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Authors: Elizabeth S. McKenna, Pablo Tamayo, Yoon-Jae Cho, Erik J. Tillman, E. Lorena Mora-Blanco, Courtney G. Sansam, Edward C. Koellhoffer, Scott L. Pomeroy and Charles W.M. Roberts

Elizabeth S. McKenna

Department of Pediatric Oncology; Dana-Farber Cancer Institute; Division of Hematology/Oncology; Children's Hospital Boston; Department of Pediatrics; Harvard Medical School; Boston, MA USA

Pablo Tamayo

Eli and Edythe L. Broad Institute; Massachusetts Institute of Technology; Harvard University; Cambridge, MA USA

Yoon-Jae Cho

Department of Neurology; Children’s Hospital Boston; Boston, MA USA

Erik J. Tillman

Department of Pediatric Oncology; Dana-Farber Cancer Institute; Division of Hematology/Oncology; Children's Hospital Boston; Department of Pediatrics; Harvard Medical School; Boston, MA USA

E. Lorena Mora-Blanco

Department of Pediatric Oncology; Dana-Farber Cancer Institute; Division of Hematology/Oncology; Children's Hospital Boston; Department of Pediatrics; Harvard Medical School; Boston, MA USA

Courtney G. Sansam

Department of Pediatric Oncology; Dana-Farber Cancer Institute; Division of Hematology/Oncology; Children's Hospital Boston; Department of Pediatrics; Harvard Medical School; Boston, MA USA

Edward C. Koellhoffer

Department of Pediatric Oncology; Dana-Farber Cancer Institute; Division of Hematology/Oncology; Children's Hospital Boston; Department of Pediatrics; Harvard Medical School; Boston, MA USA

Scott L. Pomeroy

Department of Neurology; Children’s Hospital Boston; Boston, MA USA

Charles W.M. Roberts

Corresponding author: charles_roberts@dfci.harvard.edu
Department of Pediatric Oncology; Dana-Farber Cancer Institute; Division of Hematology/Oncology; Children's Hospital Boston; Department of Pediatrics; Harvard Medical School; Boston, MA USA

Abstract:
Emerging evidence demonstrates that subunits of the SWI/SNF chromatin remodeling complex are specifically mutated at high frequency in a variety of human cancer types. SNF5 (SMARCB1/INI1/BAF47), a core subunit of the SWI/SNF complex, is inactivated in the vast majority of rhabdoid tumors (RT), an aggressive type of pediatric cancer. SNF5-deficient cancers are diploid and genomically stable, suggesting that epigenetically based changes in transcription are key drivers of tumor formation caused by SNF5 loss. However, there is limited understanding of the target genes that drive cancer formation following SNF5 loss. Here we performed comparative expression analyses upon three independent SNF5-deficient cancer data sets from both human and mouse and identify downregulation of the BIN1 tumor suppressor as a conserved event in primary SNF5-deficient cancers. We show that SNF5 recruits the SWI/SNF complex to the BIN1 promoter, and that the marked reduction of BIN1 expression in RT correlates with decreased SWI/SNF occupancy. Functionally, we demonstrate that re-expression of BIN1 specifically compromises the proliferation of SNF5-deficient RT cell lines. Identification of BIN1 as a SNF5 target gene reveals a novel tumor suppressive regulatory mechanism whose disruption can drive cancer formation.

Received: April 4, 2012; Accepted: April 4, 2012; Published Online: May 15, 2012

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