协调调控肝 FoxO1、PGC-1α 和 SREBP-1c 有助于胰岛素作用和抵抗。

Coordinated regulation of hepatic FoxO1, PGC-1α and SREBP-1c facilitates insulin action and resistance.

机构信息

Medical and Research Services, James A. Haley Veterans Administration Hospital, Department of Internal Medicine, University of South Florida College of Medicine, Tampa, FL 33704, USA.

Institut National de la Sante et de la Recherche Medicale (INSERM) UMRS 1138, Sorbonne Universites, UMPC Universite Paris 06, Sorbonne Paris Cite, Universite Paris Descartes, Universite Paris Diderot, Centre de Recherche Biomedicales des Cordeliers, Paris, France.

出版信息

Cell Signal. 2018 Mar;43:62-70. doi: 10.1016/j.cellsig.2017.12.005. Epub 2017 Dec 18.

DOI:10.1016/j.cellsig.2017.12.005

PMID:29269047

Abstract

UNLABELLED

Type 2 diabetes is characterized by insulin resistance, hyperinsulinemia and hepatic overproduction of glucose and lipids. Insulin increases lipogenic enzyme expression by activating Akt and aPKC which activate SREBP-1c; this pathway is hyperactivated in insulin-resistant states. Insulin suppresses gluconeogenic enzyme expression by Akt-dependent phosphorylation/inactivation of FoxO1 and PGC-1α; this pathway is impaired in insulin-resistant states by aPKC excess, which displaces Akt from scaffolding-protein WD40/ProF, where Akt phosphorylates/inhibits FoxO1. But how PGC-1α and FoxO1 are coordinated in insulin action and resistance is uncertain. Here, in normal mice, we found, along with Akt and aPKC, insulin increased PGC-1α association with WD40/ProF by an aPKC-dependent mechanism. However, in insulin-resistant high-fat-fed mice, like FoxO1, PGC-1α phosphorylation was impaired by aPKC-mediated displacement of Akt from WD40/ProF, as aPKC inhibition diminished its association with WD40/ProF, and simultaneously restored Akt association with WD40/ProF and phosphorylation/inhibition of both PGC-1α and FoxO1. Moreover, in high-fat-fed mice, in addition to activity, PGC-1α expression was increased, not only by FoxO1 activation, but also, as found in human hepatocytes, by a mechanism requiring aPKC and SREBP-1c, which also increased expression and activity of PKC-ι. In high-fat-fed mice, inhibition of hepatic aPKC, not only restored Akt association with WD40/ProF and FoxO1/PGC-1α phosphorylation, but also diminished expression of SREBP-1c, PGC-1α, PKC-ι and gluconeogenic and lipogenic enzymes, and corrected glucose intolerance and hyperlipidemia.

CONCLUSION

Insulin suppression of gluconeogenic enzyme expression is facilitated by coordinated inactivation of FoxO1 and PGC-1α by WD40/ProF-associated Akt; but this coordination also increases vulnerability to aPKC hyperactivity, which is abetted by SREBP-1c-induced increases in PGC-1α and PKC-ι.

摘要

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2 型糖尿病的特征是胰岛素抵抗、高胰岛素血症和肝葡萄糖和脂质的过度产生。胰岛素通过激活 Akt 和 aPKC 来增加脂肪生成酶的表达，Akt 和 aPKC 激活 SREBP-1c；这条途径在胰岛素抵抗状态下过度激活。胰岛素通过 Akt 依赖性磷酸化/失活 FoxO1 和 PGC-1α 来抑制糖异生酶的表达；这条途径在胰岛素抵抗状态下受到 aPKC 过量的损害，aPKC 会将 Akt 从支架蛋白 WD40/ProF 上置换出来，Akt 在那里磷酸化/抑制 FoxO1。但是，PGC-1α 和 FoxO1 如何在胰岛素作用和抵抗中协调尚不确定。在这里，在正常小鼠中，我们发现，除了 Akt 和 aPKC 之外，胰岛素还通过 aPKC 依赖的机制增加了 PGC-1α 与 WD40/ProF 的结合。然而，在胰岛素抵抗的高脂肪喂养小鼠中，与 FoxO1 一样，PGC-1α 的磷酸化受到 aPKC 介导的 Akt 从 WD40/ProF 上的置换的损害，因为 aPKC 抑制减少了其与 WD40/ProF 的结合，同时恢复了 Akt 与 WD40/ProF 的结合以及对 PGC-1α 和 FoxO1 的磷酸化/抑制。此外，在高脂肪喂养的小鼠中，除了活性之外，PGC-1α 的表达增加，不仅是 FoxO1 的激活，而且还像在人类肝细胞中一样，需要 aPKC 和 SREBP-1c 的机制，这也增加了 PKC-ι的表达和活性。在高脂肪喂养的小鼠中，抑制肝 aPKC，不仅恢复了 Akt 与 WD40/ProF 的结合以及 FoxO1/PGC-1α 的磷酸化，还减少了 SREBP-1c、PGC-1α、PKC-ι 和糖异生和脂肪生成酶的表达，并纠正了葡萄糖耐量和高脂血症。

结论

胰岛素通过 WD40/ProF 相关的 Akt 使 FoxO1 和 PGC-1α 协调失活来抑制糖异生酶的表达；但这种协调也增加了对 aPKC 过度活跃的易感性，而 SREBP-1c 诱导的 PGC-1α 和 PKC-ι 的增加加剧了这种易感性。

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协调调控肝 FoxO1、PGC-1α 和 SREBP-1c 有助于胰岛素作用和抵抗。

Coordinated regulation of hepatic FoxO1, PGC-1α and SREBP-1c facilitates insulin action and resistance.

机构信息

出版信息

UNLABELLED

CONCLUSION

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结论

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