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mTORC1是一种关键调节因子,可介导氧糖剥夺(OGD)和转化生长因子β1(TGFβ1)诱导的心脏成纤维细胞向肌成纤维细胞转化以及硫酸软骨素-4-硫酸盐的表达。

mTORC1 is a key regulator that mediates OGD- and TGFβ1-induced myofibroblast transformation and chondroitin-4-sulfate expression in cardiac fibroblasts.

作者信息

Li Chao, Zhang Zheng, Peng Yu, Zhang Yanying, Kang Wanrong, Li Yingdong, Hai Yang

机构信息

The First Clinical College, Lanzhou University, Lanzhou, Gansu 730000, P.R. China.

Gansu Key Laboratory of Cardiovascular Disease, The First Hospital of Lanzhou University, Lanzhou, Gansu 730000, P.R. China.

出版信息

Exp Ther Med. 2022 Jun;23(6):413. doi: 10.3892/etm.2022.11340. Epub 2022 Apr 27.

DOI:10.3892/etm.2022.11340
PMID:35601064
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9117951/
Abstract

Ischemia-reperfusion infarct-derived chondroitin sulfate proteoglycans (CSPGs) are important for sustaining denervation of the infarct. Sympathetic denervation within the heart after myocardial infarction (MI) predicts the probability of a higher risk for serious ventricular arrhythmias. Chondroitin-4-sulfate (C4S) is the predominant chondroitin sulfate component in the heart. However, the mechanisms that induce CSPG expression in fibroblasts following MI remain to be elucidated. The present study found that oxygen-glucose deprivation (OGD) and TGFβ1 stimulation induced myofibroblast transformation and C4S synthesis by using reverse transcription-quantitative PCR, western blotting and immunofluorescence. MTT assay was used to detect cell viability following OGD or OGD + TGF lotreatment. Using the PI3K inhibitor ZSTK474, the Akt inhibitor MK2206, or the mTOR inhibitor AZD8055, it was observed that OGD and TGFβ1 stimulation induced myofibroblast transformation and that C4S synthesis was mTOR-dependent, whereas the upstream canonical PI3K/Akt axis was dispensable by using western blotting and immunofluorescence. siRNA knockdown of Smad3, Raptor, or Rictor, indicated that mTORC1 was critical for promoting OGD- and TGFβ1-induced myofibroblast transformation and C4S synthesis by using western blotting and immunofluorescence. This response, may be mediated via cooperation between canonical Smad3 and mTORC1 signaling. These data suggested that inhibiting myofibroblast transformation may reduce C4S synthesis. Target mTORC1 may provide additional insight into the regeneration of sympathetic nerves and the reduction of fibrosis after MI at the cellular level. These findings may contribute to the understanding of the mechanism by which C4S overproduction in the hearts of patients with MI is associated with myocardial fibrosis.

摘要

缺血再灌注梗死衍生的硫酸软骨素蛋白聚糖(CSPGs)对于维持梗死区的去神经支配很重要。心肌梗死(MI)后心脏内的交感神经去支配预示着发生严重室性心律失常的风险更高。硫酸软骨素-4-硫酸盐(C4S)是心脏中主要的硫酸软骨素成分。然而,MI后诱导成纤维细胞中CSPG表达的机制仍有待阐明。本研究通过逆转录定量PCR、蛋白质印迹和免疫荧光发现,氧葡萄糖剥夺(OGD)和TGFβ1刺激可诱导成肌纤维细胞转化和C4S合成。MTT法用于检测OGD或OGD + TGFβ1处理后的细胞活力。使用PI3K抑制剂ZSTK474、Akt抑制剂MK2206或mTOR抑制剂AZD8055,通过蛋白质印迹和免疫荧光观察到OGD和TGFβ1刺激可诱导成肌纤维细胞转化,且C4S合成依赖于mTOR,而上游的经典PI3K/Akt轴则是可有可无的。通过蛋白质印迹和免疫荧光对Smad3、Raptor或Rictor进行siRNA敲低表明,mTORC1对于促进OGD和TGFβ1诱导的成肌纤维细胞转化和C4S合成至关重要。这种反应可能是通过经典Smad3和mTORC1信号之间的协同作用介导的。这些数据表明,抑制成肌纤维细胞转化可能会减少C4S合成。靶向mTORC1可能会在细胞水平上为MI后交感神经再生和纤维化减轻提供更多见解。这些发现可能有助于理解MI患者心脏中C4S过度产生与心肌纤维化相关的机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/8cd4e4fb2f98/etm-23-06-11340-g08.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/3d993ddbc9bc/etm-23-06-11340-g00.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/3f6070d473c3/etm-23-06-11340-g01.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/0959fbfccc58/etm-23-06-11340-g02.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/dccd486bb35f/etm-23-06-11340-g03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/a46e0027af57/etm-23-06-11340-g04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/6b4eaa7183bf/etm-23-06-11340-g05.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/980a1893348d/etm-23-06-11340-g06.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/9db93a8e5b54/etm-23-06-11340-g07.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/8cd4e4fb2f98/etm-23-06-11340-g08.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/3d993ddbc9bc/etm-23-06-11340-g00.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/3f6070d473c3/etm-23-06-11340-g01.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/0959fbfccc58/etm-23-06-11340-g02.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/dccd486bb35f/etm-23-06-11340-g03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/a46e0027af57/etm-23-06-11340-g04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/6b4eaa7183bf/etm-23-06-11340-g05.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/980a1893348d/etm-23-06-11340-g06.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/9db93a8e5b54/etm-23-06-11340-g07.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a64d/9117951/8cd4e4fb2f98/etm-23-06-11340-g08.jpg

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