Abstract PR002: Injury-associated transcriptional state transitions in early renal carcinogenesis

Abstract

Abstract Most epithelial cells with cancer driver mutations fail to form tumors. This has been particularly well established by genetic analysis of the renal epithelium, where cells with tumor-initiating mutations in the von Hippel-Lindau tumor suppressor (VHL) only rarely develop into clear cell renal carcinomas (ccRCC). The progression of VHLmutant cells to malignancy can take decades, offering a wide window of opportunity for preventative intervention. However, the cellular programs that facilitate the malignant transformation of VHL null ccRCC precursor clones remain elusive. Using a genetically engineered mouse model that allows conditional inactivation of Vhl and Polybromo 1 (Pbrm1), the second most commonly mutated ccRCC gene after VHL, in the renal epithelium of adult mice, we have analyzed the phenotypic evolution of the earliest stages of renal carcinoma formation over months at single cell resolution. Transcriptomic analysis by single cell RNA-sequencing (scRNA-seq) revealed that the acute activation of the hypoxia signaling response, a predicted consequence of genetic Vhl inactivation, is followed by distinct transcriptomic state transitions that precede the emergence of early carcinoma cells. These transitions are associated with constitutive activation of transcriptional programs that normally mediate acute and transient responses to renal injury, and are progressively activated at a low level in aging normal renal epithelium. Analysis of DNA accessibility by the single-cell assay for transposase-accessible chromatin using sequencing (scATAC-seq) identified widespread opening of chromatin regions in association with progression towards malignancy, revealing a chromatin footprint of tissue repair pathway activation. Analysis of human ccRCC samples, including early-stage cases from VHL mutation carriers, validated our observations at the transcriptomic and protein level. Furthermore, genetic perturbation experiments in transplantable ccRCC models demonstrated the functional role of the renal injury pathway in tumor re-initiation. These results are compatible with a model whereby activation of the renal epithelial injury pathway facilitates the early progression of mutant ccRCC precursor clones towards malignancy. That the same repair pathway is increasingly activated over time in normal renal epithelium points at a link between ageing and ccRCC development. An understanding of the causes of ageing-associated renal damage could provide opportunities for early intervention in ccRCC, especially in high-risk individuals. Citation Format: Shoko Hirosue, Jianfeng Ge, Leticia Castillon, Paulo Rodrigues, Dóra Bihary, Alyson Speed, Ludovic Wesolowski, Veronica Caraffini, Anne Y. Warren, Grant D. Stewart, Sarah J. Welsh, Thomas J. Mitchell, Athena Matakidou, Fatemeh S. Seyednasrollah, Shamith A. Samarajiwa, Sakari Vanharanta. Injury-associated transcriptional state transitions in early renal carcinogenesis [abstract]. In: Proceedings of the AACR Special Conference: Advances in Kidney Cancer Research; 2023 Jun 24-27; Austin, Texas. Philadelphia (PA): AACR; Cancer Res 2023;83(16 Suppl):Abstract nr PR002.