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诱导型环磷酸腺苷早期阻遏物的过表达抑制胰腺β细胞中基因的反式激活和细胞增殖。

Overexpression of inducible cyclic AMP early repressor inhibits transactivation of genes and cell proliferation in pancreatic beta cells.

作者信息

Inada Akari, Hamamoto Yoshiyuki, Tsuura Yoshiyuki, Miyazaki Jun-ichi, Toyokuni Shinya, Ihara Yu, Nagai Koichiro, Yamada Yuichiro, Bonner-Weir Susan, Seino Yutaka

机构信息

Department of Diabetes and Clinical Nutrition, Graduate School of Medicine, Kyoto University, Kyoto 606-8507, Japan.

出版信息

Mol Cell Biol. 2004 Apr;24(7):2831-41. doi: 10.1128/MCB.24.7.2831-2841.2004.

DOI:10.1128/MCB.24.7.2831-2841.2004
PMID:15024072
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC371116/
Abstract

Transcriptional control mediated by the cyclic AMP-responsive element (CRE) represents an important mechanism of gene regulation. To test our hypothesis that increased inducible cyclic AMP early repressor (ICER) Igamma inhibits function of CRE-binding proteins and thus disrupts CRE-mediated transcription in pancreatic beta cells, we generated transgenic mice with beta-cell-directed expression of ICER Igamma, a powerful repressor that is greatly increased in diabetes. Three transgenic lines clearly show that increased ICER Igamma expression in beta cells results in early severe diabetes. From birth islets were severely disorganized with a significantly increased proportion of alpha cells throughout the islet. Diabetes results from the combined effects of impaired insulin expression and a decreased number of beta cells. The decrease in beta cells appears to result from impaired proliferation rather than from increased apoptosis after birth. Cyclin A gene expression is impaired by the strong inhibition of ICER; the suppression of cyclin A results in a substantially decreased proliferation of beta cells in the postnatal period. These results suggest that CRE and CRE-binding factors have an important role in pancreatic beta-cell physiology not only directly by regulation of gene trans-activation but also indirectly by regulation of beta-cell mass.

摘要

由环磷酸腺苷反应元件(CRE)介导的转录调控是基因调控的一种重要机制。为了验证我们的假说,即诱导型环磷酸腺苷早期阻遏物(ICER)Igamma的增加会抑制CRE结合蛋白的功能,从而破坏胰腺β细胞中CRE介导的转录,我们构建了胰岛β细胞定向表达ICER Igamma的转基因小鼠,ICER Igamma是一种强效阻遏物,在糖尿病中显著增加。三个转基因品系清楚地表明,β细胞中ICER Igamma表达的增加会导致早期严重糖尿病。从出生起,胰岛就严重紊乱,整个胰岛中α细胞的比例显著增加。糖尿病是胰岛素表达受损和β细胞数量减少共同作用的结果。β细胞数量的减少似乎是由于出生后增殖受损,而不是凋亡增加所致。ICER的强烈抑制会损害细胞周期蛋白A基因的表达;细胞周期蛋白A的抑制导致出生后β细胞的增殖大幅减少。这些结果表明,CRE和CRE结合因子在胰腺β细胞生理中不仅通过调节基因反式激活直接发挥重要作用,还通过调节β细胞数量间接发挥重要作用。

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