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小鼠主动脉生物力学受血管平滑肌细胞短期自噬缺陷的影响。

Mouse aortic biomechanics are affected by short-term defective autophagy in vascular smooth muscle cells.

机构信息

Laboratory of Physiopharmacology, University of Antwerp, Universiteitsplein 1, 2610, Antwerp, Belgium.

出版信息

J Physiol Sci. 2022 Mar 11;72(1):7. doi: 10.1186/s12576-022-00829-1.

DOI:10.1186/s12576-022-00829-1
PMID:35277137
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10717727/
Abstract

The physiology of vascular smooth muscle (VSMC) cells is affected by autophagy, a catabolic cellular mechanism responsible for nutrient recycling. Autophagy-inducing compounds may reverse arterial stiffening, whereas congenital VSMC-specific autophagy deficiency promotes arterial stiffening. The elevated aortic stiffness in 3.5-month-old C57Bl/6 mice, in which the essential autophagy-related gene Atg7 was specifically deleted in the VSMCs (Atg7 SM22α-Cre mice) was mainly due to passive aortic wall remodeling. The present study investigated whether aortic stiffness was also modulated by a shorter duration of autophagy deficiency. Therefore, aortic segments of 2-month-old Atg7 SM22α-Cre mice were studied. Similarly to the older mice, autophagy deficiency in VSMCs promoted aortic stiffening by elastin degradation and elastin breaks, and increased the expression of the calcium binding protein S100A4 (+ 157%), the aortic wall thickness (+ 27%), the sensitivity of the VSMCs to depolarization and the contribution of VGCC mediated Ca influx to α adrenergic contractions. Hence, all these phenomena occurred before the age of 2 months. When compared to autophagy deficiency in VSMCs at 3.5 months, shorter term autophagy deficiency led to higher segment diameter at 80 mmHg (+ 7% versus - 2%), normal baseline tonus (versus increased), unchanged IP-mediated phasic contractions (versus enhanced), and enhanced endothelial cell function (versus normal). Overall, and because in vivo cardiac parameters or aortic pulse wave velocity were not affected, these observations indicate that congenital autophagy deficiency in VSMCs of Atg7 SM22α-Cre mice initiates compensatory mechanisms to maintain circulatory homeostasis.

摘要

血管平滑肌(VSMC)细胞的生理学受自噬的影响,自噬是一种负责营养回收的分解代谢细胞机制。诱导自噬的化合物可能逆转动脉僵硬,而先天性 VSMC 特异性自噬缺乏则促进动脉僵硬。在 3.5 月龄的 C57Bl/6 小鼠中,关键的自噬相关基因 Atg7 在 VSMCs 中特异性缺失(Atg7 SM22α-Cre 小鼠)导致主动脉僵硬度升高,主要是由于主动脉壁的被动重塑。本研究探讨了自噬缺乏持续时间较短是否也会调节主动脉僵硬度。因此,研究了 2 月龄 Atg7 SM22α-Cre 小鼠的主动脉段。与老年小鼠一样,VSMC 中的自噬缺乏通过弹性蛋白降解和弹性蛋白断裂促进主动脉僵硬,并增加钙结合蛋白 S100A4 的表达(增加 157%)、主动脉壁厚度(增加 27%)、VSMC 对去极化的敏感性以及 VGCC 介导的 Ca 内流对α肾上腺素能收缩的贡献。因此,所有这些现象都发生在 2 个月之前。与 3.5 个月时 VSMC 中的自噬缺乏相比,短期自噬缺乏导致 80mmHg 时的节段直径更高(增加 7%,而减少 2%)、基础张力正常(而非增加)、IP 介导的相位收缩不变(而非增强)以及内皮细胞功能增强(而非正常)。总体而言,由于体内心脏参数或主动脉脉搏波速度不受影响,这些观察结果表明,Atg7 SM22α-Cre 小鼠的 VSMC 中先天性自噬缺乏会引发代偿机制以维持循环内稳态。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/342b/10717727/e849c81784a8/12576_2022_829_Fig8_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/342b/10717727/c31cf059a54d/12576_2022_829_Fig9_HTML.jpg
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