活化素 A 是由活化免疫细胞分泌的 IL-1β 引发的脂肪基质细胞表型转换的主调节因子

Stem cells and development Pub Date : 2024-08-01 Epub Date: 2024-07-05 DOI:10.1089/scd.2024.0092
Sahana Manohar-Sindhu, Stephanie Merfeld-Clauss, Keith L March, Dmitry O Traktuev
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引用次数: 0

摘要

长时间的组织缺血和炎症会导致器官功能衰退,并常常伴有微血管稀疏、纤维化和全身性活化素 A(ActA)升高,而活化素 A 的水平常常与疾病的严重程度相关。间充质基质细胞普遍存在于血管周围的生态位中,很可能参与了组织的稳态和病理过程。本研究调查了炎症细胞对脂肪基质细胞(ASC)表型调节的影响以及 ActA 在这一过程中的作用。外周血单核细胞经 LPS(aPBMC)活化后呈现给 ASC。评估了 ASC 中平滑肌/肌成纤维细胞标记物和 ActA、TGFβ1-3 和 CTGF 的表达。采用沉默法剖析了 aPBMC 诱导 ASC 获得肌成纤维细胞表型的信号级联。与 aPBMC 共同培养或暴露于 aPBMC 分泌物组的 ASC 上调了平滑肌细胞标志物 αSMA、SM22α 和 Calponin I,增加了收缩性,并启动了 ActA 的表达。IL-1β 足以复制这种反应,而阻断 IL-1β 则可消除 aPBMC 的作用。源自 ASC 的 ActA 可刺激 ASC 中 CTGF 和 αSMA 的表达;后者与 CTGF 无关。IL-1β 或富含 ActA 的培养基对 ASC 中 αSMA 的诱导依赖于细胞外酶活性。ActA能上调ASC中几种细胞外基质蛋白的mRNA水平,但上调程度低于TGFβ1,并能轻微增加细胞的收缩性。总之,该研究表明,aPBMC通过IL-1β-ActA信号轴诱导血管周围祖细胞(如ASC)形成具有弱纤维活性的肌成纤维细胞表型,同时促进CTGF的分泌,而这些作用需要ActA胞外酶的处理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Activin A Is a Master Regulator of Phenotypic Switch in Adipose Stromal Cells Initiated by Activated Immune Cell-Secreted Interleukin-1β.

Prolonged tissue ischemia and inflammation lead to organ deterioration and are often accompanied by microvasculature rarefaction, fibrosis, and elevated systemic Activin A (ActA), the level of which frequently correlates with disease severity. Mesenchymal stromal cells are prevalent in the perivascular niche and are likely involved in tissue homeostasis and pathology. This study investigated the effects of inflammatory cells on modulation of phenotype of adipose mesenchymal stromal cells (ASC) and the role of ActA in this process. Peripheral blood mononuclear cells were activated with lipopolysaccharide (activated peripheral blood mononuclear cells [aPBMC]) and presented to ASC. Expression of smooth muscle/myofibroblast markers, ActA, transforming growth factors beta 1-3 (TGFβ1-3), and connective tissue growth factor (CTGF) was assessed in ASC. Silencing approaches were used to dissect the signaling cascade of aPBMC-induced acquisition of myofibroblast phenotype by ASC. ASC cocultured with aPBMC or exposed to the secretome of aPBMC upregulated smooth muscle cell markers alpha smooth muscle actin (αSMA), SM22α, and Calponin I; increased contractility; and initiated expression of ActA. Interleukin (IL)-1β was sufficient to replicate this response, whereas blocking IL-1β eliminated aPBMC effects. ASC-derived ActA stimulated CTGF and αSMA expression in ASC; the latter independent of CTGF. Induction of αSMA in ASC by IL-1β or ActA-enriched media relied on extracellular enzymatic activity. ActA upregulated mRNA levels of several extracellular matrix proteins in ASC, albeit to a lesser degree than TGFβ1, and marginally increased cell contractility. In conclusion, the study suggests that aPBMC induce myofibroblast phenotype with weak fibrotic activity in perivascular progenitors, such as ASC, through the IL-1β-ActA signaling axis, which also promotes CTGF secretion, and these effects require ActA extracellular enzymatic processing.

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