心肌肌钙蛋白I突变P83S对收缩特性的影响及蛋白激酶A介导的磷酸化调节作用

Effects of Cardiac Troponin I Mutation P83S on Contractile Properties and the Modulation by PKA-Mediated Phosphorylation.

作者信息

Cheng Yuanhua, Lindert Steffen, Oxenford Lucas, Tu An-Yue, McCulloch Andrew D, Regnier Michael

机构信息

Department of Bioengineering, University of Washington , Seattle, Washington 98105, United States.

National Biomedical Computation Resource, University of California San Diego , La Jolla, California 92093, United States.

出版信息

J Phys Chem B. 2016 Aug 25;120(33):8238-53. doi: 10.1021/acs.jpcb.6b01859. Epub 2016 May 18.

DOI:10.1021/acs.jpcb.6b01859

PMID:27150586

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5001945/

Abstract

cTnI(P82S) (cTnI(P83S) in rodents) resides at the I-T arm of cardiac troponin I (cTnI) and was initially identified as a disease-causing mutation of hypertrophic cardiomyopathy (HCM). However, later studies suggested this may not be true. We recently reported that introduction of an HCM-associated mutation in either inhibitory-peptide (cTnI(R146G)) or cardiac-specific N-terminus (cTnI(R21C)) of cTnI blunts the PKA-mediated modulation on myofibril activation/relaxation kinetics by prohibiting formation of intrasubunit contacts between these regions. Here, we tested whether this also occurs for cTnI(P83S). cTnI(P83S) increased both Ca(2+) binding affinity to cTn (KCa) and affinity of cTnC for cTnI (KC-I), and eliminated the reduction of KCa and KC-I observed for phosphorylated-cTnI(WT). In isolated myofibrils, cTnI(P83S) maintained maximal tension (TMAX) and Ca(2+) sensitivity of tension (pCa50). For cTnI(WT) myofibrils, PKA-mediated phosphorylation decreased pCa50 and sped up the slow-phase relaxation (especially for those Ca(2+) conditions that heart performs in vivo). Those effects were blunted for cTnI(P83S) myofibrils. Molecular-dynamics simulations suggested cTnI(P83S) moderately inhibited an intrasubunit interaction formation between inhibitory-peptide and N-terminus, but this "blunting" effect was weaker than that with cTnI(R146G) or cTnI(R21C). In summary, cTnI(P83S) has similar effects as other HCM-associated cTnI mutations on troponin and myofibril function even though it is in the I-T arm of cTnI.

摘要

肌钙蛋白I（cTnI）的I-T臂上存在肌钙蛋白I（cTnI）的P82S突变（啮齿动物中为cTnI的P83S突变），最初被鉴定为肥厚型心肌病（HCM）的致病突变。然而，后来的研究表明情况可能并非如此。我们最近报道，在cTnI的抑制肽（cTnI(R146G)）或心脏特异性N端（cTnI(R21C)）中引入与HCM相关的突变，会通过阻止这些区域之间亚基内接触的形成，减弱PKA介导的对肌原纤维激活/松弛动力学的调节。在此，我们测试了cTnI(P83S)是否也会出现这种情况。cTnI(P83S)增加了Ca(2+)与肌钙蛋白（KCa）的结合亲和力以及肌钙蛋白C与cTnI（KC-I）的亲和力，并消除了磷酸化cTnI(WT)时观察到的KCa和KC-I的降低。在分离的肌原纤维中，cTnI(P83S)维持了最大张力（TMAX）和张力的Ca(2+)敏感性（pCa50）。对于cTnI(WT)肌原纤维，PKA介导的磷酸化降低了pCa50并加速了慢相松弛（特别是在心脏在体内发挥作用的那些Ca(2+)条件下）。对于cTnI(P83S)肌原纤维，这些效应减弱。分子动力学模拟表明，cTnI(P83S)适度抑制了抑制肽与N端之间亚基内相互作用的形成，但这种“减弱”效应比cTnI(R146G)或cTnI(R21C)的要弱。总之，cTnI(P83S)对肌钙蛋白和肌原纤维功能具有与其他与HCM相关的cTnI突变相似的作用，尽管它位于cTnI的I-T臂上。

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