p53-TRIB3轴的异常激活导致糖尿病心肌胰岛素抵抗和舒乐安定保护。

Guangping Lu, Yufeng Tang, Ou Chen, Yuanfang Guo, Mengjie Xiao, Jie Wang, Qingbo Liu, Jiahao Li, Ting Gao, Xiaohui Zhang, Jingjing Zhang, Quanli Cheng, Rong Kuang, Junlian Gu
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引用次数: 0

摘要

导言胰岛素抵抗(IR)与多种病理特征相关。虽然p53或TRIB3协调的IR在脂肪组织和肝脏中得到了广泛的研究,但p53-TRIB3轴在心肌IR中的作用仍然未知,更重要的是,心肌IR的靶向疗法尚缺:考虑到莱菔硫烷(SFN)对心血管健康的有益影响,探讨莱菔硫烷是否能保护心肌IR,重点关注p53-TRIB3轴的调节作用,是一项特别有意义的研究:方法:采用心脏特异性 p53 高表达转基因(p53-cTg)小鼠和 Trib3 基因敲除(Trib3-KO)小鼠等小鼠模型,结合经 p53 激活剂(nutlin-3a)和抑制剂(pifithrin-α,PFT-α)处理或转染 p53-shRNA 和 Trib3-shRNA 的原代心肌细胞,并采用多种分子生物学方法,研究 p53-TRIB3 轴在 SFN 对心肌 IR 作用中的作用:结果:在此,我们报告了p53的敲除可挽救胰岛素刺激的心肌AKT磷酸化,而通过nutlin-3a或p53-cTg小鼠上调p53可减弱糖尿病条件下心肌细胞的胰岛素敏感性。在p53-Tgfl/fl小鼠中,SFN能明显逆转糖尿病对AKT介导的心脏胰岛素信号转导的削弱,但在p53-cTg小鼠中却不能。重要的是,我们发现在p53-cTg糖尿病小鼠中TRIB3升高,并证实了p53和TRIB3之间的物理相互作用。Trib3-KO 糖尿病小鼠的心脏对胰岛素的敏感性得到改善。更具体地说,AMPKα触发的CHOP磷酸化和降解对p53调控Trib3的转录至关重要:总之,这些结果表明,SFN抑制p53-TRIB3通路在改善心肌IR方面发挥了未被察觉的关键作用,这可能是减轻糖尿病患者糖尿病心肌病(DCM)的一种有前途的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Aberrant activation of p53-TRIB3 axis contributes to diabetic myocardial insulin resistance and sulforaphane protection.

Introduction: Insulin resistance (IR) is associated with multiple pathological features. Although p53- or TRIB3-orchestrated IR is extensively studied in adipose tissue and liver, the role of p53-TRIB3 axis in myocardial IR remains unknown, and more importantly target-directed therapies of myocardial IR are missing.

Objectives: Considering the beneficial effects of sulforaphane (SFN) on cardiovascular health, it is of particular interest to explore whether SFN protects against myocardial IR with a focus on the regulatory role of p53-TRIB3 axis.

Methods: Mouse models including cardiac specific p53-overexpressing transgenic (p53-cTg) mice and Trib3 knockout (Trib3-KO) mice, combined with primary cardiomyocytes treated with p53 activator (nutlin-3a) and inhibitor (pifithrin-α, PFT-α), or transfected with p53-shRNA and Trib3-shRNA, followed by multiple molecular biological methodologies, were used to investigate the role of p53-TRIB3 axis in SFN actions on myocardial IR.

Results: Here, we report that knockdown of p53 rescued cardiac insulin-stimulated AKT phosphorylation, while up-regulation of p53 by nutlin-3a or p53-cTg mice blunted insulin sensitivity in cardiomyocytes under diabetic conditions. Diabetic attenuation of AKT-mediated cardiac insulin signaling was markedly reversed by SFN in p53-Tgfl/fl mice, but not in p53-cTg mice. Importantly, we identified TRIB3 was elevated in p53-cTg diabetic mice, and confirmed the physical interaction between p53 and TRIB3. Trib3-KO diabetic mice displayed improved insulin sensitivity in the heart. More specifically, the AMPKα-triggered CHOP phosphorylation and degradation were essential for p53 on the transcriptional regulation of Trib3.

Conclusion: Overall, these results indicate that inhibiting the p53-TRIB3 pathway by SFN plays an unsuspected key role in the improvement of myocardial IR, which may be a promising strategy for attenuating diabetic cardiomyopathy (DCM) in diabetic patients.

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