Apolipoprotein-L1 (APOL1): From Sleeping Sickness to Kidney Disease.

IF 5.1 2区 生物学 Q2 CELL BIOLOGY
Cells Pub Date : 2024-10-20 DOI:10.3390/cells13201738
Etienne Pays
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Abstract

Apolipoprotein-L1 (APOL1) is a membrane-interacting protein induced by inflammation, which confers human resistance to infection by African trypanosomes. APOL1 kills Trypanosoma brucei through induction of apoptotic-like parasite death, but two T. brucei clones acquired resistance to APOL1, allowing them to cause sleeping sickness. An APOL1 C-terminal sequence alteration, such as occurs in natural West African variants G1 and G2, restored human resistance to these clones. However, APOL1 unfolding induced by G1 or G2 mutations enhances protein hydrophobicity, resulting in kidney podocyte dysfunctions affecting renal filtration. The mechanism involved in these dysfunctions is debated. The ability of APOL1 to generate ion pores in trypanosome intracellular membranes or in synthetic membranes was provided as an explanation. However, transmembrane insertion of APOL1 strictly depends on acidic conditions, and podocyte cytopathology mainly results from secreted APOL1 activity on the plasma membrane, which occurs under non-acidic conditions. In this review, I argue that besides inactivation of APOL3 functions in membrane dynamics (fission and fusion), APOL1 variants induce inflammation-linked podocyte toxicity not through pore formation, but through plasma membrane disturbance resulting from increased interaction with cholesterol, which enhances cation channels activity. A natural mutation in the membrane-interacting domain (N264K) abrogates variant APOL1 toxicity at the expense of slightly increased sensitivity to trypanosomes, further illustrating the continuous mutual adaptation between host and parasite.

载脂蛋白-L1 (APOL1):从睡病到肾病。
载脂蛋白-L1(APOL1)是一种由炎症诱导的膜相互作用蛋白,它使人类对非洲锥虫感染具有抵抗力。APOL1通过诱导类似凋亡的寄生虫死亡来杀死布氏锥虫,但有两个布氏锥虫克隆对APOL1产生了抗性,使它们能够引起昏睡病。APOL1 C 端序列的改变(如出现在西非天然变种 G1 和 G2 中)恢复了人类对这些克隆的抗药性。然而,G1 或 G2 突变诱导的 APOL1 解折会增强蛋白质的疏水性,从而导致肾脏荚膜细胞功能障碍,影响肾脏过滤功能。这些功能障碍所涉及的机制还存在争议。APOL1 在锥虫细胞内膜或合成膜中产生离子孔的能力被认为是一种解释。然而,APOL1 的跨膜插入严格依赖于酸性条件,而荚膜细胞病理学主要源于质膜上分泌的 APOL1 活性,它发生在非酸性条件下。在这篇综述中,我认为除了 APOL3 在膜动力学(裂变和融合)中的功能失活外,APOL1 变体诱发与炎症相关的荚膜细胞毒性不是通过孔的形成,而是通过增加与胆固醇的相互作用导致的质膜紊乱,从而增强阳离子通道的活性。膜相互作用结构域的自然突变(N264K)可消除 APOL1 变体的毒性,但对锥虫的敏感性略有增加,这进一步说明了宿主与寄生虫之间持续的相互适应。
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
Cells
Cells Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)
CiteScore
9.90
自引率
5.00%
发文量
3472
审稿时长
16 days
期刊介绍: Cells (ISSN 2073-4409) is an international, peer-reviewed open access journal which provides an advanced forum for studies related to cell biology, molecular biology and biophysics. It publishes reviews, research articles, communications and technical notes. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. Full experimental and/or methodical details must be provided.
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