Abstract IA07: Deconstructing p53 pathways in tumor suppression
The p53 transcription factor is a critical tumor suppressor in humans and mice. Despite this essential function, the molecular pathways through which p53 acts in tumor suppression remain enigmatic. To define the transcriptional programs through which p53 suppresses carcinogenesis, we have taken comb...
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Published in: | Cancer research (Chicago, Ill.) Vol. 78; no. 10_Supplement; p. IA07 |
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Main Authors: | , , , , , , , , , |
Format: | Journal Article |
Language: | English |
Published: |
15-05-2018
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Online Access: | Get full text |
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Summary: | The p53 transcription factor is a critical tumor suppressor in humans and mice. Despite this essential function, the molecular pathways through which p53 acts in tumor suppression remain enigmatic. To define the transcriptional programs through which p53 suppresses carcinogenesis, we have taken combined mouse genetic and genomic approaches. We previously generated a panel of p53 knock-in mouse strains expressing mutants in the first (p5325,26), second (p5353,54), or both (p5325,26,53,54) of two amino-terminal transcriptional activation domains (TADs). In terms of transcriptional activity, we have discovered that p5325,26 is severely impaired for transactivation of the majority of canonical p53 target genes (e.g. p21, Puma, Noxa), but retains the ability to activate a set of primarily novel p53 target genes, while p5325,26,53,54 lacks transactivation activity altogether. The p5353,54 mutant, in contrast, is uncompromised for transactivation of p53 target genes. The p5325,26,53,54 mutant is completely defective in tumor suppression, underscoring the importance of transcriptional activation for p53-mediated tumor suppression. Intriguingly, the p5325,26 mutant retains full activity in suppressing a variety of cancers, indicating that efficient transactivation of most canonical p53 target genes is dispensable for tumor suppression. As p5325,26 activates only a subset of p53-inducible genes, yet retains tumor-suppressor activity, it has helped pinpoint a small set of novel, direct p53-inducible tumor suppression-associated target genes (TSAGs) whose functions we are currently interrogating through genetic screens. Additionally, we have made the surprising discovery that the p5353,54 mutant suppresses pancreatic cancer more efficiently than wild-type p53, and that this capacity correlates with the ability of p5353,54 to hyperactivate a subset of p53 target genes. Indeed, our analysis of these genes has uncovered Ptpn14, a direct p53 target gene critical for mediating p53 function in suppressing pancreatic cancer cell growth. Ptpn14 encodes a protein tyrosine phosphatase that negatively regulates the oncoprotein Yap in both human and mouse cells. These studies thus reveal a p53-Ptpn14-Yap axis in pancreatic cancer. Together, these strategies will help to elaborate the transcriptional networks fundamental for p53 function in tumor suppression.
Citation Format: Stephano Spano Mello, Kathryn Bieging-Rolett, Alyssa Kaiser, Elizabeth Joy Valente, Nitin Raj, Jacob McClendon, Brittany Maria Flowers, David Warren Morgens, Michael Cory Bassik, Laura Donatella Attardi. Deconstructing p53 pathways in tumor suppression [abstract]. In: Proceedings of the AACR Special Conference: Advances in Modeling Cancer in Mice: Technology, Biology, and Beyond; 2017 Sep 24-27; Orlando, Florida. Philadelphia (PA): AACR; Cancer Res 2018;78(10 Suppl):Abstract nr IA07. |
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ISSN: | 0008-5472 1538-7445 |
DOI: | 10.1158/1538-7445.MOUSEMODELS17-IA07 |