Actin Capping Protein: An Essential Element in Protein Kinase Signaling to the Myofilaments

W. Pyle, M. C. Hart, J. Cooper, M. Sumandea, P. D. de Tombe, R. Solaro
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引用次数: 59

Abstract

Actin capping protein (CapZ) binds the barbed ends of actin at sarcomeric Z-lines. In addition to anchoring actin, Z-discs bind protein kinase C (PKC). Although CapZ is crucial for myofibrillogenesis, its role in muscle function and intracellular signaling is unknown. We hypothesized that CapZ downregulation would impair myocardial function and disrupt PKC-myofilament signaling by impairing PKC–Z-disc interaction. To test these hypotheses, we examined transgenic (TG) mice in which cardiac CapZ protein is reduced. Fiber bundles were dissected from papillary muscles and detergent extracted. Some fiber bundles were treated with PKC activators phenylephrine (PHE) or endothelin (ET) before detergent extraction. We simultaneously measured Ca2+-dependent tension and actomyosin MgATPase activity. CapZ downregulation increased myofilament Ca2+ sensitivity without affecting maximum tension or actomyosin MgATPase activity. Maximum tension and actomyosin MgATPase activity were decreased after PHE or ET treatment of wild-type (WT) muscle. Fiber bundles from TG hearts did not respond to PHE or ET. Immunoblot analysis revealed an increase in myofilament-associated PKC-&egr; after PHE or ET exposure of WT preparations. In contrast, myofilament-associated PKC-&egr; was decreased after PHE or ET treatment in TG myocardium. Protein levels of myofilament-associated PKC-&bgr; were decreased in TG ventricle. C-protein and troponin I phosphorylation was increased after PHE or ET treatment in WT and TG hearts. Basal phosphorylation levels of C-protein and troponin I were higher in TG myocardium. These results indicate that downregulation of CapZ, or other changes associated with CapZ downregulation, increases cardiac myofilament Ca2+ sensitivity, inhibits PKC-mediated control of myofilament activation, and decreases myofilament-associated PKC-&bgr;.
肌动蛋白封盖蛋白:肌丝蛋白激酶信号传导的重要元素
肌动蛋白封盖蛋白(CapZ)结合肌动蛋白在肌动蛋白z线上的倒钩端。除了锚定肌动蛋白,z -盘结合蛋白激酶C (PKC)。虽然CapZ对肌纤维形成至关重要,但其在肌肉功能和细胞内信号传导中的作用尚不清楚。我们假设CapZ下调会损害心肌功能,并通过损害pkc - z -椎间盘相互作用破坏pkc -肌丝信号传导。为了验证这些假设,我们检测了心脏CapZ蛋白减少的转基因(TG)小鼠。从乳头肌中剥离纤维束,提取洗涤剂。部分纤维束在去污剂提取前用PKC活化剂苯肾上腺素(phenylephrine, PHE)或内皮素(endothelin, ET)处理。我们同时测量了Ca2+依赖性张力和肌动球蛋白MgATPase活性。CapZ下调可增加肌丝Ca2+敏感性,但不影响最大张力或肌动球蛋白MgATPase活性。野生型(WT)肌肉经PHE或ET处理后,最大张力和肌动球蛋白MgATPase活性降低。来自TG心脏的纤维束对PHE或ET没有反应。免疫印迹分析显示肌丝相关PKC-&egr增加;在PHE或ET暴露WT制剂后。相反,肌丝相关的PKC-&egr;经苯丙氨酸或ET治疗后,TG心肌的血凝素含量降低。肌丝相关PKC-&bgr蛋白水平的研究心室TG降低。在WT和TG心脏中,PHE或ET处理后c蛋白和肌钙蛋白I磷酸化升高。c蛋白和肌钙蛋白I的基础磷酸化水平在TG心肌中较高。这些结果表明,CapZ的下调,或与CapZ下调相关的其他变化,增加心肌肌丝Ca2+敏感性,抑制PKC介导的肌丝激活控制,并降低肌丝相关的PKC-&bgr;
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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