Epidemiological data link a lack of breastfeeding with an increased risk of breast cancer. Breast tissue remodels after pregnancy through involution. Long-term breastfeeding results in gradual involution (GI), and a lack of breastfeeding leads to abrupt involution (AI). AI causes increased mammary gland estrogen signaling, causing adipocyte redifferentiation through neutrophil infiltration. Adipocyte differences and metabolic implications of involution have not been explored between AI and GI. As breast cancer is characterized as highly metabolic, we explored how adipocyte differences and metabolism during involution may support breast cancer risk. FVB/n was randomized to AI/GI and standardized to 6 pups on day 0/birth. AI mice had pups removed on day 7. GI mice had 3 pups removed on days 28 and 31. Mammary glands were harvested at 28, 56, and 120 days. A subset of AI mice were given tamoxifen for 21 days. Day 28 AI glands had upregulation of estrogen signaling, neutrophil degranulation, and glucose metabolism and downregulation of adipogenesis and glycolysis compared to Day 56 GI. Day 120 AI glands had downregulation of oxidative phosphorylation and upregulation of mitochondrial dysfunction similar to estrogen receptor-negative (ER−) pregnancy-associated breast cancer (PABC). AI with tamoxifen resulted in a similar metabolic phenotype to GI. Early metabolic phenotypes in AI and GI glands may be related to estrogen signaling. AI long-term transcriptional metabolic effects were similar to breast cancer.
Ormiston et al. (Wed,) studied this question.