S100A1ct: A Synthetic Peptide Derived From S100A1 Protein Improves Cardiac Performance and Survival in Preclinical Heart Failure Models.

IF 35.5 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Circulation Pub Date : 2024-11-21 DOI:10.1161/CIRCULATIONAHA.123.066961

Dorothea Kehr, Julia Ritterhoff, Manuel Glaser, Lukas Jarosch, Rafael E Salazar, Kristin Spaich, Karl Varadi, Jennifer Birkenstock, Michael Egger, Erhe Gao, Walter J Koch, Max Sauter, Marc Freichel, Hugo A Katus, Norbert Frey, Andreas Jungmann, Cornelius Busch, Paul J Mather, Arjang Ruhparwar, Martin Busch, Mirko Völkers, Rebecca C Wade, Patrick Most

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Abstract

Background: The EF-hand Ca²⁺ sensor protein S100A1 has been identified as a molecular regulator and enhancer of cardiac performance. The ability of S100A1 to recognize and modulate the activity of targets such as SERCA2a (sarcoplasmic reticulum Ca²⁺ ATPase) and RyR2 (ryanodine receptor 2) in cardiomyocytes has mostly been ascribed to its hydrophobic C-terminal α-helix (residues 75-94). We hypothesized that a synthetic peptide consisting of residues 75 through 94 of S100A1 and an N-terminal solubilization tag (S100A1ct) could mimic the performance-enhancing effects of S100A1 and may be suitable as a peptide therapeutic to improve the function of diseased hearts.

Methods: We applied an integrative translational research pipeline ranging from in silico computational molecular modeling and in vitro biochemical molecular assays as well as isolated rodent and human cardiomyocyte performance assessments to in vivo safety and efficacy studies in small and large animal cardiac disease models.

Results: We characterize S100A1ct as a cell-penetrating peptide with positive inotropic and antiarrhythmic properties in normal and failing myocardium in vitro and in vivo. This activity translates into improved contractile performance and survival in preclinical heart failure models with reduced ejection fraction after S100A1ct systemic administration. S100A1ct exerts a fast and sustained dose-dependent enhancement of cardiomyocyte Ca²⁺ cycling and prevents β-adrenergic receptor-triggered Ca²⁺ imbalances by targeting SERCA2a and RyR2 activity. In line with the S100A1ct-mediated enhancement of SERCA2a activity, modeling suggests an interaction of the peptide with the transmembrane segments of the sarcoplasmic Ca²⁺ pump. Incorporation of a cardiomyocyte-targeting peptide tag into S100A1ct (cor-S100A1ct) further enhanced its biological and therapeutic potency in vitro and in vivo.

Conclusions: S100A1ct is a promising lead for the development of novel peptide-based therapeutics against heart failure with reduced ejection fraction.

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S100A1ct：从 S100A1 蛋白中提取的合成肽能改善临床前心力衰竭模型的心脏功能和存活率

背景：EF 手 Ca2+ 传感器蛋白 S100A1 已被确定为心脏性能的分子调节器和增强器。S100A1 能够识别并调节心肌细胞中 SERCA2a（肌质网 Ca2+ ATP 酶）和 RyR2（雷诺丁受体 2）等靶标的活性，这主要归因于其疏水的 C 端 α-螺旋（残基 75-94）。我们假设，由 S100A1 的第 75 至 94 个残基和 N 端溶解标签（S100A1ct）组成的合成肽可以模拟 S100A1 的性能增强效应，并可能适合作为改善患病心脏功能的肽疗法：我们应用了一个综合转化研究流水线，从硅计算分子建模、体外生化分子测定、离体啮齿动物和人类心肌细胞性能评估，到在小型和大型动物心脏疾病模型中进行体内安全性和有效性研究：我们发现 S100A1ct 是一种细胞穿透肽，在体外和体内对正常和衰竭心肌具有正性肌力和抗心律失常特性。在射血分数降低的临床前心力衰竭模型中，S100A1ct 的这种活性可转化为改善的收缩性能和存活率。S100A1ct 通过靶向 SERCA2a 和 RyR2 活性，对心肌细胞 Ca2+ 循环产生快速和持续的剂量依赖性增强作用，并能防止β-肾上腺素能受体触发的 Ca2+ 失衡。与 S100A1ct 介导的 SERCA2a 活性增强相一致的是，建模表明该肽与肌浆 Ca2+ 泵的跨膜片段相互作用。在 S100A1ct（cor-S100A1ct）中加入心肌细胞靶向肽标签进一步增强了其在体外和体内的生物和治疗效力：结论：S100A1ct是开发基于肽的新型射血分数减低性心力衰竭治疗药物的一个很有前景的先导物。

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来源期刊

Circulation 医学-外周血管病

CiteScore

45.70

自引率

2.10%

发文量

1473

审稿时长

2 months

期刊介绍： Circulation is a platform that publishes a diverse range of content related to cardiovascular health and disease. This includes original research manuscripts, review articles, and other contributions spanning observational studies, clinical trials, epidemiology, health services, outcomes studies, and advancements in basic and translational research. The journal serves as a vital resource for professionals and researchers in the field of cardiovascular health, providing a comprehensive platform for disseminating knowledge and fostering advancements in the understanding and management of cardiovascular issues.