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出生后 TGFβ 信号中断后主动脉重构的多尺度计算模型。

Multiscale computational model of aortic remodeling following postnatal disruption of TGFβ signaling.

机构信息

Department of Biomedical Engineering, Yale University, New Haven, CT, USA.

Department of Surgery, Cardiothoracic, Yale School of Medicine, New Haven, CT, USA; Vascular Biology and Therapeutics Program, Yale School of Medicine, New Haven, CT, USA.

出版信息

J Biomech. 2024 May;169:112152. doi: 10.1016/j.jbiomech.2024.112152. Epub 2024 May 15.

Abstract

The healthy adult aorta is a remarkably resilient structure, able to resist relentless cardiac-induced and hemodynamic loads under normal conditions. Fundamental to such mechanical homeostasis is the mechano-sensitive cell signaling that controls gene products and thus the structural integrity of the wall. Mouse models have shown that smooth muscle cell-specific disruption of transforming growth factor-beta (TGFβ) signaling during postnatal development compromises this resiliency, rendering the aortic wall susceptible to aneurysm and dissection under normal mechanical loading. By contrast, disruption of such signaling in the adult aorta appears to introduce a vulnerability that remains hidden under normal loading, but manifests under increased loading as experienced during hypertension. We present a multiscale (transcript to tissue) computational model to examine possible reasons for compromised mechanical homeostasis in the adult aorta following reduced TGFβ signaling in smooth muscle cells.

摘要

健康的成人主动脉是一种具有显著弹性的结构,能够在正常情况下抵抗持续不断的心脏引起的和血液动力学负荷。这种机械内稳态的基础是机械敏感细胞信号转导,它控制基因产物,从而控制壁的结构完整性。小鼠模型表明,在出生后发育过程中,平滑肌细胞中转化生长因子-β(TGFβ)信号的特异性破坏会损害这种弹性,使主动脉壁在正常机械负荷下容易发生动脉瘤和夹层。相比之下,在成年主动脉中破坏这种信号似乎会引入一种脆弱性,这种脆弱性在正常负荷下是隐藏的,但在高血压期间经历的增加负荷下表现出来。我们提出了一个多尺度(从转录组到组织)计算模型,以研究在平滑肌细胞中 TGFβ 信号转导减少后,成人主动脉机械内稳态受损的可能原因。

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