一种新型的“剪切和粘贴”方法用于 cMyBP-C 的原位替换,揭示了 cMyBP-C 在调节收缩振荡中的新作用。
A Novel "Cut and Paste" Method for In Situ Replacement of cMyBP-C Reveals a New Role for cMyBP-C in the Regulation of Contractile Oscillations.
机构信息
From the Department of Cellular and Molecular Medicine (N.C.N., K.G., H.R.M, J.S., S.P.H.), University of Arizona College of Medicine, Tucson.
Division of Endocrinology, Department of Medicine (P.R.L.), University of Arizona College of Medicine, Tucson.
出版信息
Circ Res. 2020 Mar 13;126(6):737-749. doi: 10.1161/CIRCRESAHA.119.315760. Epub 2020 Feb 13.
RATIONALE
cMyBP-C (cardiac myosin-binding protein-C) is a critical regulator of heart contraction, but the mechanisms by which cMyBP-C affects actin and myosin are only partly understood. A primary obstacle is that cMyBP-C localization on thick filaments may be a key factor defining its interactions, but most in vitro studies cannot duplicate the unique spatial arrangement of cMyBP-C within the sarcomere.
OBJECTIVE
The goal of this study was to validate a novel hybrid genetic/protein engineering approach for rapid manipulation of cMyBP-C in sarcomeres in situ.
METHODS AND RESULTS
We designed a novel cut and paste approach for removal and replacement of cMyBP-C N'-terminal domains (C0-C7) in detergent-permeabilized cardiomyocytes from gene-edited Spy-C mice. Spy-C mice express a TEVp (tobacco etch virus protease) cleavage site and a SpyTag (st) between cMyBP-C domains C7 and C8. A cut is achieved using TEVp which cleaves cMyBP-C to create a soluble N'-terminal C0C7 (endogenous [genetically encoded] N'-terminal domains C0 to C7 of cardiac myosin binding protein-C) fragment and an insoluble C'-terminal SpyTag-C8-C10 fragment that remains associated with thick filaments. Paste of new recombinant ()C0C7 domains is achieved by a covalent bond formed between SpyCatcher (-sc; encoded at the C'-termini of recombinant proteins) and SpyTag. Results show that loss of C0C7 reduced myofilament Ca sensitivity and increased cross-bridge cycling () at submaximal [Ca]. Acute loss of C0C7 also induced auto-oscillatory contractions at submaximal [Ca]. Ligation of C0C7 (exogenous [recombinant] N'-terminal domains C0 to C7 of cardiac myosin binding protein-C)-sc returned pCa and to control values and abolished oscillations, but phosphorylated (p)-C0C7-sc did not completely rescue these effects.
CONCLUSIONS
We describe a robust new approach for acute removal and replacement of cMyBP-C in situ. The method revealed a novel role for cMyBP-C N'-terminal domains to damp sarcomere-driven contractile waves (so-called spontaneous oscillatory contractions). Because phosphorylated (p)-C0C7-sc was less effective at damping contractile oscillations, results suggest that spontaneous oscillatory contractions may contribute to enhanced contractility in response to inotropic stimuli.
理由
肌球蛋白结合蛋白-C(cMyBP-C)是心脏收缩的关键调节因子,但 cMyBP-C 影响肌动蛋白和肌球蛋白的机制尚不完全清楚。一个主要障碍是 cMyBP-C 在粗丝上的定位可能是定义其相互作用的关键因素,但大多数体外研究无法复制肌球蛋白结合蛋白-C 在肌节内的独特空间排列。
目的
本研究的目的是验证一种新的杂交遗传/蛋白质工程方法,用于快速操纵肌节内原位的 cMyBP-C。
方法和结果
我们设计了一种新的切割和粘贴方法,用于从基因编辑的 Spy-C 小鼠的去污剂通透心肌细胞中去除和替换 cMyBP-C N'-末端结构域(C0-C7)。Spy-C 小鼠在 cMyBP-C 结构域 C7 和 C8 之间表达 TEVp(烟草蚀纹病毒蛋白酶)切割位点和 SpyTag(st)。TEVp 切割产生可溶的 N'-末端 C0C7(内源性[基因编码]肌球蛋白结合蛋白-C 的 N'-末端结构域 C0 至 C7 的片段)和不溶性 C'-末端 SpyTag-C8-C10 片段,该片段仍然与粗丝相关联。新的重组()C0C7 结构域的粘贴是通过 SpyCatcher(-sc;在重组蛋白的 C'-末端编码)和 SpyTag 之间形成的共价键实现的。结果表明,C0C7 的缺失降低了肌球蛋白丝对 Ca 的敏感性,并增加了亚最大[Ca]下的横桥循环()。急性 C0C7 缺失也在亚最大[Ca]下诱导自动振荡收缩。C0C7 的结扎(外源性[重组]肌球蛋白结合蛋白-C 的 N'-末端结构域 C0 至 C7)-sc 将 pCa 和 恢复到对照值,并消除了振荡,但磷酸化(p)-C0C7-sc 并未完全挽救这些效应。
结论
我们描述了一种用于肌节内原位急性去除和替换 cMyBP-C 的强大新方法。该方法揭示了 cMyBP-C N'-末端结构域在抑制肌节驱动的收缩波(所谓的自发振荡收缩)中的新作用。由于磷酸化(p)-C0C7-sc 对抑制收缩振荡的效果较差,结果表明,自发振荡收缩可能有助于对变力刺激的增强收缩性。
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