Abstract
The purpose of this study was to measure the heterogeneity in human umbilical cord–derived mesenchymal stem cells (hUC‐MSCs) and human synovial fluid–derived mesenchymal stem cells (hSF‐MSCs) by single‐cell RNA‐sequencing (scRNA‐seq). Using Chromium™ technology, scRNA‐seq was performed on hUC‐MSCs and hSF‐MSCs from samples that passed our quality control checks. In order to identify subgroups and activated pathways, several bioinformatics tools were used to analyse the transcriptomic profiles, including clustering, principle components analysis (PCA), t‐Distributed Stochastic Neighbor Embedding (t‐SNE), gene set enrichment analysis, as well as Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses. scRNA‐seq was performed on the two sample sets. In total, there were 104 761 163 reads for the hUC‐MSCs and 6 577 715 for the hSF‐MSCs, with >60% mapping rate. Based on PCA and t‐SNE analyses, we identified 11 subsets within hUC‐MSCs and seven subsets within hSF‐MSCs. Gene set enrichment analysis determined that there were 533, 57, 32, 44, 10, 319, 731, 1037, 90, 25 and 230 differentially expressed genes (DEGs) in the 11 subsets of hUC‐MSCs and 204, 577, 30, 577, 16, 57 and 35 DEGs in the seven subsets of hSF‐MSCs. scRNA‐seq was not only able to identify subpopulations of hUC‐MSCs and hSF‐MSCs within the sample sets, but also provided a digital transcript count of hUC‐MSCs and hSF‐MSCs within a single patient. scRNA‐seq analysis may elucidate some of the biological characteristics of MSCs and allow for a better understanding of the multi‐directional differentiation, immunomodulatory properties and tissue repair capabilities of MSCs.
Highlights
Mesenchymal stem cells (MSCs) can differentiate into bone, cartilage and fat cells, which play important roles in development, homeostasis, post-natal growth, repair and regeneration.[1,2] Because of their ability to self-renew with a high proliferation rate, MSCs are a common source of stem cells in clinical applications to regenerate damaged organs and tissues.[3,4] Numerous studies indicate that theJ Cell Mol Med. 2020;24:1945–1957. 1946 |major sources for MSCs in the clinical setting are adipose tissue and bone marrow; these resources are limited because there are strict donor requirements.[5-7]
Human umbilical cord-derived mesenchymal stem cells have some characteristics in common with MSCs obtained from adipose tissue and bone marrow, including a fibroblastoid morphology and a similar set of surface proteins, as well the ability to differentiate into different cell types.[14,15]
MSCs are increasingly being used as a resource for cellbased therapies in cartilage repair and regenerative medicine.[32,33]
Summary
Mesenchymal stem cells (MSCs) can differentiate into bone, cartilage and fat cells, which play important roles in development, homeostasis, post-natal growth, repair and regeneration.[1,2] Because of their ability to self-renew with a high proliferation rate, MSCs are a common source of stem cells in clinical applications to regenerate damaged organs and tissues.[3,4] Numerous studies indicate that the. Mesenchymal stem cells (MSCs) can differentiate into bone, cartilage and fat cells, which play important roles in development, homeostasis, post-natal growth, repair and regeneration.[1,2]. Because of their ability to self-renew with a high proliferation rate, MSCs are a common source of stem cells in clinical applications to regenerate damaged organs and tissues.[3,4]. Human umbilical cord-derived mesenchymal stem cells have some characteristics in common with MSCs obtained from adipose tissue and bone marrow, including a fibroblastoid morphology and a similar set of surface proteins, as well the ability to differentiate into different cell types.[14,15]. Using clustering, principle components analysis (PCA), t-Distributed Stochastic Neighbor Embedding (tSNE), gene set enrichment analysis, Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses, we were able to identify subgroups and activated pathways within these populations of MSCs
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