脑中富含的Ras同源物1通过mTORC1/AMPK/Notch1途径调节β细胞量和β细胞功能。
Ras homolog enriched in brain 1 regulates β cell mass and β cell function mTORC1/AMPK/Notch1 pathways.
作者信息
Yang Yan, Song Wan-Juan, Zhang Jing-Jing
机构信息
National Clinical Research Center for Metabolic Diseases, Metabolic Syndrome Research Center, Key Laboratory of Diabetes Immunology, Ministry of Education, Department of Metabolism and Endocrinology, The Second Xiangya Hospital of Central South University, Changsha 410011, Hunan Province, China.
Reproductive Medicine Center, Department of Obstetrics and Gynecology, The Second Xiangya Hospital of Central South University, Changsha 410011, Hunan Province, China.
出版信息
World J Diabetes. 2025 Jun 15;16(6):104973. doi: 10.4239/wjd.v16.i6.104973.
BACKGROUND
The identification of key regulators of β cell mass and function is crucial in developing effective therapeutic interventions for diabetes. Ras homolog enriched in brain 1 (Rheb1), an upstream binding protein of mTOR, is a potential therapeutic target for β cell in diabetes, while the underlying mechanisms remains unknown.
AIM
To assess the effect and potential mechanism of Rheb1 on β cell mass and function.
METHODS
Islets samples were collected from mouse and human donors. Min6 transformed cell line and mouse models including pancreatic or β-cell specific knockout of Rheb1mice were established. Rapamycin (an mTORC1 inhibitor) and AICAR (an AMPK activator) was used to investigate mTORC1 or AMPK signaling in β cells. The effect of Rheb1 on β cell function mTORC1, AMPK or other pathways were assessed using western blotting and immunofluorescence,
RESULTS
In this study, we demonstrate that Rheb1 is highly expressed in islets from young human donors (below the age of 18) compared to adults. Furthermore, our findings reveal that Rheb1 facilitates β-cell proliferation through both mTORC1 and AMPK signaling pathways, rather than solely relying on mTORC1. Specifically, we observed that either AICAR or rapamycin alone could partially inhibit Rheb1-induced β cell proliferation, while the combination of AICAR and rapamycin fully inhibits Rheb1-induced β cell proliferation in Min6 transformed cell line and mouse islets. In addition, our study highlights the role of Rheb1 in maintaining β cell identity through activation of mTORC1 and Notch1 signaling pathways. Moreover, we also found that Rheb1 could positively regulate HNF4α in β cells, which is a significant transcription factor for β-cell development and differentiation.
CONCLUSION
Overall, our findings reveal that Rheb1 regulates β cell proliferation and identity and β-cell development related significant marker, providing a promising novel therapeutic target for diabetes.
背景
确定β细胞质量和功能的关键调节因子对于开发有效的糖尿病治疗干预措施至关重要。富含脑1的Ras同源物(Rheb1)是mTOR的上游结合蛋白,是糖尿病β细胞的潜在治疗靶点,但其潜在机制仍不清楚。
目的
评估Rheb1对β细胞质量和功能的影响及潜在机制。
方法
从小鼠和人类供体收集胰岛样本。建立了Min6转化细胞系和包括胰腺或β细胞特异性敲除Rheb1的小鼠模型。使用雷帕霉素(一种mTORC1抑制剂)和AICAR(一种AMPK激活剂)来研究β细胞中的mTORC1或AMPK信号通路。使用蛋白质免疫印迹法和免疫荧光法评估Rheb1对β细胞功能、mTORC1、AMPK或其他途径的影响。
结果
在本研究中,我们证明与成年人相比Rheb1在年轻人类供体(18岁以下)的胰岛中高表达。此外,我们的研究结果表明Rheb1通过mTORC1和AMPK信号通路促进β细胞增殖,而不是仅依赖于mTORC1。具体而言,我们观察到单独使用AICAR或雷帕霉素均可部分抑制Rheb1诱导的β细胞增殖,而AICAR和雷帕霉素联合使用可完全抑制Min6转化细胞系和小鼠胰岛中Rheb1诱导的β细胞增殖。此外,我们的研究强调了Rheb1通过激活mTORC1和Notch1信号通路在维持β细胞特性中的作用。此外,我们还发现Rheb1可以正向调节β细胞中的HNF4α,HNF4α是β细胞发育和分化的重要转录因子。
结论
总体而言,我们的研究结果表明Rheb1调节β细胞增殖、特性以及与β细胞发育相关的重要标志物,为糖尿病提供了一个有前景的新型治疗靶点。
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