期刊
CELL CYCLE
卷 12, 期 24, 页码 3781-3790出版社
LANDES BIOSCIENCE
DOI: 10.4161/cc.26674
关键词
miR-206; cyclin D1; myogenic differentiation; cell proliferation; cell transformation
类别
资金
- Sapienza-University of Rome [C26F09HPNN, C26A11R95L]
miR-206, a member of the so-called myomiR family, is largely acknowledged as a specific, positive regulator of skeletal muscle differentiation. A growing body of evidence also suggests a tumor suppressor function for miR-206, as it is frequently downregulated in various types of cancers. In this study, we show that miR-206 directly targets cyclin D1 and contributes to the regulation of CCND1 gene expression in both myogenic and non-muscle, transformed cells. We demonstrate that miR-206, either exogenous or endogenous, reduces cyclin D1 levels and proliferation rate in C2C12 cells without promoting differentiation, and that miR-206 knockdown in terminally differentiated C2C12 cells leads to cyclin D1 accumulation in myotubes, indicating that miR-206 might be involved in the maintenance of the post-mitotic state. targeting of cyclin D1 might also account, at least in part, for the tumor-suppressor activity suggested for miR-206 in previous studies. Accordingly, the analysis of neoplastic and matched normal lung tissues reveals that miR-206 downregulation in lung tumors correlates, in most cases, with higher cyclin D1 levels. Moreover, gain-of-function experiments with cancer-derived cell lines and with in vitro transformed cells indicate that miR-206-mediated cyclin D1 repression is directly coupled to growth inhibition. Altogether, our data highlight a novel activity for miR-206 in skeletal muscle differentiation and identify cyclin D1 as a major target that further strengthens the tumor suppressor function proposed for miR-206.
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