Abstract
Mesenchymal stem cells (MSCs) can differentiate into multiple cell lines, which makes them an important source of cells for tissue engineering applications. They are defined by the capability to renew themselves and maintain pluripotency. This ability is modulated by the balance between complex cues from cellular microenvironment. Self-renewal and differentiation abilities are regulated by particular microenvironmental signals. Oxygen is considered to be an important part of cell microenvironment, which not only acts as a metabolic substrate but also a signal molecule. It has been proved that MSCs are hypoxic in the physiological environment. Signals from MSCs' microenvironment or niche which means the anatomical location of the MSCs, maintain the final properties of MSCs. Physiological conditions like oxygen tension are deemed to be a significant part of the mesenchymal stem cell niche, and have been proved to be involved in modulating embryonic and adult MSCs. Non-coding RNAs (ncRNAs), which play a key role in cell signal transduction, transcription and translation of genes, have been widely concerned as epigenetic regulators in a great deal of tissues. With the rapid development of bioinformatics analysis tools and high-throughput RNA sequencing technology, more and more evidences show that ncRNAs play a key role in tissue regeneration. It shows potential as a biomarker of MSC differentiation. In this paper, we reviewed the physiological correlation of hypoxia as a unique environmental parameter which is conducive to MSC expansion and maintenance, discussed the correlation of tissue engineering, and summarized the influence of hypoxia related ncRNAs on MSCs' fate and regeneration. This review will provide reference for future research of MSCs' regeneration.
Highlights
Hypoxia Microenvironment in Mesenchymal Stem CellsMesenchymal stem cells (MSCs) represent a subset of adult stem cells derived from the mesoderm lineage
In the previous study of our group, it was found from highthroughput data that a total of, 1046 mRNAs were differentially expressed in periodontal ligament stem cells (PDLSCs) under hypoxia (2% O2) and normoxia culture
DNM3OS/miR-1275p/GREM2 axis studies were shown that the differentiation ability of bone marrow stromal cells (BMSCs) is reduced under hypoxia compared with normoxia, supporting the idea that hypoxic condition promotes the undifferentiated state of BMSCs [26, 101]
Summary
Hypoxia Microenvironment in Mesenchymal Stem CellsMesenchymal stem cells (MSCs) represent a subset of adult stem cells derived from the mesoderm lineage. Studies have proved that factors which regulate the behavior of stem cells and progenitor cells have an important relation with HIFs. The HIFs act as a molecular framework for hypoxia to control differentiation and survival of cells [43]. Hypoxia can induce the expression of ncRNAs. ncRNAs including miRNAs, lncRNAs or circRNAs are involved in regulating cell proliferation, cycle and death and other cell behaviors (Figure 1).
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