Abstract 3688: The C-terminal domain of tumor-derived mutant p53 is required for its oncogenic gain-of-function activity

p53 is the most commonly mutated gene in human cancers. Unlike other tumor suppressors in which loss of protein expression is common, the vast majority of changes in p53 arise as point mutations. Tumor associated mutation hotspots are localized to the DNA binding domain, either in residues involved in direct DNA contact or those that regulate its conformation. In either case, such mutations have been shown to confer gain of function activity. This was first shown in soft agar assays in which over-expression of mutant p53 increased transformation of cells on a p53 null background. Furthermore, knock-in mouse models of mutant p53 showed alterations in tumor spectrum with the development of carcinomas not seen in p53 null mice. However, the mechanism by which mutant p53 actively aids in tumorigenesis remains unclear. Although mutant p53 causes loss of sequence specific DNA binding via the core domain, it retains the ability to interact with multiple proteins including transcriptional cofactors shown to have tumor suppressor activity such as p300 and CBP. These interactions occur through multiple protein binding domains including the C-terminal domain of p53. Our laboratory and others have shown that C-terminal truncation of wildtype p53 results in multiple deficiencies. Binding of mutant p53 to p300/CBP via the C-terminus is therefore an attractive hypothesis to explain mutant p53 gain of function. To determine the role of the C-terminus in mutant p53 gain of function activity, we have expressed constructs containing a C-terminal truncation in combination with varying hotspot mutations. Transfection of mutant p53 into a p53 null cell line was required for the formation of colonies in a soft agar assay, indicating an increase in tumorigenicity. Furthermore, C-terminal truncation of the mutant p53 abrogated this phenotype suggesting that this domain is required for mutant p53 gain of function. This was independent of expression levels as shown by immunoblot. We have also extended the findings of mutant p53 interaction with p300 by IP analysis of a panel of cell lines with varying p53 hotspot mutations. To confirm the role of the C-terminus in mutant p53 gain of function, we are developing a xenograft model to detect changes in tumorigenicity in vivo. These results will therefore explore the mechanism by which mutant p53 acts as an oncogene. Citation Format: Caleb C. Lee, James Manfredi. The C-terminal domain of tumor-derived mutant p53 is required for its oncogenic gain-of-function activity. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 3688.