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甘油磷脂代谢的独特特征;脂质代谢网络是否通过基因的丢失和获得进化而来,以适应寄生生命周期?

Unique features of glycerophospholipid metabolism; has the . lipid metabolism network evolved through gene loss and gain to enable parasitic life cycle adaptation?

机构信息

Central Laboratory, Institute of Tropical Medicine (NEKKEN), Nagasaki University , Nagasaki, Japan.

Division of Molecular and Cellular Immunoscience, Department of Biomolecular Sciences, Faculty of Medicine, Saga University , Saga, Japan.

出版信息

mSphere. 2023 Oct 24;8(5):e0017423. doi: 10.1128/msphere.00174-23. Epub 2023 Aug 16.

DOI:10.1128/msphere.00174-23
PMID:37584599
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10597341/
Abstract

, a protozoan parasite, causes amoebiasis, which is a global public health problem. During the life cycle of this parasite, the properties of the cell membrane are changed markedly. To clarify the mechanism of membrane lipid changes, we exploited state-of-the-art untargeted lipidomic analysis, and atypical features of glycerophospholipids, lysoglycerophospholipids, and sphingolipids were observed compared with human equivalents. Here, we overview an entire glycerophospholipid metabolic pathway based on re-evaluated whole lipidome and genome along with the results of metabolic labeling experiments. We also discuss whether the lipid metabolism network, including the glycerophospholipid metabolic pathway, has unique features necessary for parasitic life cycle adaptation through gene loss and/or gain, and raise important questions involving biochemistry, molecular cell biology, and physiology underlying this network. Answering these questions will advance the understanding of physiology and will provide potential targets to develop new anti-amoebiasis drugs.

摘要

译文:溶组织内阿米巴,一种原生动物寄生虫,可引起阿米巴病,这是一个全球性的公共卫生问题。在该寄生虫的生命周期中,细胞膜的性质发生了明显的变化。为了阐明膜脂变化的机制,我们利用了最先进的非靶向脂质组学分析方法,与人类等效物相比,观察到甘油磷脂、溶血甘油磷脂和鞘脂的非典型特征。在这里,我们根据重新评估的全脂质组和基因组以及代谢标记实验的结果,综述了整个甘油磷脂代谢途径。我们还讨论了脂质代谢网络,包括甘油磷脂代谢途径,是否通过基因缺失和/或获得具有适应寄生虫生命周期所必需的独特特征,并提出了涉及该网络的生物化学、分子细胞生物学和生理学的重要问题。回答这些问题将有助于深入了解阿米巴的生理学,并为开发新的抗阿米巴病药物提供潜在的靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/857f/10597341/863b0d7628e7/msphere.00174-23.f003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/857f/10597341/62fac159e5ae/msphere.00174-23.f001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/857f/10597341/690f8f36b655/msphere.00174-23.f002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/857f/10597341/863b0d7628e7/msphere.00174-23.f003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/857f/10597341/62fac159e5ae/msphere.00174-23.f001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/857f/10597341/690f8f36b655/msphere.00174-23.f002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/857f/10597341/863b0d7628e7/msphere.00174-23.f003.jpg

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Lateral Gene Transfer Mechanisms and Pan-genomes in Eukaryotes.
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