Physiol. Genomics AJP: Cell Physiology
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Physiol. Genomics 39: 210-218, 2009. First published September 1, 2009; doi:10.1152/physiolgenomics.00085.2009
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Received 13 May 2009; accepted in final form 26 August 2009.
Physiological Genomics 39:210-218 (2009)
Copyright © 2009 the American Physiological Society © 2009 American Physiological Society

Research Articles

miR-290 acts as a physiological effector of senescence in mouse embryo fibroblasts

Letizia Pitto 1,*, Milena Rizzo 1,*, Marcella Simili 1, Daria Colligiani 1, Monica Evangelista 1, Alberto Mercatanti 1, Laura Mariani 1, Federico Cremisi 2 and Giuseppe Rainaldi 1,3

1Laboratory of Gene and Molecular Therapy, Institute of Clinical Physiology, Consiglio Nazionale delle Ricerche;
2Scuola Normale Superiore, Pisa; and
3Istituto Toscano Tumori, Firenze, Italy

The culture-induced senescence of mouse embryo fibroblasts (MEF) correlates with reduction of cell proliferation. In this work we found that the accumulation of cells with 4C DNA content and the transcriptional change of several microRNAs (miRNAs or miRs) are relevant events in culture senescence. By comparing the miRNA expression profiles of physiologically senescent MEF and that of senescent MEF induced by the downregulation of leukemia-related factor, we identified miR-290 as a common upregulated miRNA. When miR-290 was transfected in presenescent MEF, SA-β-gal+ cells and p16, two markers of culture senescence, increased compared with control, indicating that miR-290 is causally involved in senescence. Interestingly, nocodazole (NCZ), which induces G2/M block, increased the percentage of senescent cells as well as the expression of miR-290 and of the tumor suppressor p16, thus mimicking culture senescence. As miR-290 was overexpressed in NCZ-treated cells and it was able to induce senescence in proliferating MEF, we investigated whether miR-290 and NCZ could share common mechanisms of culture senescence. Whereas the induction of SA-β-gal+ by miR-290 was not strengthened by coupling its transfection with NCZ treatment, the transfection of the antagomir 290 (d-290) plus NCZ treatment, while blocking cells at G2/M, suppressed SA-β-gal+ and p16 induction. On the basis of these findings we conclude that miR-290 might act as a physiological effector of NCZ induced as well as culture senescence via p16 regulation expanding the role of this miRNA from embryonic stem to differentiated cells.

microRNAs; nocodazole; cell cycle






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