Arg92Leu-cTnT 改变了 cTnC-cTnI 接口,破坏了 PKA 介导的松弛。

IF 16.5 1区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Circulation research Pub Date : 2024-09-27 DOI:10.1161/circresaha.124.325223
Melissa L Lynn,Jesus Jimenez,Romi L Castillo,Catherine Vasquez,Matthew M Klass,Anthony Baldo,Andrew Kim,Cyonna Gibson,Anne M Murphy,Jil C Tardiff
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We hypothesized that mutation-specific, allosterically mediated, changes to the cTnC (cardiac troponin C)-cTnI (cardiac troponin I) interface can account for the development of early-onset diastolic dysfunction via decreased PKA accessibility to cTnI.\r\n\r\nMETHODS\r\nHCM mutations R92L-cTnT (cardiac troponin T; Arg92Leu) and Δ160E-cTnT (Glu160 deletion) were studied in vivo, in vitro, and in silico via 2-dimensional echocardiography, Western blotting, ex vivo hemodynamics, stopped-flow kinetics, time-resolved fluorescence resonance energy transfer, and molecular dynamics simulations.\r\n\r\nRESULTS\r\nThe HCM-causative mutations R92L-cTnT and Δ160E-cTnT result in different time-of-onset diastolic dysfunction. R92L-cTnT demonstrated early-onset diastolic dysfunction accompanied by a localized decrease in phosphorylation of cTnI. Constitutive phosphorylation of cTnI (cTnI-D23D24) was sufficient to recover diastolic function to non-Tg levels only for R92L-cTnT. Mutation-specific changes in Ca2+ dissociation rates associated with R92L-cTnT reconstituted with cTnI-D23D24 led us to investigate potential involvement of structural changes in the cTnC-cTnI interface as an explanation for these observations. We probed the interface via time-resolved fluorescence resonance energy transfer revealing a repositioning of the N-terminus of cTnI, closer to cTnC, and concomitant decreases in distance distributions at sites flanking the PKA consensus sequence. 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引用次数: 0

