机械拉伸上调人心脏成纤维细胞b型利钠肽系统:对转化生长因子-β介导的纤维化的可能防御。

Chris J Watson, Dermot Phelan, Maojia Xu, Patrick Collier, Roisin Neary, Albert Smolenski, Mark Ledwidge, Kenneth McDonald, John Baugh
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引用次数: 50

摘要

背景:心脏的机械负荷与细胞外基质蛋白的过度沉积和心脏纤维化的发生有关。这可能导致心室顺应性降低、舒张功能障碍和心力衰竭。细胞外基质合成主要由心脏成纤维细胞,更具体地说,是活跃的肌成纤维细胞调节。机械拉伸对人心脏成纤维细胞对促纤维化刺激(如转化生长因子β (TGFβ))的反应的影响尚不清楚,拉伸对b型利钠肽(BNP)和利钠肽受体A (NPRA)表达的影响也不清楚。BNP通过NPRA起作用,已被证明在心脏纤维化的调节中发挥作用。方法和结果:观察周期性机械拉伸对人心脏原代成纤维细胞tgf - β诱导分化的影响,以及对拉伸反应的差异是否与利钠肽系统的变化有关。周期性机械拉伸可减弱tgf - β诱导肌成纤维细胞分化的作用。这一发现与一项新的观察结果相关联,即机械拉伸可以增加人心脏成纤维细胞中BNP和NPRA的表达,这可能在调节心肌纤维化中具有重要意义。外源性BNP处理进一步降低了TGFβ对机械拉伸成纤维细胞的效力。结论:我们假设拉伸诱导的利钠肽系统的上调可能有助于观察到的肌成纤维细胞分化的减少。
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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Mechanical stretch up-regulates the B-type natriuretic peptide system in human cardiac fibroblasts: a possible defense against transforming growth factor-β mediated fibrosis.

Background: Mechanical overload of the heart is associated with excessive deposition of extracellular matrix proteins and the development of cardiac fibrosis. This can result in reduced ventricular compliance, diastolic dysfunction, and heart failure. Extracellular matrix synthesis is regulated primarily by cardiac fibroblasts, more specifically, the active myofibroblast. The influence of mechanical stretch on human cardiac fibroblasts' response to pro-fibrotic stimuli, such as transforming growth factor beta (TGFβ), is unknown as is the impact of stretch on B-type natriuretic peptide (BNP) and natriuretic peptide receptor A (NPRA) expression. BNP, acting via NPRA, has been shown to play a role in modulation of cardiac fibrosis.

Methods and results: The effect of cyclical mechanical stretch on TGFβ induction of myofibroblast differentiation in primary human cardiac fibroblasts and whether differences in response to stretch were associated with changes in the natriuretic peptide system were investigated. Cyclical mechanical stretch attenuated the effectiveness of TGFβ in inducing myofibroblast differentiation. This finding was associated with a novel observation that mechanical stretch can increase BNP and NPRA expression in human cardiac fibroblasts, which could have important implications in modulating myocardial fibrosis. Exogenous BNP treatment further reduced the potency of TGFβ on mechanically stretched fibroblasts.

Conclusion: We postulate that stretch induced up-regulation of the natriuretic peptide system may contribute to the observed reduction in myofibroblast differentiation.

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