Abstract 2820: The effect of Pten haploinsufficiency on genomic and transcriptomic profiles in combined genetically-engineered mouse models for colonic neoplasia based on Apc inactivation

Abstract

Abstract Background and Aim: We have reported genetically-engineered mouse models for colonic neoplasia by using our novel CDX2P-Cre mice, in which Cre is restrictedly expressed in colonic epithelial cells. Although colonic tumors are generated in CDX2P-Cre;Apcflox/+ (CPC;Apc) mice with highly penetrant rate, greater number and deeper invasion of colonic tumors were observed in CDX2P-Cre;Apcflox/+;Ptenflox/+ (CPC;Apc+Pten), possibly resulting from haploinsufficiency of Pten gene. We have also confirmed shorter lifespan in CPC;Apc+Pten than that in CPC;Apc (AACR Annual Meeting 2018). Here, we test if these phenotypes come from one copy loss of Pten itself or secondary genetic and/or transcriptomic alterations induced by Pten loss by using whole genome sequence (WGS) and RNA sequence from macroscopically-dissected colonic tumors (bulk RNA-seq). Methods: WGS for five tumors and five livers as counterpart controls in each mouse model was performed by DNBSEQ platforms. Bulk RNA-seq was performed for three tumors in each model. Results: In the analysis using B-allele frequency, copy-neutral LOH occurred in chromosome 18 including Apc loci specifically in colonic neoplasia in both CPC;Apc and CPC;Apc+Pten mice. In contrast, LOH was not observed in chromosome 19 including Pten loci in CPC;Apc+Pten mice. We also confirmed remarkably decreased coverage of reads in reference mapping in Apc locus, and there was a slight decrease of coverage in Pten locus. There were no additional driver gene mutations in CPC;Apc or CPC;Apc+Pten in WGS. All these results suggested just one copy loss of Pten resulting in aggressive tumor phenotype in CPC;Apc+Pten mice. In RNA-seq and subsequent GSEA comparing colonic tumors in CPC;Apc+Pten with those in CPC;Apc revealed upregulation of some signal pathways including mTORC1. Supporting this observation, number of colon tumors, especially adenocarcinomas, were decreased by rapamycin administration to CPC;Apc+Pten. Similarly, rapamycin was more effective in tumorids from CPC;Apc+Pten those from CPC;Apc. Conclusion: WGS reveals one copy loss of Pten locus is the only genetic alteration in CPC;Apc+Pten when compared with CPC;Apc. One copy loss of Pten is sufficient to upregulate mTORC1 pathway in a CPC;Apc+Pten mouse model, resulting in promotion of tumor formation and invasion. Citation Format: Haruki Sada, Hiroaki Niitsu, Hikaru Nakahara, Naoya Sakamoto, Hirotaka Tashiro, Hideki Ohdan, Takao Hinoi. The effect of Pten haploinsufficiency on genomic and transcriptomic profiles in combined genetically-engineered mouse models for colonic neoplasia based on Apc inactivation [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 2820.