摘要

背景左心室松弛功能受损、充盈压过高以及 Ca2+ 平衡失调是肥厚型心肌病 (HCM) 导致舒张功能障碍的常见原因。研究表明,在临床前 HCM 患者群中,肌节基因阳性的患者很早就发现松弛功能受损,这表明肌丝调节因子可能参与了松弛功能。目前还缺乏对肌丝水平机制的分子水平的了解。我们假设,由突变特异性异构体介导的 cTnC(心肌肌钙蛋白 C)-cTnI(心肌肌钙蛋白 I)界面变化可通过降低 PKA 对 cTnI 的可及性而导致早发舒张功能障碍。方法通过二维超声心动图、Western 印迹、体外血流动力学、停流动力学、时间分辨荧光共振能量转移和分子动力学模拟,对 HCM 基因突变 R92L-cTnT(心肌肌钙蛋白 T;Arg92Leu)和 Δ160E-cTnT(Glu160 缺失)进行了体内、体外和硅学研究。结果HCM致病突变 R92L-cTnT 和 Δ160E-cTnT导致舒张功能障碍的发病时间不同。R92L-cTnT 表现出早发性舒张功能障碍,并伴有局部 cTnI 磷酸化的降低。只有 R92L-cTnT 的 cTnI(cTnI-D23D24)持续磷酸化足以使舒张功能恢复到非 Tg 水平。与 cTnI-D23D24 重组的 R92L-cTnT 相关的 Ca2+ 解离率的突变特异性变化促使我们研究 cTnC-cTnI 界面结构变化的潜在参与,以解释这些观察结果。我们通过时间分辨荧光共振能量转移对界面进行了探测,发现 cTnI 的 N 端重新定位,更靠近 cTnC,同时 PKA 共识序列侧翼位点的距离分布减少。这些数据表明,在 HCM 亚群中观察到的早期舒张功能障碍可归因于 cTnC-cTnI 接口上异位介导的结构变化,这种变化损害了 PKA 的可及性,从而削弱了 β 肾上腺素能的反应性,并确定了一个潜在的治疗干预分子靶点。
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Arg92Leu-cTnT Alters the cTnC-cTnI Interface Disrupting PKA-Mediated Relaxation.
BACKGROUND Impaired left ventricular relaxation, high filling pressures, and dysregulation of Ca2+ homeostasis are common findings contributing to diastolic dysfunction in hypertrophic cardiomyopathy (HCM). Studies have shown that impaired relaxation is an early observation in the sarcomere-gene-positive preclinical HCM cohort, which suggests the potential involvement of myofilament regulators in relaxation. A molecular-level understanding of mechanism(s) at the level of the myofilament is lacking. We hypothesized that mutation-specific, allosterically mediated, changes to the cTnC (cardiac troponin C)-cTnI (cardiac troponin I) interface can account for the development of early-onset diastolic dysfunction via decreased PKA accessibility to cTnI. METHODS HCM mutations R92L-cTnT (cardiac troponin T; Arg92Leu) and Δ160E-cTnT (Glu160 deletion) were studied in vivo, in vitro, and in silico via 2-dimensional echocardiography, Western blotting, ex vivo hemodynamics, stopped-flow kinetics, time-resolved fluorescence resonance energy transfer, and molecular dynamics simulations. RESULTS The HCM-causative mutations R92L-cTnT and Δ160E-cTnT result in different time-of-onset diastolic dysfunction. R92L-cTnT demonstrated early-onset diastolic dysfunction accompanied by a localized decrease in phosphorylation of cTnI. Constitutive phosphorylation of cTnI (cTnI-D23D24) was sufficient to recover diastolic function to non-Tg levels only for R92L-cTnT. Mutation-specific changes in Ca2+ dissociation rates associated with R92L-cTnT reconstituted with cTnI-D23D24 led us to investigate potential involvement of structural changes in the cTnC-cTnI interface as an explanation for these observations. We probed the interface via time-resolved fluorescence resonance energy transfer revealing a repositioning of the N-terminus of cTnI, closer to cTnC, and concomitant decreases in distance distributions at sites flanking the PKA consensus sequence. Implementing time-resolved fluorescence resonance energy transfer distances as constraints into our atomistic model identified additional electrostatic interactions at the consensus sequence. CONCLUSIONS These data show that the early diastolic dysfunction observed in a subset of HCM is attributable to allosterically mediated structural changes at the cTnC-cTnI interface that impair accessibility of PKA, thereby blunting β-adrenergic responsiveness and identifying a potential molecular target for therapeutic intervention.
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来源期刊
Circulation research
Circulation research 医学-外周血管病
CiteScore
29.60
自引率
2.00%
发文量
535
审稿时长
3-6 weeks
期刊介绍: Circulation Research is a peer-reviewed journal that serves as a forum for the highest quality research in basic cardiovascular biology. The journal publishes studies that utilize state-of-the-art approaches to investigate mechanisms of human disease, as well as translational and clinical research that provide fundamental insights into the basis of disease and the mechanism of therapies. Circulation Research has a broad audience that includes clinical and academic cardiologists, basic cardiovascular scientists, physiologists, cellular and molecular biologists, and cardiovascular pharmacologists. The journal aims to advance the understanding of cardiovascular biology and disease by disseminating cutting-edge research to these diverse communities. In terms of indexing, Circulation Research is included in several prominent scientific databases, including BIOSIS, CAB Abstracts, Chemical Abstracts, Current Contents, EMBASE, and MEDLINE. This ensures that the journal's articles are easily discoverable and accessible to researchers in the field. Overall, Circulation Research is a reputable publication that attracts high-quality research and provides a platform for the dissemination of important findings in basic cardiovascular biology and its translational and clinical applications.
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