SIRPα 在慢性肾脏病引起的心肌病中介导 IGF1 受体。
SIRPα Mediates IGF1 Receptor in Cardiomyopathy Induced by Chronic Kidney Disease.
机构信息
Nephrology Division, Department of Medicine, Michael E. Debakey VA Medical Center, Houston, TX (S.S.T.).
Nephrology Division, Department of Medicine, Baylor College of Medicine, Houston, TX (S.S.T., J.W., M.W.H., Z.H., W.E.M.).
出版信息
Circ Res. 2022 Jul 22;131(3):207-221. doi: 10.1161/CIRCRESAHA.121.320546. Epub 2022 Jun 20.
BACKGROUND
Chronic kidney disease (CKD) is characterized by increased myocardial mass despite near-normal blood pressure, suggesting the presence of a separate trigger. A potential driver is SIRPα (signal regulatory protein alpha)-a mediator impairing insulin signaling. The objective of this study is to assess the role of circulating SIRPα in CKD-induced adverse cardiac remodeling.
METHODS
SIRPα expression was evaluated in mouse models and patients with CKD. Specifically, mutant, muscle-specific, or cardiac muscle-specific SIRPα KO (knockout) mice were examined after subtotal nephrectomy. Cardiac function was assessed by echocardiography. Metabolic responses were confirmed in cultured muscle cells or cardiomyocytes.
RESULTS
We demonstrate that SIRPα regulates myocardial insulin/IGF1R (insulin growth factor-1 receptor) signaling in CKD. First, in the serum of both mice and patients, SIRPα was robustly secreted in response to CKD. Second, cardiac muscle upregulation of SIRPα was associated with impaired insulin/IGF1R signaling, myocardial dysfunction, and fibrosis. However, both global and cardiac muscle-specific SIRPα KO mice displayed improved cardiac function when compared with control mice with CKD. Third, both muscle-specific or cardiac muscle-specific SIRPα KO mice did not significantly activate fetal genes and maintained insulin/IGF1R signaling with suppressed fibrosis despite the presence of CKD. Importantly, SIRPα directly interacted with IGF1R. Next, rSIRPα (recombinant SIRPα) protein was introduced into muscle-specific SIRPα KO mice reestablishing the insulin/IGF1R signaling activity. Additionally, overexpression of SIRPα in myoblasts and cardiomyocytes impaired pAKT (phosphorylation of AKT) and insulin/IGF1R signaling. Furthermore, myotubes and cardiomyocytes, but not adipocytes treated with high glucose or cardiomyocytes treated with uremic toxins, stimulated secretion of SIRPα in culture media, suggesting these cells are the origin of circulating SIRPα in CKD. Both intracellular and extracellular SIRPα exert biologically synergistic effects impairing intracellular myocardial insulin/IGF1R signaling.
CONCLUSIONS
Myokine SIRPα expression impairs insulin/IGF1R functions in cardiac muscle, affecting cardiometabolic signaling pathways. Circulating SIRPα constitutes an important readout of insulin resistance in CKD-induced cardiomyopathy.
背景
尽管血压接近正常,但慢性肾脏病(CKD)的特征是心肌质量增加,这表明存在单独的触发因素。一个潜在的驱动因素是 SIRPα(信号调节蛋白α)-一种损害胰岛素信号的介质。本研究的目的是评估循环 SIRPα 在 CKD 引起的心脏不良重塑中的作用。
方法
在 CKD 小鼠模型和患者中评估了 SIRPα 的表达。具体来说,在进行部分肾切除术之后,检查了突变型、肌肉特异性或心肌特异性 SIRPα KO(敲除)小鼠。通过超声心动图评估心功能。在培养的肌肉细胞或心肌细胞中证实了代谢反应。
结果
我们证明 SIRPα调节 CKD 中的心肌胰岛素/IGF1R(胰岛素生长因子 1 受体)信号。首先,在小鼠和患者的血清中,SIRPα在 CKD 时强烈分泌。其次,心肌中 SIRPα 的上调与胰岛素/IGF1R 信号受损、心肌功能障碍和纤维化有关。然而,与 CKD 对照小鼠相比,全身性和心肌特异性 SIRPα KO 小鼠的心脏功能均得到改善。第三,肌肉特异性或心肌特异性 SIRPα KO 小鼠均未显著激活胎儿基因,并且尽管存在 CKD,但仍保持胰岛素/IGF1R 信号而抑制纤维化。重要的是,SIRPα直接与 IGF1R 相互作用。接下来,将 rSIRPα(重组 SIRPα)蛋白引入肌肉特异性 SIRPα KO 小鼠中,重新建立胰岛素/IGF1R 信号活性。此外,在成肌细胞和心肌细胞中过表达 SIRPα 会损害 pAKT(AKT 的磷酸化)和胰岛素/IGF1R 信号。此外,在高葡萄糖处理的肌管和心肌细胞或尿毒症毒素处理的心肌细胞中,刺激培养基中 SIRPα 的分泌,这表明这些细胞是 CKD 中循环 SIRPα 的来源。细胞内和细胞外 SIRPα均具有协同的生物学效应,损害细胞内心肌胰岛素/IGF1R 信号。
结论
肌因子 SIRPα 的表达损害了心肌中的胰岛素/IGF1R 功能,影响了心脏代谢信号通路。循环 SIRPα是 CKD 诱导的心肌病中胰岛素抵抗的重要指标。
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