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Modification of BRCA1-associated breast cancer risk by HMMR overexpression

Francesca Mateo, Zhengcheng He, Lin Mei, Gorka Ruíz de Garibay, Carmen Herranz, Nadia García, Amanda Lorentzian, Alexandra Baiges, Eline Blommaert, Antonio Gómez, Oriol Mirallas, Anna Garrido‐Utrilla, Luís Palomero, Roderic Espín, Ana I. Extremera, María Teresa Soler-Monsó, Anna Petit, Rong Li, Joan Brunet, Ke Chen, Susanna Tan, Connie J. Eaves, Curtis W. McCloskey, Razqallah Hakem, Rama Khokha, Philipp F. Lange, Conxi Lázaro, Christopher A. Maxwell, Miguel Ángel Pujana

2022Nature Communications53 citationsDOIOpen Access PDF

Abstract

Breast cancer risk for carriers of BRCA1 pathological variants is modified by genetic factors. Genetic variation in HMMR may contribute to this effect. However, the impact of risk modifiers on cancer biology remains undetermined and the biological basis of increased risk is poorly understood. Here, we depict an interplay of molecular, cellular, and tissue microenvironment alterations that increase BRCA1-associated breast cancer risk. Analysis of genome-wide association results suggests that diverse biological processes, including links to BRCA1-HMMR profiles, influence risk. HMMR overexpression in mouse mammary epithelium increases Brca1-mutant tumorigenesis by modulating the cancer cell phenotype and tumor microenvironment. Elevated HMMR activates AURKA and reduces ARPC2 localization in the mitotic cell cortex, which is correlated with micronucleation and activation of cGAS-STING and non-canonical NF-κB signaling. The initial tumorigenic events are genomic instability, epithelial-to-mesenchymal transition, and tissue infiltration of tumor-associated macrophages. The findings reveal a biological foundation for increased risk of BRCA1-associated breast cancer.

Topics & Concepts

Breast cancerCarcinogenesisCancer researchBiologyGenome instabilityCancerDNA damageGeneticsDNAinterferon and immune responsesRNA modifications and cancerRNA Research and Splicing
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