Smooth muscle Cxcl12 activation is associated with vascular remodeling in flow-induced pulmonary hypertension

bioRxiv - Molecular Biology Pub Date : 2024-09-10 DOI:10.1101/2024.09.10.611870

Timothy Klouda, Savas T. Tsikis, Thomas I. Hirsch, Yunhye Kim, Tiffany Liu, Ingeborg Friehs, John Y.-J. Shyy, Gary Visner, Benjamin A Raby, Mark Puder, Ke Yuan

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Abstract

Patients with congenital heart disease (CHD) resulting in significant left-to-right shunting of blood are at risk for the development of pulmonary arterial hypertension (PAH). The underlying mechanism by which pulmonary overcirculation and shear stress lead to vascular remodeling remains unclear. Our study established a new two-hit murine model of severe pulmonary hypertension (PH) by combining left pneumonectomy and exposure to hypoxia (LP/Hx). Utilizing transgenic reporter lines, immunofluorescence staining, and advanced microscopy, we conducted cell-lineage tracing experiments for endothelial cells (ECs), smooth muscle cells (SMCs), and pericytes. We identified that SMCs is a primary contributor to distal arteriolar remodeling after LP/Hx. Subsequent qPCR analysis on isolated cells demonstrated that Cxcl12 was upregulated in both ECs and SMCs from LP/Hx animals. Likewise, CXCL12 was overexpressed in the SMC layer of arterioles in patients with acyanotic PAH-CHD. These findings provide novel insights into the contribution of SMCs and Cxcl12 to pulmonary flow-induced vascular remodeling. This newly established murine model of PH will serve as a new tool for research and targeted therapeutics for patients with PAH.

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平滑肌 Cxcl12 激活与血流诱导的肺动脉高压的血管重塑有关

先天性心脏病（CHD）导致大量血液左向右分流，患者有患肺动脉高压（PAH）的风险。肺过度循环和剪切应力导致血管重塑的基本机制仍不清楚。我们的研究通过结合左肺切除术和暴露于缺氧（LP/Hx）建立了一种新的两击重度肺动脉高压（PH）小鼠模型。利用转基因报告基因系、免疫荧光染色和先进的显微镜技术，我们对内皮细胞（EC）、平滑肌细胞（SMC）和周细胞进行了细胞系追踪实验。我们发现，SMC 是 LP/Hx 后远端动脉重塑的主要因素。随后对分离细胞进行的 qPCR 分析表明，在 LP/Hx 动物的 EC 和 SMC 中，Cxcl12 均上调。同样，CXCL12 在急性 PAH-CHD 患者的动脉血管 SMC 层中过度表达。这些发现为了解 SMC 和 Cxcl12 对肺血流诱导的血管重塑的贡献提供了新的视角。这种新建立的 PH 小鼠模型将成为 PAH 患者研究和靶向治疗的新工具。

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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bioRxiv - Molecular Biology

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