Bonne M. Thompson scite author profile

Summary To date estrogen is the only known endogenous estrogen receptor (ER) ligand that promotes ER+ breast tumor growth. We report that the cholesterol metabolite 27-hydroxycholesterol (27HC) stimulates MCF-7 cell xenograft growth in mice. More importantly, in ER+ breast cancer patients, 27HC content in normal breast tissue is increased compared to that in cancer-free controls, and tumor 27HC content is further elevated. Increased tumor 27HC is correlated with diminished expression of CYP7B1, the 27HC metabolizing enzyme, and reduced expression of CYP7B1 in tumors is associated with poorer patient survival. Moreover, 27HC is produced by MCF-7 cells and it stimulates cell-autonomous, ER-dependent and GDNF-RET-dependent cell proliferation. Thus, 27HC is a locally-modulated, non-aromatized ER ligand that promotes ER+ breast tumor growth.

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Liver-Derived Signals Sequentially Reprogram Myeloid Enhancers to Initiate and Maintain Kupffer Cell Identity

Sakai

et al. 2019

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A Mouse Macrophage Lipidome

Dennis

Deems

Harkewicz

et al. 2010

Journal of Biological Chemistry

275

282

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We report the lipidomic response of the murine macrophage RAW cell line to Kdo 2 -lipid A, the active component of an inflammatory lipopolysaccharide functioning as a selective TLR4 agonist and compactin, a statin inhibitor of cholesterol biosynthesis. Analyses of lipid molecular species by dynamic quantitative mass spectrometry and concomitant transcriptomic measurements define the lipidome and demonstrate immediate responses in fatty acid metabolism represented by increases in eicosanoid synthesis and delayed responses characterized by sphingolipid and sterol biosynthesis. Lipid remodeling of glycerolipids, glycerophospholipids, and prenols also take place, indicating that activation of the innate immune system by inflammatory mediators leads to alterations in a majority of mammalian lipid categories, including unanticipated effects of a statin drug. Our studies provide a systems-level view of lipid metabolism and reveal significant connections between lipid and cell signaling and biochemical pathways that contribute to innate immune responses and to pharmacological perturbations.The "omics" revolution has provided significant insight into the genes, mRNAs, and proteins of mammalian cells, biological systems, and disease (1-3). An important function of these macromolecular classes is the production of metabolites that in turn are used by cells for replication and function. Lipids comprise major structural and metabolic components of cells and have essential functions in the formation of membranes, energy production, and intracellular signaling. Despite the central role of lipids in mammalian cell function, there has been no systematic effort to define the lipid "parts list" of a mammalian cell or the changes in these lipids associated with cellular function and disease. Many biochemical pathways leading to the synthesis and degradation of major lipid categories are known, but how these pathways interact under normal and pathological conditions remains unexplored. Recent advances in mass spectrometry have made it possible to qualitatively and quantitatively analyze a majority of cellular lipids (4 -8). We report here a comprehensive systems-level analysis of a mammalian cell lipidome through temporal measurements.We characterized lipidomic responses of RAW264.7 (RAW) macrophages to a highly specific ligand for Toll-like receptor 4 (TLR4) 4 that mimics aspects of bacterial infection. This model is of particular interest because of the essential roles that alterations in macrophage lipid metabolism play in innate and adaptive immune responses and the development of chronic inflammatory and cardiovascular diseases. Recent studies further suggest that TLR signaling in macrophages is not only required for innate immunity against viral and bacterial pathogens but also contributes to the pathogenesis of atherosclerosis, diabetes, arthritis, and other inflammatory diseases (9). Although TLR4 signaling is known to exert profound effects on the macrophage transcriptome (10), proteome (11), and selected lipid species that...

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Bonne M. Thompson

Niche-Specific Reprogramming of Epigenetic Landscapes Drives Myeloid Cell Diversity in Nonalcoholic Steatohepatitis

25-Hydroxycholesterol secreted by macrophages in response to Toll-like receptor activation suppresses immunoglobulin A production

27-Hydroxycholesterol Promotes Cell-Autonomous, ER-Positive Breast Cancer Growth

Liver-Derived Signals Sequentially Reprogram Myeloid Enhancers to Initiate and Maintain Kupffer Cell Identity

A Mouse Macrophage Lipidome

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