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黏细菌中的缩醛磷脂与光氧化应激信号传导,以及其如何揭示CarF/TMEM189作为人类缩醛磷脂生物合成中的Δ1'-去饱和酶PEDS1

Plasmalogens and Photooxidative Stress Signaling in Myxobacteria, and How it Unmasked CarF/TMEM189 as the Δ1'-Desaturase PEDS1 for Human Plasmalogen Biosynthesis.

作者信息

Padmanabhan S, Monera-Girona Antonio J, Pajares-Martínez Elena, Bastida-Martínez Eva, Del Rey Navalón Irene, Pérez-Castaño Ricardo, Galbis-Martínez María Luisa, Fontes Marta, Elías-Arnanz Montserrat

机构信息

Instituto de Química Física "Rocasolano", Consejo Superior de Investigaciones Científicas, Madrid, Spain.

Departamento de Genética y Microbiología, Área de Genética (Unidad Asociada al IQFR-CSIC), Facultad de Biología, Universidad de Murcia, Murcia, Spain.

出版信息

Front Cell Dev Biol. 2022 May 11;10:884689. doi: 10.3389/fcell.2022.884689. eCollection 2022.

DOI:10.3389/fcell.2022.884689
PMID:35646900
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9131029/
Abstract

Plasmalogens are glycerophospholipids with a hallmark -1 vinyl ether bond that endows them with unique physical-chemical properties. They have proposed biological roles in membrane organization, fluidity, signaling, and antioxidative functions, and abnormal plasmalogen levels correlate with various human pathologies, including cancer and Alzheimer's disease. The presence of plasmalogens in animals and in anaerobic bacteria, but not in plants and fungi, is well-documented. However, their occurrence in the obligately aerobic myxobacteria, exceptional among aerobic bacteria, is often overlooked. Tellingly, discovery of the key desaturase indispensable for vinyl ether bond formation, and therefore fundamental in plasmalogen biogenesis, emerged from delving into how the soil myxobacterium responds to light. A recent pioneering study unmasked myxobacterial CarF and its human ortholog TMEM189 as the long-sought plasmanylethanolamine desaturase (PEDS1), thus opening a crucial door to study plasmalogen biogenesis, functions, and roles in disease. The findings demonstrated the broad evolutionary sweep of the enzyme and also firmly established a specific signaling role for plasmalogens in a photooxidative stress response. Here, we will recount our take on this fascinating story and its implications, and review the current state of knowledge on plasmalogens, their biosynthesis and functions in the aerobic myxobacteria.

摘要

缩醛磷脂是一类甘油磷脂,其特征在于具有一个-1乙烯基醚键,这赋予了它们独特的物理化学性质。它们在膜组织、流动性、信号传导和抗氧化功能方面具有潜在的生物学作用,并且缩醛磷脂水平异常与包括癌症和阿尔茨海默病在内的各种人类疾病相关。动物和厌氧细菌中存在缩醛磷脂,但植物和真菌中不存在,这一点已有充分记录。然而,它们在专性需氧的黏细菌中的存在,在需氧细菌中很特殊,却常常被忽视。值得注意的是,通过深入研究土壤黏细菌如何对光作出反应,发现了乙烯基醚键形成所必需的关键去饱和酶,因此它在缩醛磷脂生物合成中至关重要。最近一项开创性研究揭示,黏细菌中的CarF及其人类同源物TMEM189是长期寻找的缩醛磷脂乙醇胺去饱和酶(PEDS1),从而为研究缩醛磷脂生物合成、功能及其在疾病中的作用打开了一扇关键之门。这些发现证明了该酶广泛的进化范围,也坚定地确立了缩醛磷脂在光氧化应激反应中的特定信号传导作用。在这里,我们将讲述我们对这个迷人故事及其影响的看法,并回顾关于缩醛磷脂及其在需氧黏细菌中的生物合成和功能的当前知识状态。

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