Publication date: 21 March 2017
Source:Cell Reports, Volume 18, Issue 12
Author(s): Amrita M. Nargund, Can G. Pham, Yiyu Dong, Patricia I. Wang, Hatice U. Osmangeyoglu, Yuchen Xie, Omer Aras, Song Han, Toshinao Oyama, Shugaku Takeda, Chelsea E. Ray, Zhenghong Dong, Mathieu Berge, A. Ari Hakimi, Sebastien Monette, Carl L. Lekaye, Jason A. Koutcher, Christina S. Leslie, Chad J. Creighton, Nils Weinhold, William Lee, Satish K. Tickoo, Zhong Wang, Emily H. Cheng, James J. Hsieh
PBRM1 is the second most commonly mutated gene after VHL in clear cell renal cell carcinoma (ccRCC). However, the biological consequences of PBRM1 mutations for kidney tumorigenesis are unknown. Here, we find that kidney-specific deletion of Vhl and Pbrm1, but not either gene alone, results in bilateral, multifocal, transplantable clear cell kidney cancers. PBRM1 loss amplified the transcriptional outputs of HIF1 and STAT3 incurred by Vhl deficiency. Analysis of mouse and human ccRCC revealed convergence on mTOR activation, representing the third driver event after genetic inactivation of VHL and PBRM1. Our study reports a physiological preclinical ccRCC mouse model that recapitulates somatic mutations in human ccRCC and provides mechanistic and therapeutic insights into PBRM1 mutated subtypes of human ccRCC.
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Nargund et al. present a three-step process in the pathogenesis of mouse and human clear cell kidney cancer. After the loss of VHL, the loss of SWI/SNF tumor suppressor protein PBRM1/BAF180 further activates HIF1/STAT3 signaling in mouse kidney and positions mTORC1 activation as the preferred third driver event.http://ift.tt/2n5VRvr
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