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Cell Cycle Volume 11, 2012 - Issue 20
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The ablation of EZH2 uncovers its crucial role in rhabdomyosarcoma formation

Irene Marchesi Department of Biomedical Sciences; Division of Biochemistry and National Institute of Biostructures and Biosystems; University of Sassari; Sassari, Italy; Sbarro Institute for Cancer Research and Molecular Medicine; Center for Biotechnology; College of Science and Technology; Temple University; Philadelphia, PA USA
,
Francesco Paolo Fiorentino Sbarro Institute for Cancer Research and Molecular Medicine; Center for Biotechnology; College of Science and Technology; Temple University; Philadelphia, PA USA
,
Flavio Rizzolio Sbarro Institute for Cancer Research and Molecular Medicine; Center for Biotechnology; College of Science and Technology; Temple University; Philadelphia, PA USA
,
Antonio Giordano Sbarro Institute for Cancer Research and Molecular Medicine; Center for Biotechnology; College of Science and Technology; Temple University; Philadelphia, PA USA; Human Pathology and Oncology Department; University of Siena; Siena, Italy
&
Luigi Bagella Department of Biomedical Sciences; Division of Biochemistry and National Institute of Biostructures and Biosystems; University of Sassari; Sassari, Italy; Sbarro Institute for Cancer Research and Molecular Medicine; Center for Biotechnology; College of Science and Technology; Temple University; Philadelphia, PA USACorrespondence[email protected]
Pages 3828-3836 | Received 13 Mar 2012, Accepted 30 Aug 2012, Published online: 14 Sep 2012
 
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Abstract

Rhabdomyosarcoma (RMS) is a pediatric tumor that arises from muscle precursor cells. RMS cells express several markers of early myogenic differentiation, but they fail to complete both differentiation program and cell cycle arrest, resulting in uncontrolled proliferation and incomplete myogenesis. Previous studies showed that EZH2, which is involved in both differentiation and cancer progression, is overexpressed in RMS, but a functional binding between its expression and its functional role in tumor formation or progression has not yet been demonstrated. We hypothesized that EZH2 is a key regulator of muscular differentiation program in RMS cells.

In this study, we demonstrated that EZH2 directly binds muscle specific genes in RD cells. Silencing of EZH2 promotes the recruitment of a multiprotein complex at muscle-specific promoters, their transcriptional activation and protein expression. Moreover, we demonstrated that EZH2 is directly involved in transcriptional repression of MyoD, the main factor promoting myogenesis. EZH2 ablation induces MyoD activation the recovery of its binding on muscle-specific genes.

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