| Literature DB >> 30033362 |
Junjie Tony Hua1, Musaddeque Ahmed2, Haiyang Guo2, Yuzhe Zhang3, Sujun Chen1, Fraser Soares2, Jennifer Lu4, Stanley Zhou1, Miranda Wang2, Hui Li5, Nicholas B Larson6, Shannon K McDonnell6, Parasvi S Patel1, Yi Liang2, Cindy Q Yao7, Theodorus van der Kwast8, Mathieu Lupien9, Felix Y Feng10, Amina Zoubeidi11, Ming-Sound Tsao1, Stephen N Thibodeau12, Paul C Boutros13, Housheng Hansen He14.
Abstract
The prostate cancer (PCa) risk-associated SNP rs11672691 is positively associated with aggressive disease at diagnosis. We showed that rs11672691 maps to the promoter of a short isoform of long noncoding RNA PCAT19 (PCAT19-short), which is in the third intron of the long isoform (PCAT19-long). The risk variant is associated with decreased and increased levels of PCAT19-short and PCAT19-long, respectively. Mechanistically, the risk SNP region is bifunctional with both promoter and enhancer activity. The risk variants of rs11672691 and its LD SNP rs887391 decrease binding of transcription factors NKX3.1 and YY1 to the promoter of PCAT19-short, resulting in weaker promoter but stronger enhancer activity that subsequently activates PCAT19-long. PCAT19-long interacts with HNRNPAB to activate a subset of cell-cycle genes associated with PCa progression, thereby promoting PCa tumor growth and metastasis. Taken together, these findings reveal a risk SNP-mediated promoter-enhancer switching mechanism underlying both initiation and progression of aggressive PCa.Entities:
Keywords: HNRNPAB; NKX3.1; PCAT19; YY1; bifunctional regulatory element; lncRNA; promoter-enhancer switching; prostate cancer progression; risk SNP; rs11672691
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Year: 2018 PMID: 30033362 DOI: 10.1016/j.cell.2018.06.014
Source DB: PubMed Journal: Cell ISSN: 0092-8674 Impact factor: 41.582