Yu Jiang, Jia-Qi Guo, Ya Wu, Peng Zheng, Shao-Fan Wang, Meng-Chen Yang, Gen-Shan Ma, Yu-Yu Yao
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引用次数: 0
Abstract
As the prevalence of obesity continues to rise globally, the research on adipocytes has attracted more and more attention. In the presence of nutrient overload, adipocytes are exposed to pressures such as hypoxia, inflammation, mechanical stress, metabolite, and oxidative stress that can lead to organelle dysfunction. Endoplasmic reticulum (ER) is a vital organelle for sensing cellular pressure, and its homeostasis is essential for maintaining adipocyte function. Under conditions of excess nutrition, ER stress (ERS) will be triggered by the gathering of abnormally folded proteins in the ER lumen, resulting in the activation of a signaling response known as the unfolded protein responses (UPRs), which is a response system to relieve ERS and restore ER homeostasis. However, if the UPRs fail to rescue ER homeostasis, ERS will activate pathways to damage cells. Studies have shown a role for disturbed activation of adipocyte ERS in the pathophysiology of obesity and its complications. Prolonged or excessive ERS in adipocytes can aggravate lipolysis, insulin resistance, and apoptosis and affect the bioactive molecule production. In addition, ERS also impacts the expression of some important genes. In view of the fact that ERS influences adipocyte function through various mechanisms, targeting ERS may be a viable strategy to treat obesity. This article summarizes the effects of ERS on adipocytes during obesity.
随着全球肥胖症发病率的持续上升,有关脂肪细胞的研究引起了越来越多的关注。在营养过剩的情况下,脂肪细胞会面临缺氧、炎症、机械应激、代谢物和氧化应激等压力,从而导致细胞器功能紊乱。内质网(ER)是感知细胞压力的重要细胞器,其平衡对维持脂肪细胞的功能至关重要。在营养过剩的条件下,内质网压力(ERS)会因异常折叠的蛋白质在内质网腔内聚集而触发,从而激活一种称为未折叠蛋白反应(UPRs)的信号反应,这是一种缓解ERS和恢复ER平衡的反应系统。但是,如果 UPRs 无法挽救 ER 平衡,ERS 就会激活损伤细胞的途径。研究表明,脂肪细胞 ERS 的激活紊乱在肥胖症及其并发症的病理生理学中扮演着重要角色。脂肪细胞中长期或过度的 ERS 会加剧脂肪分解、胰岛素抵抗和细胞凋亡,并影响生物活性分子的产生。此外,ERS 还会影响一些重要基因的表达。鉴于ERS通过各种机制影响脂肪细胞的功能,针对ERS可能是治疗肥胖症的一种可行策略。本文总结了ERS在肥胖过程中对脂肪细胞的影响。
期刊介绍:
Therapeutic Advances in Endocrinology and Metabolism delivers the highest quality peer-reviewed articles, reviews, and scholarly comment on pioneering efforts and innovative studies across all areas of endocrinology and metabolism.