去棕榈酰化与细胞生理学：作为代谢信号介质的APT1

Depalmitoylation and cell physiology: APT1 as a mediator of metabolic signals.

作者信息

Speck Sarah L, Wei Xiaochao, Semenkovich Clay F

机构信息

Division of Endocrinology, Metabolism and Lipid Research, Washington University in St. Louis, St. Louis, Missouri, United States.

出版信息

Am J Physiol Cell Physiol. 2024 Apr 1;326(4):C1034-C1041. doi: 10.1152/ajpcell.00542.2023. Epub 2024 Feb 12.

DOI:10.1152/ajpcell.00542.2023

PMID:38344800

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11193526/

Abstract

More than half of the global population is obese or overweight, especially in Western countries, and this excess adiposity disrupts normal physiology to cause chronic diseases. Diabetes, an adiposity-associated epidemic disease, affects >500 million people, and cases are projected to exceed 1 billion before 2050. Lipid excess can impact physiology through the posttranslational modification of proteins, including the reversible process of S-palmitoylation. Dynamic palmitoylation cycling requires the S-acylation of proteins by acyltransferases and the depalmitoylation of these proteins mediated in part by acyl-protein thioesterases (APTs) such as APT1. Emerging evidence points to tissue-specific roles for the depalmitoylase APT1 in maintaining homeostasis in the vasculature, pancreatic islets, and liver. These recent findings raise the possibility that APT1 substrates can be therapeutically targeted to treat the complications of metabolic diseases.

摘要

全球超过一半的人口肥胖或超重，尤其是在西方国家，这种过多的肥胖会扰乱正常生理功能，引发慢性疾病。糖尿病是一种与肥胖相关的流行病，影响着超过5亿人，预计到2050年病例将超过10亿。脂质过多可通过蛋白质的翻译后修饰影响生理功能，包括S-棕榈酰化的可逆过程。动态棕榈酰化循环需要酰基转移酶对蛋白质进行S-酰化，以及部分由酰基蛋白硫酯酶（如APT1）介导的这些蛋白质的去棕榈酰化。新出现的证据表明，去棕榈酰化酶APT1在维持血管、胰岛和肝脏的内环境稳定方面具有组织特异性作用。这些最新发现增加了这样一种可能性，即APT1底物可作为治疗靶点来治疗代谢性疾病的并发症。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c44e/11193526/456b79247405/c-00542-2023r01.jpg

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去棕榈酰化与细胞生理学：作为代谢信号介质的APT1

Depalmitoylation and cell physiology: APT1 as a mediator of metabolic signals.

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