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Microvesicles as Potential Biomarkers for the Identification of Senescence in Human Mesenchymal Stem Cells

Senescence in human mesenchymal stem cells (MSCs) not only contributes to organism aging and the development of a variety of diseases but also severely impairs their therapeutic properties as a promising cell therapy. Studies searching for efficient biomarkers that represent cellular senescence have...

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Published in:	Theranostics 2017-01, Vol.7 (10), p.2673-2689
Main Authors:	Lei, Qian, Liu, Teng, Gao, Fei, Xie, Hui, Sun, Li, Zhao, Aiqi, Ren, Wenxiang, Guo, Hao, Zhang, Liming, Wang, Hongxiang, Chen, Zhichao, Guo, An-Yuan, Li, Qiubai
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Subjects:	Aging - pathology Biomarkers - analysis Cells, Cultured Extracellular Vesicles - chemistry Humans Mesenchymal Stromal Cells - physiology MicroRNAs - analysis Research Paper
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creator	Lei, Qian Liu, Teng Gao, Fei Xie, Hui Sun, Li Zhao, Aiqi Ren, Wenxiang Guo, Hao Zhang, Liming Wang, Hongxiang Chen, Zhichao Guo, An-Yuan Li, Qiubai
description	Senescence in human mesenchymal stem cells (MSCs) not only contributes to organism aging and the development of a variety of diseases but also severely impairs their therapeutic properties as a promising cell therapy. Studies searching for efficient biomarkers that represent cellular senescence have attracted much attention; however, no single marker currently provides an accurate cell-free representation of cellular senescence. Here, we studied characteristics of MSC-derived microvesicles (MSC-MVs) that may reflect the senescence in their parental MSCs. We found that senescent late passage (LP) MSCs secreted higher levels of MSC-MVs with smaller size than did early passage (EP) MSCs, and the level of CD105+ MSC-MVs decreased with senescence in the parental MSCs. Also, a substantially weaker ability to promote osteogenesis in MSCs was observed in LP than EP MSC-MVs. Comparative analysis of RNA sequencing showed the same trend of decreasing number of highly-expressed miRNAs with increasing number of passages in both MSCs and MSC-MVs. Most of the highly-expressed genes in LP MSCs and the corresponding MSC-MVs were involved in the regulation of senescence-related diseases, such as Alzheimer's disease. Furthermore, based on the miRNA profiling, transcription factors (TF) and genes regulatory networks of MSC senescence, and the datasets from GEO database, we confirmed that expression of miR-146a-5p in MSC-MVs resembled the senescent state of their parental MSCs. Our findings provide evidence that MSC-MVs are a key factor in the senescence-associated secretory phenotype of MSCs and demonstrate that their integrated characteristics can dynamically reflect the senescence state of MSCs representing a potential biomarker for monitoring MSC senescence.
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Studies searching for efficient biomarkers that represent cellular senescence have attracted much attention; however, no single marker currently provides an accurate cell-free representation of cellular senescence. Here, we studied characteristics of MSC-derived microvesicles (MSC-MVs) that may reflect the senescence in their parental MSCs. We found that senescent late passage (LP) MSCs secreted higher levels of MSC-MVs with smaller size than did early passage (EP) MSCs, and the level of CD105+ MSC-MVs decreased with senescence in the parental MSCs. Also, a substantially weaker ability to promote osteogenesis in MSCs was observed in LP than EP MSC-MVs. Comparative analysis of RNA sequencing showed the same trend of decreasing number of highly-expressed miRNAs with increasing number of passages in both MSCs and MSC-MVs. Most of the highly-expressed genes in LP MSCs and the corresponding MSC-MVs were involved in the regulation of senescence-related diseases, such as Alzheimer's disease. Furthermore, based on the miRNA profiling, transcription factors (TF) and genes regulatory networks of MSC senescence, and the datasets from GEO database, we confirmed that expression of miR-146a-5p in MSC-MVs resembled the senescent state of their parental MSCs. 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subjects	Aging - pathology Biomarkers - analysis Cells, Cultured Extracellular Vesicles - chemistry Humans Mesenchymal Stromal Cells - physiology MicroRNAs - analysis Research Paper
title	Microvesicles as Potential Biomarkers for the Identification of Senescence in Human Mesenchymal Stem Cells
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