Abstract 1504: Mouse model and human patient data suggest critical roles for Pten and p53 in suppressing POLE mutant tumor development

Abstract

Abstract Mutations in the exonuclease domain of POLE are associated with tumors harboring very high mutation burdens. The mechanisms linking this significant mutation accumulation and tumor development remain poorly understood. Pole+/P286R;Trp53+/- mice showed accelerated cancer mortality compared to Pole+/P286R;Trp53+/+ mice. Cells from Pole+/P286R mice showed increased p53 activation, and subsequent loss of p53 permitted rapid growth, implicating canonical p53 loss of heterozygosity in POLE mutant tumor growth. Somewhat surprisingly, however, p53 status had no effect on tumor mutation burden or single base substitution signatures in POLE mutant tumors from mice or humans. Pten has important roles in maintaining genome stability. We find that PTEN mutations are highly enriched in human POLE mutant tumors, including many in POLE signature contexts. One such signature mutation, PTEN-F341V, was previously shown in a mouse model to specifically decrease nuclear Pten and lead to increased DNA damage. We found tumors in Pole+/P286R mice that spontaneously acquired PtenF341V mutations and were associated with significantly reduced nuclear Pten and elevated DNA damage. Further analysis in cells suggests the presence of the mutant polymerase triggers DNA damage in specific contexts. Taken together, our analysis supports the idea that POLE-mediated hypermutagenesis is necessary, but not entirely sufficient, for tumorigenesis. Disabling surveillance of nuclear DNA damage is a likely sufficient factor. Citation Format: Meijuan J. Sun, Vivian S. Park, Wesley D. Frey, Leonard G. Williams, Karl P. Hodel, Juliet D. Strauss, Sydney J. Wellens, James G. Jackson, Zachary F. Pursell. Mouse model and human patient data suggest critical roles for Pten and p53 in suppressing POLE mutant tumor development [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1504.