Liu Demin, Gu Guoqiang, Gan Lu, Yan Wenjun, Zhang Zhen, Yao Peng, Zhu Di, Lau Wayne Bond, Xie Dina, Wu Sisi, Meng Zhijun, Tsukuda Jumpei, Christopher Theodore, Lopez Bernard, Zhao Jianli, Gao Erhe, Koch Walter, Ma Xin-Liang, Wang Yajing
Department of Emergency Medicine, Thomas Jefferson University, Philadelphia, PA, 19107, USA.
Center for Translational Medicine, Lewis Katz School of Medicine, Temple University, Philadelphia, PA, 19140, USA.
Redox Biol. 2021 May;41:101929. doi: 10.1016/j.redox.2021.101929. Epub 2021 Mar 4.
Mesenchymal stem cell therapy improves ischemic heart failure via incompletely understood mechanisms. C1q-TNFα related protein-9 (CTRP9) is a novel anti-oxidative cardiokine capable of improving the local microenvironment and cell survival by its c-terminal active globular domain (gCTRP9). The current study attempted to: 1) identify active gCTRP9 c-terminal polypeptides with stem cell protective function; 2) determine whether a lead polypeptide may enable/enhance cortical bone-derived mesenchymal stem cell (CBSC) cardioprotection against post-myocardial infarction (post-MI) remodeling; and 3) define the responsible underlying cellular/molecular mechanisms.
Utilizing I-TASSER structure prediction and 3-D active site modeling, we cloned and purified 3 gCTRP9 fragments (CTRP9-237, CTRP9-277, and CTRP9-281). Their activation of cell salvage kinase was compared against gCTRP9. Among the three fragments, CTRP9-281 (a 45 residue-containing polypeptide) exerted comparable or greater ERK1/2 activation compared to gCTRP9. Treatment with CTRP9-281 or gCTRP9 significantly increased CBSC proliferation and migration, and attenuated oxidative stress-induced CBSC apoptosis. CTRP9-281 and gCTRP9 comparably upregulated SOD2 and SOD3 expression. However, CTRP9-281, not gCTRP9, upregulated FGF2 and VEGFA expression/secretion in an ERK1/2 dependent manner. Administration of gCTRP9 or CTRP9-281 alone attenuated post-MI cardiac dysfunction and improved CBSC retention in the infarcted heart in similar fashion. However, CTRP9-281 exerted greater synergistic effect with CBSC than gCTRP9 related to pro-angiogenic, anti-fibrotic, and anti-remodeling effects. Mechanistically, CTRP9-281 significantly increased SOD2-rich and VEGFA-rich exosome production by CBSC. Exosomes from CTRP9-281 treated CBSC significantly attenuated oxidative stress-induced cardiomyocyte apoptosis in vitro. An exosome generation inhibitor attenuated CTRP9-281 enhancement of CBSC cardioprotection in vivo.
We identified a CTRP9 polypeptide that upregulates SOD2/SOD3 expression and improves CBSC survival/retention, similar to gCTRP9. Moreover, CTRP9-281 stimulates VEGFA-rich exosome production by CBSC, exerting superior pro-angiogenic, anti-fibrotic, and cardioprotective actions.
间充质干细胞疗法通过尚未完全明了的机制改善缺血性心力衰竭。C1q - TNFα相关蛋白9(CTRP9)是一种新型抗氧化心脏因子,其C端活性球状结构域(gCTRP9)能够改善局部微环境并促进细胞存活。本研究试图:1)鉴定具有干细胞保护功能的活性gCTRP9 C端多肽;2)确定一种先导多肽是否能够启动/增强皮质骨来源的间充质干细胞(CBSC)对心肌梗死后(MI后)重塑的心脏保护作用;3)明确相关的细胞/分子机制。
利用I - TASSER结构预测和三维活性位点建模,我们克隆并纯化了3个gCTRP9片段(CTRP9 - 237、CTRP9 - 277和CTRP9 - 281)。将它们对细胞挽救激酶的激活作用与gCTRP9进行比较。在这三个片段中,CTRP9 - 281(一种含45个氨基酸残基的多肽)与gCTRP9相比,对ERK1/2的激活作用相当或更强。用CTRP9 - 281或gCTRP9处理可显著增加CBSC的增殖和迁移,并减轻氧化应激诱导的CBSC凋亡。CTRP9 - 281和gCTRP9对SOD2和SOD3表达的上调作用相当。然而,CTRP9 - 281而非gCTRP9以ERK1/2依赖的方式上调FGF2和VEGFA的表达/分泌。单独给予gCTRP9或CTRP9 - 281以相似的方式减轻MI后心脏功能障碍并改善CBSC在梗死心脏中的滞留。然而,与gCTRP9相比,CTRP9 - 281与CBSC联合使用时在促血管生成、抗纤维化和抗重塑作用方面具有更强的协同效应。机制上,CTRP9 - 281显著增加CBSC产生富含SOD2和富含VEGFA的外泌体。来自CTRP9 - 281处理的CBSC的外泌体在体外显著减轻氧化应激诱导的心肌细胞凋亡。一种外泌体生成抑制剂减弱了CTRP9 - 281在体内对CBSC心脏保护作用的增强。
我们鉴定出一种CTRP9多肽,它上调SOD2/SOD3表达并改善CBSC的存活/滞留,与gCTRP9类似。此外,CTRP9 - 281刺激CBSC产生富含VEGFA的外泌体,发挥更强的促血管生成、抗纤维化和心脏保护作用。
