Project description:Transcriptional profiling of different mouse mammary cellular compartments (basal, luminal and stromal) under define hormone treatments: estrogen, progesterone, estrogen plus progesterone and the vehicle control. Goal was to determine the effect of ovarian hormones on mammary cellular compartment gene expression. Four-condition experiment within each cellular compartment. vehicle vs. estrogen, progesterone and estrogen plus progesterone. Biological replicates: 3 vehicle control, 4 estrogen treatment, 3 progesterone treatment, 4 estrogen plus progesterone treatment in each epithelial compartment (luminal, basal). 3 vehicle control, 3 estrogen, 3 progesterone, 3 estrogen plus progesterone in the stromal compartment.
Project description:Transcriptional profiling of different mouse mammary cellular compartments (basal, luminal and stromal) under define hormone treatments: estrogen, progesterone, estrogen plus progesterone and the vehicle control. Goal was to determine the effect of ovarian hormones on mammary cellular compartment gene expression.
Project description:To examine the effects of ERα antagonism (giredestrant) on Esr1-wildtype and Esr1-mutant mammary glands, animals were treated with hormone pellets (E2, P4), then dosed daily with vehicle (MCT) or giredestrant (30 mg/kg, p.o.) for four days. Following dosing, individual mammary epithelial cell populations were FACS-isolated and sequenced.
Project description:To examine the effects of ERα antagonism (giredestrant) on Esr1-wildtype and Esr1-mutant mammary glands, animals were treated with hormone pellets (E2, P4), then dosed daily with vehicle (MCT) or giredestrant (30 mg/kg, p.o.) for four days. Following dosing, individual mammary epithelial cell populations were FACS-isolated and sequenced.
