心力衰竭相关的心肌肌钙蛋白I C末端过度磷酸化对体内心脏功能有不同影响。
Heart Failure-Related Hyperphosphorylation in the Cardiac Troponin I C Terminus Has Divergent Effects on Cardiac Function In Vivo.
作者信息
Li Yuejin, Zhu Guangshuo, Paolocci Nazareno, Zhang Pingbo, Takahashi Cyrus, Okumus Nazli, Heravi Amir, Keceli Gizem, Ramirez-Correa Genaro, Kass David A, Murphy Anne M
机构信息
From the Division of Cardiology, Department of Pediatrics (Y.L., N.O., A.H., G.R.-C., A.M.M.), Division of Cardiology, Department of Medicine (G.Z., N.P., C.T., G.K., D.A.K.), Department of Pharmacology and Molecular Sciences, Department of Biomedical Engineering (D.A.K.), and Deparment of Ophthalmology (P.Z.), Johns Hopkins University, Baltimore, MD; and Istanbul Faculty of Medicine, Istanbul University, Turkey (N.O.).
出版信息
Circ Heart Fail. 2017 Sep;10(9). doi: 10.1161/CIRCHEARTFAILURE.117.003850.
BACKGROUND
In human heart failure, Ser199 (equivalent to Ser200 in mouse) of cTnI (cardiac troponin I) is significantly hyperphosphorylated, and in vitro studies suggest that it enhances myofilament calcium sensitivity and alters calpain-mediated cTnI proteolysis. However, how its hyperphosphorylation affects cardiac function in vivo remains unknown.
METHODS AND RESULTS
To address the question, 2 transgenic mouse models were generated: a phospho-mimetic cTnIS200D and a phospho-silenced cTnIS200A, each driven by the cardiomyocyte-specific α-myosin heavy chain promoter. Cardiac structure assessed by echocardiography and histology was normal in both transgenic models compared with littermate controls (n=5). Baseline in vivo hemodynamics and isolated muscle studies showed that cTnIS200D significantly prolonged relaxation and lowered left ventricular peak filling rate, whereas ejection fraction and force development were normal (n=5). However, with increased heart rate or β-adrenergic stimulation, cTnIS200D mice had less enhanced ejection fraction or force development versus controls, whereas relaxation improved similarly to controls (n=5). By contrast, cTnIS200A was functionally normal both at baseline and under the physiological stresses. To test whether either mutation impacted cardiac response to ischemic stress, isolated hearts were subjected to ischemia/reperfusion. cTnIS200D were protected, recovering 88±8% of contractile function versus 35±15% in littermate controls and 28±8% in cTnIS200A (n=5). This was associated with less cTnI proteolysis in cTnIS200D hearts.
CONCLUSIONS
Hyperphosphorylation of this serine in cTnI C terminus impacts heart function by depressing diastolic function at baseline and limiting systolic reserve under physiological stresses. However, paradoxically, it preserves heart function after ischemia/reperfusion injury, potentially by decreasing proteolysis of cTnI.
背景
在人类心力衰竭中,心肌肌钙蛋白I(cTnI)的Ser199(相当于小鼠中的Ser200)显著过度磷酸化,体外研究表明,它可增强肌丝对钙的敏感性并改变钙蛋白酶介导的cTnI蛋白水解。然而,其过度磷酸化如何在体内影响心脏功能仍不清楚。
方法与结果
为解决该问题,构建了2种转基因小鼠模型:磷酸模拟物cTnIS200D和磷酸沉默cTnIS200A,每种均由心肌细胞特异性α-肌球蛋白重链启动子驱动。与同窝对照(n = 5)相比,两种转基因模型经超声心动图和组织学评估的心脏结构均正常。基线体内血流动力学和离体肌肉研究表明,cTnIS200D显著延长舒张期并降低左心室峰值充盈率,而射血分数和力的产生正常(n = 5)。然而,随着心率增加或β-肾上腺素能刺激,与对照相比,cTnIS200D小鼠的射血分数或力的增加较少,而舒张期改善与对照相似(n = 5)。相比之下,cTnIS200A在基线和生理应激下功能均正常。为测试任一突变是否影响心脏对缺血应激的反应,对离体心脏进行缺血/再灌注。cTnIS200D受到保护,收缩功能恢复88±8%,而同窝对照为35±15%,cTnIS200A为28±8%(n = 5)。这与cTnIS200D心脏中cTnI蛋白水解较少有关。
结论
cTnI C末端的这种丝氨酸过度磷酸化通过在基线时抑制舒张功能和在生理应激下限制收缩储备来影响心脏功能。然而,矛盾的是,它在缺血/再灌注损伤后可保留心脏功能,可能是通过减少cTnI的蛋白水解来实现的。
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