| Literature DB >> 36111352 |
Edmund Charles Jenkins1, Mrittika Chattopadhyay1, Maria Gomez2, Denis Torre3, Avi Ma'ayan3, Miguel Torres-Martin4, Daniela Sia5, Doris Germain1.
Abstract
A major limitation in the use of mouse models in breast cancer research is that most mice develop estrogen receptor-alpha (ERα)-negative mammary tumors, while in humans, the majority of breast cancers are ERα-positive. Therefore, developing mouse models that best mimic the disease in humans is of fundamental need. Here, using an inducible MMTV-rtTA/TetO-NeuNT mouse model, we show that despite being driven by the same oncogene, mammary tumors in young mice are ERα-negative, while they are ERα-positive in aged mice. To further elucidate the mechanisms for this observation, we performed RNAseq analysis and identified genes that are uniquely expressed in aged female-derived mammary tumors. We found these genes to be involved in the activation of the ERα axis of the mitochondrial UPR and the ERα-mediated regulation of XBP-1s, a gene involved in the endoplasmic reticulum UPR. Collectively, our results indicate that aging alters the oncogenic trajectory towards the ERα-positive subtype of breast cancers, and that mammary tumors in aged mice are characterized by the upregulation of multiple UPR stress responses regulated by the ERα.Entities:
Keywords: ER stress; XBP-1; aged mammary gland; aging; endoplasmic reticulum; estrogen receptor-alpha; mitochondrial UPR; unfolded protein response
Mesh:
Substances:
Year: 2022 PMID: 36111352 PMCID: PMC9577951 DOI: 10.1111/acel.13665
Source DB: PubMed Journal: Aging Cell ISSN: 1474-9718 Impact factor: 11.005