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钙蛋白酶介导的调节结构域截断导致受体非依赖性心肌蛋白激酶 Calpha 的激活。

Receptor-independent cardiac protein kinase Calpha activation by calpain-mediated truncation of regulatory domains.

机构信息

Washington University Center for Pharmacogenomics, St Louis, MO 63110, USA.

出版信息

Circ Res. 2010 Oct 1;107(7):903-12. doi: 10.1161/CIRCRESAHA.110.220772. Epub 2010 Aug 5.

DOI:10.1161/CIRCRESAHA.110.220772
PMID:20689063
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2948630/
Abstract

RATIONALE

Protein kinase (PK)Cs and calpain cysteine proteases are highly expressed in myocardium. Ischemia produces calcium overload that activates calpains and conventional PKCs. However, calpains can proteolytically process PKCs, and the potential in vivo consequences of this interaction are unknown.

OBJECTIVE

To determine the biochemical and pathophysiological consequences of calpain-mediated cardiac PKCα proteolysis.

METHODS AND RESULTS

Isolated mouse hearts subjected to global ischemia/reperfusion demonstrated cleavage of PKCα. Calpain 1 overexpression was not sufficient to produce PKCα cleavage in normal hearts, but ischemia-induced myocardial PKCα cleavage and myocardial injury were greatly increased by cardiac-specific expression of calpain 1. In contrast, calpain 1 gene ablation or inhibition with calpastatin prevented ischemia/reperfusion induced PKCα cleavage; infarct size was decreased and ventricular function enhanced in infarcted calpain 1 knockout hearts. To determine consequences of PKCα fragmentation on myocardial protein phosphorylation, transgenic mice were created conditionally expressing full-length PKCα or its N-terminal and C-terminal calpain 1 cleavage fragments. Two-dimensional mapping of ventricular protein extracts showed a distinct PKCα phosphorylation profile that was exaggerated and distorted in hearts expressing the PKCα C-terminal fragment. MALDI mass spectroscopy revealed hyperphosphorylation of myosin-binding protein C and phosphorylation of atypical substrates by the PKCα C-terminal fragment. Expression of parent PKCα produced a mild cardiomyopathy, whereas myocardial expression of the C-terminal PKCα fragment induced a disproportionately severe, rapidly lethal cardiomyopathy.

CONCLUSIONS

Proteolytic processing of PKCα by calcium-activated calpain activates pathological cardiac signaling through generation of an unregulated and/or mistargeted kinase. Production of the PKCα C-terminal fragment in ischemic hearts occurs via a receptor-independent mechanism.

摘要

原理

蛋白激酶(PK)C 和钙蛋白酶半胱氨酸蛋白酶在心肌中高度表达。缺血会导致钙超载,从而激活钙蛋白酶和传统的 PKCs。然而,钙蛋白酶可以对 PKCs 进行蛋白水解处理,这种相互作用的潜在体内后果尚不清楚。

目的

确定钙蛋白酶介导的心脏 PKCa 蛋白水解的生化和病理生理后果。

方法和结果

在经历整体缺血/再灌注的分离的小鼠心脏中,PKCa 发生了裂解。钙蛋白酶 1 的过表达不足以在正常心脏中产生 PKCa 裂解,但在心脏特异性表达钙蛋白酶 1 的情况下,缺血诱导的心肌 PKCa 裂解和心肌损伤大大增加。相比之下,钙蛋白酶 1 基因缺失或用钙蛋白酶抑制剂 calpastatin 抑制可防止缺血/再灌注诱导的 PKCa 裂解;在钙蛋白酶 1 敲除的梗塞心脏中,梗塞面积减小,心室功能增强。为了确定 PKCa 片段化对心肌蛋白磷酸化的影响,创建了条件表达全长 PKCa 或其 N 端和 C 端钙蛋白酶 1 切割片段的转基因小鼠。心室蛋白提取物的二维图谱显示出独特的 PKCa 磷酸化谱,在表达 PKCa C 端片段的心脏中,该谱被夸大和扭曲。MALDI 质谱揭示了肌球蛋白结合蛋白 C 的过度磷酸化和非典型底物由 PKCa C 端片段磷酸化。亲本 PKCa 的表达产生轻度的心肌病,而心肌表达 PKCa 的 C 端片段则导致不成比例的严重、快速致命的心肌病。

结论

钙激活的钙蛋白酶对 PKCa 的蛋白水解处理通过产生不受调节和/或靶向错误的激酶来激活病理性心脏信号。在缺血心脏中产生的 PKCa C 端片段是通过受体非依赖性机制产生的。

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