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Foxo1 磷酸化在控制葡萄糖稳态的胰高血糖素信号转导中的新机制。

Novel Mechanism of Foxo1 Phosphorylation in Glucagon Signaling in Control of Glucose Homeostasis.

机构信息

Department of Nutrition and Food Science, College of Agriculture and Life Sciences, Texas A&M University, College Station, TX.

Department of Endocrinology, Third Military Medical University, Chongqing, China.

出版信息

Diabetes. 2018 Nov;67(11):2167-2182. doi: 10.2337/db18-0674. Epub 2018 Sep 10.

DOI:10.2337/db18-0674
PMID:30201683
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6198346/
Abstract

Dysregulation of hepatic glucose production (HGP) serves as a major underlying mechanism for the pathogenesis of type 2 diabetes. The pancreatic hormone glucagon increases and insulin suppresses HGP, controlling blood glucose homeostasis. The forkhead transcription factor Foxo1 promotes HGP through increasing expression of genes encoding the rate-limiting enzymes responsible for gluconeogenesis. We previously established that insulin suppresses Foxo1 by Akt-mediated phosphorylation of Foxo1 at Ser in human hepatocytes. In this study, we found a novel Foxo1 regulatory mechanism by glucagon, which promotes Foxo1 nuclear translocation and stability via cAMP- and protein kinase A-dependent phosphorylation of Foxo1 at Ser Replacing Foxo1-S276 with alanine (A) or aspartate (D) to block or mimic phosphorylation, respectively, markedly regulates Foxo1 stability and nuclear localization in human hepatocytes. To establish in vivo function of Foxo1-Ser phosphorylation in glucose metabolism, we generated Foxo1-S273A and Foxo1-S273D knock-in (KI) mice. The KI mice displayed impaired blood glucose homeostasis, as well as the basal and glucagon-mediated HGP in hepatocytes. Thus, Foxo1-Ser is a new target site identified in the control of Foxo1 bioactivity and associated metabolic diseases.

摘要

肝脏葡萄糖生成(HGP)的失调是 2 型糖尿病发病机制的主要潜在机制。胰腺激素胰高血糖素增加,胰岛素抑制 HGP,控制血糖稳态。叉头转录因子 Foxo1 通过增加负责糖异生的限速酶基因的表达来促进 HGP。我们之前已经证实,胰岛素通过 Akt 介导的人肝细胞中 Foxo1 的 Ser 磷酸化来抑制 Foxo1。在这项研究中,我们发现了一种新的 Foxo1 调节机制,即通过胰高血糖素促进 Foxo1 核易位和稳定性,通过 cAMP 和蛋白激酶 A 依赖性 Foxo1 的 Ser 磷酸化。用丙氨酸(A)或天冬氨酸(D)取代 Foxo1-S276 分别阻断或模拟磷酸化,显著调节人肝细胞中 Foxo1 的稳定性和核定位。为了确定 Foxo1-Ser 磷酸化在葡萄糖代谢中的体内功能,我们生成了 Foxo1-S273A 和 Foxo1-S273D 敲入(KI)小鼠。KI 小鼠表现出受损的血糖稳态,以及肝细胞中基础和胰高血糖素介导的 HGP。因此,Foxo1-Ser 是控制 Foxo1 生物活性和相关代谢疾病的新靶位。

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