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Estrogen exacerbates mammary involution through neutrophil dependent and independent mechanism

TitleEstrogen exacerbates mammary involution through neutrophil dependent and independent mechanism
Publication TypeJournal Article
Year of Publication2020
AuthorsL Lim, C., Y. Z Or, Z. Ong, H. H Chung, H. Hayashi, S. Shrestha, S. Chiba, F. Lin, V. Chun, and L. Lin
JournaleLife
Volume9
Pagination1 - 65
Date Published2020
Type of ArticleArticle
ISBN Number2050084X (ISSN)
KeywordsSchool of Basic and Applied Sciences, Scopus, WoS
Abstract

There is strong evidence that the pro-inflammatory microenvironment during postpartum mammary involution promotes parity-associated breast cancer. Estrogen exposure during mammary involution drives tumour growth through neutrophils’ activity. However, how estrogen and neutrophils influence mammary involution are unknown. Combined analysis of transcriptomic, protein, and immunohistochemical data in BALB/c mice showed that estrogen promotes involution by exacerbating inflammation, cell death and adipocytes repopulation. Remarkably, 88% of estrogen-regulated genes in mammary tissue were mediated through neutrophils, which were recruited through estrogen-induced CXCR2 signalling in an autocrine fashion. While neutrophils mediate estrogen-induced inflammation and adipocytes repopulation, estrogen-induced mammary cell death was via lysosomemediated programmed cell death through upregulation of cathepsin B, Tnf and Bid in a neutrophil-independent manner. Notably, these multifaceted effects of estrogen are mostly mediated by ERα and unique to the phase of mammary involution. These findings are important for the development of intervention strategies for parity-associated breast cancer.

DOI10.7554/eLife.57274
Short TitleeLife

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