CSIR-Centre for Cellular and Molecular Biology, Hyderabad 500007, TS, India.
Academy of Scientific and Innovative Research, Ghaziabad 201002, UP, India.
Biochem J. 2021 May 14;478(9):1705-1732. doi: 10.1042/BCJ20210001.
Autophagy, a lysosome-dependent degradative process, does not appear to be a major degradative process in malaria parasites and has a limited repertoire of genes. To better understand the autophagy process, we investigated Plasmodium falciparum Atg18 (PfAtg18), a PROPPIN family protein, whose members like S. cerevisiae Atg18 (ScAtg18) and human WIPI2 bind PI3P and play an essential role in autophagosome formation. Wild type and mutant PfAtg18 were expressed in P. falciparum and assessed for localization, the effect of various inhibitors and antimalarials on PfAtg18 localization, and identification of PfAtg18-interacting proteins. PfAtg18 is expressed in asexual erythrocytic stages and localized to the food vacuole, which was also observed with other Plasmodium Atg18 proteins, indicating that food vacuole localization is likely a shared feature. Interaction of PfAtg18 with the food vacuole-associated PI3P is essential for localization, as PfAtg18 mutants of PI3P-binding motifs neither bound PI3P nor localized to the food vacuole. Interestingly, wild type ScAtg18 interacted with PI3P, but its expression in P. falciparum showed complete cytoplasmic localization, indicating additional requirement for food vacuole localization. The food vacuole multi-drug resistance protein 1 (MDR1) was consistently identified in the immunoprecipitates of PfAtg18 and P. berghei Atg18, and also interacted with PfAtg18. In contrast with PfAtg18, ScAtg18 did not interact with MDR1, which, in addition to PI3P, could play a critical role in localization of PfAtg18. Chloroquine and amodiaquine caused cytoplasmic localization of PfAtg18, suggesting that these target PfAtg18 transport pathway. Thus, PI3P and MDR1 are critical mediators of PfAtg18 localization.
自噬是一种溶酶体依赖性的降解过程,似乎不是疟原虫的主要降解途径,并且其基因种类有限。为了更好地了解自噬过程,我们研究了恶性疟原虫 Atg18(PfAtg18),它是 PROPPIN 家族蛋白的一员,其成员如酿酒酵母 Atg18(ScAtg18)和人 WIPI2 结合 PI3P,并在自噬体形成中发挥重要作用。野生型和突变型 PfAtg18 在恶性疟原虫中表达,并评估其定位、各种抑制剂和抗疟药对 PfAtg18 定位的影响,以及 PfAtg18 相互作用蛋白的鉴定。PfAtg18 在无性红细胞期表达,并定位于食物泡,这也与其他疟原虫 Atg18 蛋白观察到的结果一致,表明食物泡定位可能是一个共同的特征。PfAtg18 与食物泡相关的 PI3P 的相互作用对于定位是必不可少的,因为 PI3P 结合基序的 PfAtg18 突变体既不结合 PI3P 也不定位于食物泡。有趣的是,野生型 ScAtg18 与 PI3P 相互作用,但在恶性疟原虫中的表达显示完全细胞质定位,表明对食物泡定位的额外要求。食物泡多药耐药蛋白 1(MDR1)在 PfAtg18 和 P. berghei Atg18 的免疫沉淀物中始终被鉴定出来,并且也与 PfAtg18 相互作用。与 PfAtg18 不同,ScAtg18 与 MDR1 不相互作用,除了 PI3P 之外,MDR1 还可能在 PfAtg18 的定位中发挥关键作用。氯喹和阿莫地喹导致 PfAtg18 的细胞质定位,表明这些药物靶向 PfAtg18 的运输途径。因此,PI3P 和 MDR1 是 PfAtg18 定位的关键介质。
