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蛋白激酶C靶向的心肌肌钙蛋白I磷酸化位点之间的功能通讯

Functional communication between PKC-targeted cardiac troponin I phosphorylation sites.

作者信息

Lang Sarah E, Stevenson Tamara K, Schatz Tabea M, Biesiadecki Brandon J, Westfall Margaret V

机构信息

Department of Cardiac Surgery, University of Michigan, Ann Arbor, MI 48109, United States; Program in Cellular and Molecular Biology, University of Michigan, Ann Arbor, MI 48109, United States.

Department of Cardiac Surgery, University of Michigan, Ann Arbor, MI 48109, United States.

出版信息

Arch Biochem Biophys. 2017 Aug 1;627:1-9. doi: 10.1016/j.abb.2017.05.019. Epub 2017 Jun 3.

Abstract

Increased protein kinase C (PKC) activity is associated with heart failure, and can target multiple cardiac troponin I (cTnI) residues in myocytes, including S23/24, S43/45 and T144. In earlier studies, cTnI-S43D and/or -S45D augmented S23/24 and T144 phosphorylation, which suggested there is communication between clusters. This communication is now explored by evaluating the impact of phospho-mimetic cTnI S43/45D combined with S23/24D (cTnIS4D) or T144D (cTnISDTD). Gene transfer of epitope-tagged cTnIS4D and cTnISDTD into adult cardiac myocytes progressively replaced endogenous cTnI. Partial replacement with cTnISDTD or cTnIS4D accelerated the time to peak (TTP) shortening and time to 50% re-lengthening (TTR) on day 2, but peak shortening was only diminished by cTnIS4D. Extensive cTnIS4D replacement continued to accelerate TTP, and decrease shortening amplitude, while TTR returned to baseline levels on day 4. In contrast, cTnISDTD modestly reduced shortening amplitude and continued to accelerate myocyte TTP and TTR. These results indicate cTnIS43/45 communicates with S23/24 and T144, with S23/24 exacerbating and T144 attenuating the S43/45D-dependent functional deficit. In addition, more severe functional alterations in cTnIS4D myocytes were accompanied by higher levels of secondary phosphorylation compared to cTnISDTD. These results suggest that secondary phosphorylation helps to maintain steady-state contractile function during chronic cTnI phosphorylation at PKC sites.

摘要

蛋白激酶C(PKC)活性增加与心力衰竭相关,且可作用于心肌细胞中的多个心肌肌钙蛋白I(cTnI)残基,包括S23/24、S43/45和T144。在早期研究中,cTnI-S43D和/或-S45D增强了S23/24和T144的磷酸化,这表明不同簇之间存在相互作用。现在通过评估模拟磷酸化的cTnI S43/45D与S23/24D(cTnIS4D)或T144D(cTnISDTD)组合的影响来探究这种相互作用。将带有表位标签的cTnIS4D和cTnISDTD基因转移到成年心肌细胞中逐渐取代内源性cTnI。用cTnISDTD或cTnIS4D部分替代在第2天加速了达到缩短峰值(TTP)的时间和达到50%重新延长(TTR)的时间,但只有cTnIS4D使缩短峰值降低。广泛的cTnIS4D替代持续加速TTP,并降低缩短幅度,而TTR在第4天恢复到基线水平。相比之下,cTnISDTD适度降低缩短幅度,并持续加速心肌细胞TTP和TTR。这些结果表明cTnIS43/45与S23/24和T144相互作用,其中S23/24加剧而T144减轻S43/45D依赖性功能缺陷。此外,与cTnISDTD相比,cTnIS4D心肌细胞中更严重的功能改变伴随着更高水平的二次磷酸化。这些结果表明二次磷酸化有助于在PKC位点慢性cTnI磷酸化过程中维持稳态收缩功能。

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