胰岛素和 cAMP 信号的脂肪细胞超系统。

The adipocyte supersystem of insulin and cAMP signaling.

机构信息

Program in Molecular Medicine, University of Massachusetts Chan Medical School, Worcester, MA 01605, USA.

出版信息

Trends Cell Biol. 2023 Apr;33(4):340-354. doi: 10.1016/j.tcb.2022.07.009. Epub 2022 Aug 18.

DOI:10.1016/j.tcb.2022.07.009

PMID:35989245

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10339226/

Abstract

Adipose tissue signals to brain, liver, and muscles to control whole body metabolism through secreted lipid and protein factors as well as neurotransmission, but the mechanisms involved are incompletely understood. Adipocytes sequester triglyceride (TG) in fed conditions stimulated by insulin, while in fasting catecholamines trigger TG hydrolysis, releasing glycerol and fatty acids (FAs). These antagonistic hormone actions result in part from insulin's ability to inhibit cAMP levels generated through such G-protein-coupled receptors as catecholamine-activated β-adrenergic receptors. Consistent with these antagonistic signaling modes, acute actions of catecholamines cause insulin resistance. Yet, paradoxically, chronically activating adipocytes by catecholamines cause increased glucose tolerance, as does insulin. Recent results have helped to unravel this conundrum by revealing enhanced complexities of these hormones' signaling networks, including identification of unexpected common signaling nodes between these canonically antagonistic hormones.

摘要

脂肪组织通过分泌脂质和蛋白因子以及神经传递向大脑、肝脏和肌肉发出信号，以控制全身代谢，但涉及的机制尚不完全清楚。在胰岛素刺激的进食条件下，脂肪细胞将三酰甘油 (TG) 隔离起来，而在禁食时，儿茶酚胺会触发 TG 水解，释放甘油和脂肪酸 (FAs)。这些拮抗激素作用部分归因于胰岛素抑制通过 G 蛋白偶联受体（如儿茶酚胺激活的β-肾上腺素能受体）产生的 cAMP 水平的能力。与这些拮抗信号模式一致，儿茶酚胺的急性作用会导致胰岛素抵抗。然而，矛盾的是，儿茶酚胺长期激活脂肪细胞会导致葡萄糖耐量增加，胰岛素也是如此。最近的研究结果通过揭示这些激素信号网络的增强复杂性，包括鉴定这些经典拮抗激素之间意外的共同信号节点，帮助解开了这个难题。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f24e/10339226/c7bba88a7ab2/nihms-1914750-f0001.jpg

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