Abstract 6624: MYC promotes lobuloalveologenesis and mammary tumorigenesis in male mice

Abstract

Abstract Male breast cancer is a rare disease that is largely overlooked and clinically regarded to recapitulate female breast cancer biology. The worse overall outcome for male patients compared to females, however, underscores inadequate disease management and a sex-based divergence in disease biology. To gain more insight into male breast biology and pathology, we used mouse models of triple-negative breast cancer and 3D whole-mount confocal imaging techniques to evaluate both in vivo and ex vivo mammary gland development, tumor formation, and hormone signaling dependence. Our results show that Myc overexpression in collaboration with Trp53 deficiency drives mammary tumorigenesis in male mice. We show that MYC overexpression promotes estrogen-independent formation of lobuloalveolar structures, which progress into tumors with a similar histology and immune landscape as female mammary tumors but with significantly more genomic instability. In female mice, MYC overexpression bypasses the dependency on paracrine estrogen signaling in mammary tumorigenesis. These data provide robust evidence that MYC overrides mammary tumor estrogen dependence and abolishes the tumor-preventive effect of a low-estrogen environment. Supporting this notion, in vitro experiments in human female breast cancer cell lines indicate that MYC overexpression may functionally contribute to endocrine therapy resistance and therefore could possibly serve as a prognostic biomarker or clinically targetable pathway for treating both male and female breast cancers. Collectively, this preclinical work presents new insights into male mammary gland biology and mechanisms of cancer progression that might translate to a broader range of breast cancers in the clinic. Citation Format: Emilia M. Pulver, Eline van der Burg, Anne Paulien Drenth, Julia Yemelyanenko, Nils Ravensbergen, Roebi de Bruijn, Sjoerd Klarenbeek, Ji-Ying Song, Manon Boeije, Bjørn Siteur, Natalie Proost, Colinda Scheele, Peter Bouwman, Jos Jonkers. MYC promotes lobuloalveologenesis and mammary tumorigenesis in male mice [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 6624.