Identification of Reduced mTOR T1262 Phosphorylation as a Novel Mechanism and Therapeutic Target of Apoptosis in Senescent Cardiomyocytes

Qiuyu Li, Xiaolong Lin, Xiaowen Bo, Siyuan Chen, Donghui Zhao, Qin Ma, Yuhao Zhao, Hong Yang, Jinghua Liu, Qian Fan
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Abstract

The mechanisms through which aging increases heart injury remain partially understood. Protein phosphorylation plays a critical regulatory role in cell survival and death. Using an unbiased phosphoproteomics approach, we aimed to identify the protein(s) whose phosphorylation could be causatively related to aging-related cardiomyocyte apoptosis and elucidate the underlying mechanisms. Comparative phosphoproteomics were conducted on cardiac tissues obtained from young (8 weeks) and aged (24 months) mice. Our findings revealed that Mammalian Target of Rapamycin phosphorylation at T1262 (mTORT1262) was reduced in the aging heart. Immunohistochemical and Western blot analyses confirmed these findings in aging myocardia and D-galactose-induced senescent AC16 cardiomyocytes. In hypoxia/reoxygenation cardiomyocytes, mTORT1262 phosphorylation deficiency (mTORT1262A, lentivirus-mediated transfection) inhibited AKT1, suppressed NF-κB, activated FOXO1/3a signaling, and ultimately exacerbated apoptosis. Conversely, mTORT1262 pseudophosphorylation (mTORT1262E) exhibited opposite effects. Through bioinformatics and CO-IP, purinergic receptor P2X4 (P2X4R) was found to be the possible receptor responsible for mTORT1262 phosphorylation. Knockdown of P2X4R increased apoptosis, whereas its overexpression decreased it. In senescent cardiomyocytes, P2X4R expression and mTORT1262 and AKT1S473 phosphorylation were reduced, NF-κB signaling was suppressed, and FOXO1/3a signaling was activated. We demonstrated that P2X4R downregulation and the subsequent reduction of mTORT1262 phosphorylation is a novel mechanism contributing to cardiomyocyte apoptosis in aging hearts. The P2X4R-mTOR-AKT1 signaling pathway represents a potential therapeutic target against accelerated cardiac injury in aging.
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确定 mTOR T1262 磷酸化降低是衰老心肌细胞凋亡的一种新机制和治疗靶点
人们对衰老加剧心脏损伤的机制仍有部分了解。蛋白质磷酸化在细胞存活和死亡中起着关键的调节作用。我们采用一种无偏见的磷酸化蛋白质组学方法,旨在确定其磷酸化可能与衰老相关的心肌细胞凋亡有因果关系的蛋白质,并阐明其潜在机制。我们对小鼠(8 周)和老龄小鼠(24 个月)的心脏组织进行了比较磷酸化蛋白质组学研究。我们的研究结果表明,在衰老的心脏中,雷帕霉素哺乳动物靶点 T1262(mTORT1262)处的磷酸化减少。免疫组化和 Western 印迹分析证实了在衰老心肌和 D-半乳糖诱导的衰老 AC16 心肌细胞中的这些发现。在缺氧/复氧心肌细胞中,mTORT1262 磷酸化缺陷(mTORT1262A,慢病毒介导的转染)抑制了 AKT1,抑制了 NF-κB,激活了 FOXO1/3a 信号转导,并最终加剧了细胞凋亡。相反,mTORT1262 伪磷酸化(mTORT1262E)则表现出相反的效果。通过生物信息学和 CO-IP,发现嘌呤能受体 P2X4(P2X4R)可能是导致 mTORT1262 磷酸化的受体。敲除 P2X4R 会增加细胞凋亡,而过表达 P2X4R 则会减少细胞凋亡。在衰老的心肌细胞中,P2X4R表达和mTORT1262及AKT1S473磷酸化减少,NF-κB信号被抑制,FOXO1/3a信号被激活。我们证明,P2X4R 下调及随后的 mTORT1262 磷酸化减少是导致衰老心脏心肌细胞凋亡的一种新机制。P2X4R-mTOR-AKT1 信号通路是应对衰老过程中心脏加速损伤的潜在治疗靶点。
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