鉴定新型肌动蛋白和介导骨骼肌-细胞外囊处理慢性收缩活动功能适应性的假定蛋白靶标

Patience O. Obi, Tamiris F. G. Souza, Ying Lao, Kirk J. McManus, Joseph W. Gordon, Richard LeDuc, Rene P. Zahedi, Ayesha Saleem
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引用次数: 0

摘要

我们之前已经证明,慢性收缩活动(CCA)后释放的源于骨骼肌的细胞外囊泡(EVs)可增加小鼠成肌细胞的线粒体生物生成,降低细胞活力,诱导非小细胞肺癌细胞凋亡和衰老。虽然其基本机制尚不清楚,但这种效应的延续依赖于膜结合蛋白。在此,我们对对照组和 CCA 肌管的 EVs 进行了广泛的 LC-MS/MS 蛋白组学分析。在 CON-EVs 和 CCA-EVs 中总共鉴定出 2900 个蛋白质,包括 EV 相关蛋白,如 TSG101、四泛蛋白(CD9、CD81 和 CD63)、flotillin-1 和附件蛋白。其中有856个蛋白质是新发现的,未被EV数据库(ExoCarta和Vesiclepedia)收录,这表明肌管-EV蕴藏着尚未在不同来源的EV中发现的蛋白质。此外,我们还发现了 2062 个迄今为止尚未在肌管-EV 中报道过的独特蛋白质。值得注意的是,在总共鉴定出的 2900 个蛋白质中,我们观察到在 CCA-EVs 与对照-EVs 中分别有 46 个上调和 25 个下调的差异表达蛋白质(DEPs)。大多数上调的 DEPs 包括 EV 相关蛋白。将这 71 个 DEPs 与骨骼肌中表达的蛋白进行比较后发现,其中 61 个可能是肌动蛋白。我们利用不同的数据库/软件(包括 FunRich、KEGG、STRING 和 Ingenuity Pathway Analysis)确定了肌动蛋白细胞骨架信号转导、整合素信号转导和肌肉收缩是 DEPs 中最富集的通路。我们采用相关性评分,优先考虑在线粒体生物生成和抑制癌症生长方面具有已知功能的膜结合蛋白,确定了得分最高的高富集 DEPs:IGF1R、ATP7A、PFN1、GJA1、PRKCA 和 ITGA6。我们使用免疫印迹法证实了这些靶点在 EVs 中的上调。在这些得分最高的 DEPs 中,PFN1 和 ITGA6 与 EVs 相关,并在急性运动后表达上调。总之,我们首次对 CCA 后骨骼肌-EV 蛋白组进行了全面分析,确定了可能执行 CCA-EV 促进代谢和抗肿瘤作用的假定蛋白靶点和信号通路。
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Identification of novel myokines and putative protein targets that mediate functional adaptations in response to chronic contractile activity induced skeletal muscle-extracellular vesicle treatment
We have previously shown that skeletal muscle-derived extracellular vesicles (EVs) released post-chronic contractile activity (CCA) increased mitochondrial biogenesis in murine myoblasts, and decreased cell viability and induced apoptosis and senescence in non-small cell lung cancer cells. While the underlying mechanisms are unknown, the effects perpetuated were dependent on membrane-bound proteins. Here, we performed an extensive LC-MS/MS proteomic analysis on EVs from control and CCA myotubes. A total of 2900 proteins were identified in CON-EVs and CCA-EVs, including EV-associated proteins such as TSG101, tetraspanins (CD9, CD81, and CD63), flotillin-1, and annexins. Of these, 856 proteins are novel and not listed in EV databases (ExoCarta and Vesiclepedia), indicating that myotube-EVs harbor proteins not yet identified in EVs of different origin. Additionally, we identified 2062 unique proteins that have not yet been previously reported in myotube-EVs to date. Remarkably, of the 2900 total proteins identified, we observed 46 upregulated, and 25 downregulated differentially expressed proteins (DEPs) in CCA-EVs vs. control-EVs. Most of upregulated DEPs include EV-associated proteins. Comparing the 71 DEPs with proteins expressed in skeletal muscle indicated 61 of these as potential myokines. We identified actin cytoskeleton signaling, integrin signaling and muscle contraction as the most enriched pathways among the DEPs using different databases/software including FunRich, KEGG, STRING and Ingenuity Pathway Analysis. Using a relevance score that prioritized membrane-bound proteins with known function in mitochondrial biogenesis and inhibition of cancer growth, we identified top-scoring highly enriched DEPs of interest: IGF1R, ATP7A, PFN1, GJA1, PRKCA and ITGA6. We confirmed upregulation of these targets in EVs using immunoblotting. Among these top-scoring DEPs, PFN1, and ITGA6 are associated with EVs, with expression upregulated following acute exercise. In summary, we report the first comprehensive analysis of skeletal muscle-EV proteome following CCA, with identification of putative protein targets and signaling pathways that may execute the pro-metabolic and anti-tumorigenic effects of CCA-EVs.
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