Maintenance of muscle stem-cell quiescence by microRNA-489

Adult muscle stem cells are used as a model system to show that the microRNA pathway, and specifically miR-489, is essential for the maintenance of the quiescent state of an adult stem-cell population by suppressing a key proliferation factor, Dek. Stem-cell state under microRNA control Little is kn...

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Bibliographic Details
Published in:Nature (London) 2012-02, Vol.482 (7386), p.524-528
Main Authors: Cheung, Tom H., Quach, Navaline L., Charville, Gregory W., Liu, Ling, Park, Lidia, Edalati, Abdolhossein, Yoo, Bryan, Hoang, Phuong, Rando, Thomas A.
Format: Article
Language:English
Subjects:
631/337/384/331
631/532/2118/2439
Animals
Apoptosis
Biological and medical sciences
Cell cycle
Cell Cycle - drug effects
Cell Cycle - genetics
Cell Differentiation - drug effects
Cell Lineage - drug effects
Cell metabolism, cell oxidation
Cell physiology
Cell Survival - drug effects
Cell Survival - genetics
Cloning
DEAD-box RNA Helicases - genetics
DEAD-box RNA Helicases - metabolism
DNA-Binding Proteins - genetics
Fundamental and applied biological sciences. Psychology
Gene Expression Regulation - drug effects
Gene Knockdown Techniques
Genes
Genetic aspects
Humanities and Social Sciences
letter
Mice
Mice, Inbred C57BL
MicroRNA
MicroRNAs - genetics
Molecular and cellular biology
multidisciplinary
Muscles
Myoblasts - cytology
Myoblasts - drug effects
Myoblasts - metabolism
Oligonucleotide Array Sequence Analysis
Oncogene Proteins - genetics
Physiological aspects
Poly-ADP-Ribose Binding Proteins
Proteins
Ribonuclease III - genetics
Ribonuclease III - metabolism
Rodents
Satellite Cells, Skeletal Muscle - cytology
Satellite Cells, Skeletal Muscle - drug effects
Satellite Cells, Skeletal Muscle - metabolism
Science
Science (multidisciplinary)
Stem cells
Tamoxifen - pharmacology
Transcription, Genetic - drug effects
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Summary:Adult muscle stem cells are used as a model system to show that the microRNA pathway, and specifically miR-489, is essential for the maintenance of the quiescent state of an adult stem-cell population by suppressing a key proliferation factor, Dek. Stem-cell state under microRNA control Little is known about the molecular pathways that maintain stem-cell quiescence. The microRNA (miRNA) pathway is known to be essential for stem-cell pluripotency, proliferation and differentiation, and here Thomas Rando and colleagues show that the miRNA pathway actively maintains the quiescent state of an adult stem-cell population. Using adult-mouse muscle stem cells as a model system, they found that miR-489 is expressed in stem cells, and that the knockdown of miR-489 is sufficient to induce a quiescent muscle stem cell to break quiescence and enter the cell cycle. The oncogene Dek was identified as a key target of miR-489, providing an indication of the kinds of transcriptional programs involved in maintaining and breaking quiescence. Among the key properties that distinguish adult mammalian stem cells from their more differentiated progeny is the ability of stem cells to remain in a quiescent state for prolonged periods of time 1 , 2 . However, the molecular pathways for the maintenance of stem-cell quiescence remain elusive. Here we use adult mouse muscle stem cells (satellite cells) as a model system and show that the microRNA (miRNA) pathway is essential for the maintenance of the quiescent state. Satellite cells that lack a functional miRNA pathway spontaneously exit quiescence and enter the cell cycle. We identified quiescence-specific miRNAs in the satellite-cell lineage by microarray analysis. Among these, miRNA-489 (miR-489) is highly expressed in quiescent satellite cells and is quickly downregulated during satellite-cell activation. Further analysis revealed that miR-489 functions as a regulator of satellite-cell quiescence, as it post-transcriptionally suppresses the oncogene Dek , the protein product of which localizes to the more differentiated daughter cell during asymmetric division of satellite cells and promotes the transient proliferative expansion of myogenic progenitors. Our results provide evidence of the miRNA pathway in general, and of a specific miRNA, miR-489, in actively maintaining the quiescent state of an adult stem-cell population.
ISSN:0028-0836
1476-4687
DOI:10.1038/nature10834