGreen 标记 PfHAM1 进行活细胞成像,结果表明其在红细胞各阶段的细胞质中无处不在,在滋养体和裂殖体中的表达量更大。有趣的是,在标准生长条件下,CRISPR-Cas9/DiCre 重组酶引导的 pfham1 缺失恶性疟原虫在培养过程中存活了下来,这表明它在红细胞内阶段的非经典核苷酸清除过程中发挥了辅助作用。这是首次全面报道恶性疟原虫非典型核苷酸清除酶 PfHAM1 的结构和功能。
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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