The enemy within: lipid asymmetry in intracellular parasite-host interactions.

IF 3.4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Emerging Topics in Life Sciences Pub Date : 2023-03-31 DOI:10.1042/ETLS20220089
Merryn Fraser, Kai Matuschewski, Alexander G Maier
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Abstract

Eukaryotic pathogens with an intracellular parasitic lifestyle are shielded from extracellular threats during replication and growth. In addition to many nutrients, parasites scavenge host cell lipids to establish complex membrane structures inside their host cells. To counteract the disturbance of the host cell plasma membrane they have evolved strategies to regulate phospholipid asymmetry. In this review, the function and importance of lipid asymmetry in the interactions of intracellular protozoan parasites with the target and immune cells of the host are highlighted. The malaria parasite Plasmodium infects red blood cells and extensively refurbishes these terminally differentiated cells. Cholesterol depletion and an altered intracellular calcium ion homeostasis can lead to disruption in erythrocyte membrane asymmetry and increased exposure of phosphatidylserine (PS). Binding to the PS receptor on monocytes and macrophages results in phagocytosis and destruction of infected erythrocytes. Leishmania parasites display apoptotic mimicry by actively enhancing PS exposure on their surface to trigger increased infection of macrophages. In extracellular Toxoplasma gondii a P4-type ATPase/CDC50 co-chaperone pair functions as a flippase important for exocytosis of specialised secretory organelles. Identification and functional analysis of parasite lipid-translocating proteins, i.e. flippases, floppases, and scramblases, will be central for the recognition of the molecular mechanisms of parasite/host interactions. Ultimately, a better understanding of parasitic diseases, host immunity, and immune escape by parasites require more research on the dynamics of phospholipid bilayers of parasites and the infected host cell.

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内部的敌人:细胞内寄生虫与宿主相互作用中的脂质不对称。
具有细胞内寄生生活方式的真核病原体在复制和生长过程中受到细胞外威胁的保护。除了许多营养物质外,寄生虫还清除宿主细胞脂质,在宿主细胞内建立复杂的膜结构。为了对抗宿主细胞膜的干扰,它们进化出了调节磷脂不对称的策略。本文综述了脂质不对称在细胞内原生动物寄生虫与宿主靶细胞和免疫细胞相互作用中的作用和重要性。疟疾寄生虫疟原虫感染红细胞,并对这些终末分化的细胞进行大量更新。胆固醇消耗和细胞内钙离子稳态的改变可导致红细胞膜不对称的破坏和磷脂酰丝氨酸(PS)暴露的增加。与单核细胞和巨噬细胞上的PS受体结合导致被感染红细胞的吞噬和破坏。利什曼原虫通过主动增强其表面的PS暴露来引发巨噬细胞感染的增加,从而表现出凋亡模仿。在细胞外刚地弓形虫中,p4型atp酶/CDC50共伴侣对作为一种翻转酶在特殊分泌细胞器的胞外分泌中起重要作用。寄生虫脂质转运蛋白的鉴定和功能分析,即翻转酶、翻转酶和超燃酶,将是识别寄生虫/宿主相互作用分子机制的核心。最终,为了更好地了解寄生虫病、宿主免疫和寄生虫的免疫逃逸,需要对寄生虫和受感染宿主细胞磷脂双层的动力学进行更多的研究。
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来源期刊
CiteScore
7.70
自引率
0.00%
发文量
94
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