Collagen matricryptin promotes cardiac function by mediating scar formation.

EUREKA: Life Sciences Pub Date : 2023-03-01 DOI:10.2139/ssrn.4327441

Gabriel A. Grilo, Sirin N. Cakir, P. Shaver, R. Iyer, K. Whitehead, J. McClung, A. Vahdati, L. E. de Castro Brás

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引用次数: 2

Abstract

AIMS A peptide mimetic of a collagen-derived matricryptin (p1159) was shown to reduce left ventricular (LV) dilation and fibrosis after 7 days delivery in a mouse model of myocardial infarction (MI). This suggested p1159 long-term treatment post-MI could have beneficial effects and reduce/prevent adverse LV remodeling. This study aimed to test the potential of p1159 to reduce adverse cardiac remodeling in a chronic MI model and to elucidate p1159 mode-of-action. MATERIALS AND METHODS Using a permanent occlusion MI rodent model, animals received p1159 or vehicle solution up to 28 days. We assessed peptide treatment effects on scar composition and structure and on systolic function. To assess peptide effects on scar vascularization, a cohort of mice were injected with Griffonia simplicifolia isolectin-B4. To investigate p1159 mode-of-action, LV fibroblasts from naïve animals were treated with increasing doses of p1159. KEY FINDINGS Matricryptin p1159 significantly improved systolic function post-MI (2-fold greater EF compared to controls) by reducing left ventricular dilation and inducing the formation of a compliant and organized infarct scar, which promoted LV contractility and preserved the structural integrity of the heart. Specifically, infarcted scars from p1159-treated animals displayed collagen fibers aligned parallel to the epicardium, to resist circumferential stretching, with reduced levels of cross-linking, and improved tissue perfusion. In addition, we found that p1159 increases cardiac fibroblast migration by activating RhoA pathways via the membrane receptor integrin α4. SIGNIFICANCE Our data indicate p1159 treatment reduced adverse LV remodeling post-MI by modulating the deposition, arrangement, and perfusion of the fibrotic scar.

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胶原基质蛋白通过介导瘢痕形成促进心脏功能。

在心肌梗死(MI)小鼠模型中，胶原来源的基质蛋白(p1159)的AIMSA肽模拟物在7 天后显示可减少左心室(LV)扩张和纤维化。这表明心肌梗死后长期治疗p1159可产生有益作用并减少/预防不良左室重构。本研究旨在测试p1159在慢性心肌梗死模型中减少不良心脏重构的潜力，并阐明p1159的作用方式。材料与方法采用永久性闭塞性心肌梗死啮齿类动物模型，动物接受p1159或载药溶液治疗28 天。我们评估了肽治疗对疤痕组成和结构以及收缩功能的影响。为了评估肽对疤痕血管形成的影响，我们给一组小鼠注射了单纯Griffonia isolectin-B4。为了研究p1159的作用模式，用增加剂量的p1159处理naïve动物的LV成纤维细胞。主要发现:matricryptin p1159通过降低左室扩张和诱导形成顺从和有组织的梗死疤痕，促进左室收缩并保持心脏结构完整性，显著改善心肌梗死后的收缩功能(EF是对照组的2倍)。具体来说，p1159治疗动物的梗死疤痕显示胶原纤维平行于心外膜排列，以抵抗周向拉伸，交联水平降低，组织灌注改善。此外，我们发现p1159通过膜受体整合素α4激活RhoA通路，从而增加心脏成纤维细胞的迁移。我们的数据表明p1159治疗通过调节纤维化疤痕的沉积、排列和灌注来减少心肌梗死后不良左室重塑。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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EUREKA: Life Sciences

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5 weeks