Metformin reduces basal subpopulation and attenuates mammary epithelial cell stemness in FVB/N mice
Minghui Shan, Qiong Cheng, Amanda B. Parris, Lingfei Kong, Xiaohe Yang, Yujie Shi

TL;DR
Metformin reduces mammary cell growth and stemness in mice, potentially preventing breast cancer by altering key signaling pathways.
Contribution
The study reveals metformin's novel impact on mammary epithelial cell stemness and proliferation in non-tumorigenic mice.
Findings
Metformin reduced mammary gland proliferation and lateral bud formation in mice.
Metformin downregulated key signaling pathways like AMPK/mTOR and PI3K/Akt.
RNA sequencing showed metformin altered genes in pathways linked to cancer and immune modulation.
Abstract
Metformin shows promise in breast cancer prevention, but its underlying mechanisms remain unclear. This study investigated the impact of metformin on the repopulation dynamics of mammary epithelial cells (MECs) and the signaling pathways in non-tumorigenic FVB/N mice. This study aimed to enhance our understanding of the role of metformin in reducing the susceptibility of MECs in premalignant tissues to oncogenic factors. In this study, female mice were administered 200 mg/kg/day of metformin via intraperitoneal (i.p.) injection from 8 to 18 weeks of age. After this treatment period, morphogenesis, flow cytometry, analyses of MEC stemness, and RNA sequencing were performed. The study findings indicated that metformin treatment in adult mice reduced mammary gland proliferation, as demonstrated by decreased Ki67+ cells and lateral bud formation. Additionally, metformin significantly…
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Taxonomy
TopicsMetabolism, Diabetes, and Cancer · Cancer Cells and Metastasis · Cancer-related Molecular Pathways
