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miR-10a/b-5p-NCOR2 调控雌性小鼠胰岛素抵抗性糖尿病。

miR-10a/b-5p-NCOR2 Regulates Insulin-Resistant Diabetes in Female Mice.

机构信息

Department of Physiology and Cell Biology, University of Nevada School of Medicine, Reno, NV 89557, USA.

Department of Physiology, Wonkwang Digestive Disease Research Institute & Institute of Wonkwang Medical Science, School of Medicine, Wonkwang University, Iksan 54538, Republic of Korea.

出版信息

Int J Mol Sci. 2024 Sep 21;25(18):10147. doi: 10.3390/ijms251810147.

DOI:10.3390/ijms251810147
PMID:39337631
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11432729/
Abstract

Gender and biological sex have distinct impacts on the pathogenesis of type 2 diabetes (T2D). Estrogen deficiency is known to predispose female mice to T2D. In our previous study, we found that a high-fat, high-sucrose diet (HFHSD) induces T2D in male mice through the miR-10b-5p/KLF11/KIT pathway, but not in females, highlighting hormonal disparities in T2D susceptibility. However, the underlying molecular mechanisms of this hormonal protection in females remain elusive. To address this knowledge gap, we utilized ovariectomized, estrogen-deficient female mice, fed them a HFHSD to induce T2D, and investigated the molecular mechanisms involved in estrogen-deficient diabetic female mice, relevant cell lines, and female T2D patients. Initially, female mice fed a HFHSD exhibited a delayed onset of T2D, but ovariectomy-induced estrogen deficiency promptly precipitated T2D without delay. Intriguingly, insulin (INS) was upregulated, while insulin receptor (INSR) and protein kinase B (AKT) were downregulated in these estrogen-deficient diabetic female mice, indicating insulin-resistant T2D. These dysregulations of INS, INSR, and AKT were mediated by a miR-10a/b-5p-NCOR2 axis. Treatment with miR-10a/b-5p effectively alleviated hyperglycemia in estrogen-deficient T2D female mice, while β-estradiol temporarily reduced hyperglycemia. Consistent with the murine findings, plasma samples from female T2D patients exhibited significant reductions in miR-10a/b-5p, estrogen, and INSR, but increased insulin levels. Our findings suggest that estrogen protects against insulin-resistant T2D in females through miR-10a/b-5p/NCOR2 pathway, indicating the potential therapeutic benefits of miR-10a/b-5p restoration in female T2D management.

摘要

性别和生物性别对 2 型糖尿病(T2D)的发病机制有明显影响。已知雌激素缺乏使雌性小鼠易患 T2D。在我们之前的研究中,我们发现高脂肪、高蔗糖饮食(HFHSD)通过 miR-10b-5p/KLF11/KIT 通路诱导雄性小鼠发生 T2D,但在雌性小鼠中则不会,这突出了 T2D 易感性中的激素差异。然而,女性中这种激素保护的潜在分子机制仍不清楚。为了解决这一知识空白,我们利用去卵巢、雌激素缺乏的雌性小鼠,用 HFHSD 喂养它们以诱导 T2D,并研究了涉及雌激素缺乏的糖尿病雌性小鼠、相关细胞系和女性 T2D 患者的分子机制。最初,用 HFHSD 喂养的雌性小鼠表现出 T2D 的发病延迟,但卵巢切除诱导的雌激素缺乏迅速导致 T2D 而没有延迟。有趣的是,这些雌激素缺乏的糖尿病雌性小鼠中胰岛素(INS)上调,而胰岛素受体(INSR)和蛋白激酶 B(AKT)下调,表明存在胰岛素抵抗性 T2D。这些 INS、INSR 和 AKT 的失调是由 miR-10a/b-5p-NCOR2 轴介导的。用 miR-10a/b-5p 治疗可有效缓解雌激素缺乏的 T2D 雌性小鼠的高血糖,而β-雌二醇可暂时降低高血糖。与鼠类研究结果一致,女性 T2D 患者的血浆样本中 miR-10a/b-5p、雌激素和 INSR 显著降低,但胰岛素水平升高。我们的研究结果表明,雌激素通过 miR-10a/b-5p/NCOR2 途径保护女性免受胰岛素抵抗性 T2D 的侵害,表明 miR-10a/b-5p 恢复在女性 T2D 管理中的潜在治疗益处。

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