Project description:ZMYND8 is a master regulator of 27-hydroxycholesterol metabolism in breast cancer stem cells.

Project description:ZMYND8 is a master regulator of 27-hydroxycholesterol metabolism in breast cancer stem cells.

Project description:Regulation of 27-hydroxycholesterol metabolism by ZMYND8

Project description:Mice bearing Met1 tumors were treated with extracellular vessicles (EVs) isolated from neutrophils treated with vehicle (DMSO) or 27-hydroxycholesterol. RNAseq was performed on harvested tumors.

Project description:The cholesterol metabolite and SERM, 27HC, is the signaling molecule that links cholesterol to breast cancer pathophysiology Hypercholesterolemia is a risk factor for breast cancer, and patients taking statins demonstrate lower breast cancer incidence and decreased breast cancer recurrence, data that highlights the potential importance of the recent finding that 27-Hydroxycholesterol (27HC), a primary metabolite of cholesterol, acts as a selective estrogen receptor modulator (SERM). The goal of this study was to evaluate the impact of 27HC on breast cancer pathophysiology. Elevation of 27HC in murine models increased tumor growth in an estrogen receptor dependent manner. Importantly, a high cholesterol diet decreased the time to tumor onset and increased tumor growth, and this response required presence of CYP27A1. Within human breast cancer samples, CYP27A1 expression increasesd with grade, in addition to being highly expressed in tumor associated macrophages. Finally 27HC increases metastasis to the lung. The findings herein strongly support a role for 27HC in breast cancer pathophysiology, providing support for the exploration of potential chemopreventative benefits of lower cholesterol diets, and pharmacological inhibitors of HMG-CoA reductase or CYP27A1. MCF-7 cells were treated as indicated in the presence of E2 or vehicle; RNA was isolated and used for preparation of label for 3' expression analysis.

Project description:Human aortic endothelial cells were treated with vehicle (LUM1_S07615), estradiol (LUM1_S07617) or 27-hydroxycholesterol (LUM1_S07618), estrogen receptor alpha was immunoprecipitated, and the changes in the receptor interactome were interrogated.

Project description:The cholesterol metabolite and SERM, 27HC, is the signaling molecule that links cholesterol to breast cancer pathophysiology Hypercholesterolemia is a risk factor for breast cancer, and patients taking statins demonstrate lower breast cancer incidence and decreased breast cancer recurrence, data that highlights the potential importance of the recent finding that 27-Hydroxycholesterol (27HC), a primary metabolite of cholesterol, acts as a selective estrogen receptor modulator (SERM). The goal of this study was to evaluate the impact of 27HC on breast cancer pathophysiology. Elevation of 27HC in murine models increased tumor growth in an estrogen receptor dependent manner. Importantly, a high cholesterol diet decreased the time to tumor onset and increased tumor growth, and this response required presence of CYP27A1. Within human breast cancer samples, CYP27A1 expression increasesd with grade, in addition to being highly expressed in tumor associated macrophages. Finally 27HC increases metastasis to the lung. The findings herein strongly support a role for 27HC in breast cancer pathophysiology, providing support for the exploration of potential chemopreventative benefits of lower cholesterol diets, and pharmacological inhibitors of HMG-CoA reductase or CYP27A1.

Project description:27 Hydroxycholesterol represses G9a expression via Estrogen Receptor alpha in breast cancer

Project description:Tumorpsheres and mammospheres were used to propagate mouse breast tumor-initiating cells and their normal stem/progenitor counterparts, respectively. Mammospheres induced to differentiate were used to model the more differentiated cells of the mouse mammary gland. We used microarrays to find differentrially expressed genes between tumorspheres, mammospheres, and mammospheres induced to differentiate

Project description:27-Hydroxycholesterol (27-HC) is the most abundant oxysterol that increases the risk of breast cancer progression. However, little is known about epigenetic regulation of 27-HC metabolism and its role in breast tumor initiation. Using genetic mouse mammary tumor and human breast cancer models, we showed here that the histone reader ZMYND8 was selectively expressed in breast cancer stem cells (BCSCs) and promoted epithelial-mesenchymal transition (EMT), BCSC maintenance and self-renewal, and oncogenic transformation through its epigenetic functions, leading to breast tumor initiation. Mechanistically, ZMYND8 was a master transcriptional regulator of 27-HC metabolism. It increased cholesterol biosynthesis and oxidation but blocked cholesterol efflux and 27-HC catabolism, leading to accumulation of 27-HC in BCSCs. Consequently, 27-HC promoted EMT, oncogenic transformation, and tumor initiation through activation of liver X receptor. These findings reveal that ZMYND8 is an epigenetic booster that drives breast tumor initiation through metabolic reprogramming.