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MEK 抑制诱导心脏周细胞重编程促进缺血性心脏的血管生成和动脉生成。

Cardiac pericyte reprogramming by MEK inhibition promotes arteriologenesis and angiogenesis of the ischemic heart.

机构信息

Bristol Medical School, Translational Health Sciences, and Bristol Heart Institute, University of Bristol, Bristol, United Kingdom.

Department of Physiology, HeartOtago, School of Biomedical Sciences, University of Otago, Dunedin, New Zealand.

出版信息

J Clin Invest. 2022 May 16;132(10). doi: 10.1172/JCI152308.

DOI:10.1172/JCI152308
PMID:35349488
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9106362/
Abstract

Pericytes (PCs) are abundant yet remain the most enigmatic and ill-defined cell population in the heart. Here, we investigated whether PCs can be reprogrammed to aid neovascularization. Primary PCs from human and mouse hearts acquired cytoskeletal proteins typical of vascular smooth muscle cells (VSMCs) upon exclusion of EGF/bFGF, which signal through ERK1/2, or upon exposure to the MEK inhibitor PD0325901. Differentiated PCs became more proangiogenic, more responsive to vasoactive agents, and insensitive to chemoattractants. RNA sequencing revealed transcripts marking the PD0325901-induced transition into proangiogenic, stationary VSMC-like cells, including the unique expression of 2 angiogenesis-related markers, aquaporin 1 (AQP1) and cellular retinoic acid-binding protein 2 (CRABP2), which were further verified at the protein level. This enabled us to trace PCs during in vivo studies. In mice, implantation of Matrigel plugs containing human PCs plus PD0325901 promoted the formation of αSMA+ neovessels compared with PC only. Two-week oral administration of PD0325901 to mice increased the heart arteriolar density, total vascular area, arteriole coverage by PDGFRβ+AQP1+CRABP2+ PCs, and myocardial perfusion. Short-duration PD0325901 treatment of mice after myocardial infarction enhanced the peri-infarct vascularization, reduced the scar, and improved systolic function. In conclusion, myocardial PCs have intrinsic plasticity that can be pharmacologically modulated to promote reparative vascularization of the ischemic heart.

摘要

周细胞(PCs)数量丰富,但仍然是心脏中最神秘和定义不明确的细胞群体。在这里,我们研究了 PC 是否可以被重编程以帮助血管新生。当排除通过 ERK1/2 信号传导的 EGF/bFGF 或暴露于 MEK 抑制剂 PD0325901 时,来自人和鼠心脏的原代 PC 获得了典型的血管平滑肌细胞(VSMCs)的细胞骨架蛋白。分化的 PC 变得更具促血管生成性,对血管活性物质的反应更敏感,并且对趋化因子不敏感。RNA 测序揭示了标志着 PD0325901 诱导的向促血管生成、静止的 VSMC 样细胞转变的转录本,包括 2 个血管生成相关标记物 aquaporin 1(AQP1)和细胞视黄醇结合蛋白 2(CRABP2)的独特表达,这些标记物在蛋白质水平上进一步得到验证。这使我们能够在体内研究中追踪 PC。在小鼠中,植入含有人 PC 和 PD0325901 的 Matrigel 塞促进了与仅 PC 相比的αSMA+新血管的形成。在小鼠中进行为期 2 周的 PD0325901 口服给药增加了心脏小动脉密度、总血管面积、由 PDGFRβ+AQP1+CRABP2+PC 覆盖的小动脉、以及心肌灌注。在心肌梗死后对小鼠进行短时间的 PD0325901 治疗增强了梗死周围血管生成,减少了瘢痕,并改善了收缩功能。总之,心肌 PC 具有内在的可塑性,可以通过药理学调节来促进缺血心脏的修复性血管新生。

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