LXR-Dependent Gene Expression Is Important for Macrophage Survival and the Innate Immune Response
暂无分享,去创建一个
Peter Tontonoz | Ryan M. O’Connell | Kevin W. Bruhn | Genhong Cheng | G. Cheng | J. Hogenesch | Jeff F. Miller | S. Joseph | P. Tontonoz | P. A. Mak | E. Saez | Liming Pei | M. Bradley | A. Castrillo | Ryan M. O'Connell | Enrique Saez | K. Bruhn | Michelle N. Bradley | Sean B. Joseph | Antonio Castrillo | Puiying A. Mak | Liming Pei | John Hogenesch | Jeffery F. Miller
[1] Ryan M. O’Connell,et al. Type I Interferon Production Enhances Susceptibility to Listeria monocytogenes Infection , 2004, The Journal of experimental medicine.
[2] William A. Boisvert,et al. Transcriptional Repression of Atherogenic Inflammation: Modulation by PPARδ , 2003, Science.
[3] G. Cheng,et al. Crosstalk between LXR and toll-like receptor signaling mediates bacterial and viral antagonism of cholesterol metabolism. , 2003, Molecular cell.
[4] D. Mangelsdorf,et al. Liver X receptor signaling pathways in cardiovascular disease. , 2003, Molecular endocrinology.
[5] G. Núñez,et al. Cell death and immunity: NODs: intracellular proteins involved in inflammation and apoptosis , 2003, Nature Reviews Immunology.
[6] Takashi Yamamoto,et al. AIM inhibits apoptosis of T cells and NKT cells in Corynebacterium-induced granuloma formation in mice. , 2003, The American journal of pathology.
[7] D. Rader,et al. Lipolysis of triglyceride-rich lipoproteins generates PPAR ligands: Evidence for an antiinflammatory role for lipoprotein lipase , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[8] E. Unanue,et al. MyD88-Dependent but Toll-Like Receptor 2-Independent Innate Immunity to Listeria: No Role for Either in Macrophage Listericidal Activity1 , 2002, The Journal of Immunology.
[9] Aldons J. Lusis,et al. Identification of macrophage liver X receptors as inhibitors of atherosclerosis , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[10] R. Walczak,et al. Autoregulation of the Human Liver X Receptor α Promoter , 2001, Molecular and Cellular Biology.
[11] Makio Kobayashi,et al. Association of AIM, a Novel Apoptosis Inhibitory Factor, with Hepatitis via Supporting Macrophage Survival and Enhancing Phagocytotic Function of Macrophages* , 2001, The Journal of Biological Chemistry.
[12] Christopher K. Glass,et al. Atherosclerosis The Road Ahead , 2001, Cell.
[13] D. Mangelsdorf,et al. LXRs control lipid-inducible expression of the apolipoprotein E gene in macrophages and adipocytes. , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[14] P. Edwards,et al. Control of cellular cholesterol efflux by the nuclear oxysterol receptor LXR alpha. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[15] K. Fettucciari,et al. Group B Streptococcus Induces Apoptosis in Macrophages1 , 2000, The Journal of Immunology.
[16] D. Mangelsdorf,et al. Regulation of absorption and ABC1-mediated efflux of cholesterol by RXR heterodimers. , 2000, Science.
[17] E. Unanue,et al. Immunity to Listeria infection. , 2000, Current opinion in immunology.
[18] T. V. van Berkel,et al. Hepatic and extrahepatic scavenger receptors: function in relation to disease. , 2000, Arteriosclerosis, thrombosis, and vascular biology.
[19] M. Díaz-Guerra,et al. Inhibition of IκB Kinase and IκB Phosphorylation by 15-Deoxy-Δ12,14-Prostaglandin J2 in Activated Murine Macrophages , 2000, Molecular and Cellular Biology.
[20] A. Aruffo,et al. Molecular cloning, genomic organization and cell‐binding characteristicsof mouse Spα , 2000, Immunology.
[21] M. Naito,et al. Increased Susceptibility of Thymocytes to Apoptosis in Mice Lacking AIM, a Novel Murine Macrophage-derived Soluble Factor Belonging to the Scavenger Receptor Cysteine-rich Domain Superfamily , 1999, The Journal of experimental medicine.
[22] S. Gordon,et al. Regulation and functional involvement of macrophage scavenger receptor MARCO in clearance of bacteria in vivo. , 1999, Journal of immunology.
[23] R. Hammer,et al. Cholesterol and Bile Acid Metabolism Are Impaired in Mice Lacking the Nuclear Oxysterol Receptor LXRα , 1998, Cell.
[24] R. Evans,et al. PPARγ Promotes Monocyte/Macrophage Differentiation and Uptake of Oxidized LDL , 1998, Cell.
[25] Christopher K. Glass,et al. The peroxisome proliferator-activated receptor-γ is a negative regulator of macrophage activation , 1998, Nature.
[26] H. Hilbi,et al. The interleukin 1beta-converting enzyme, caspase 1, is activated during Shigella flexneri-induced apoptosis in human monocyte-derived macrophages , 1997, Infection and immunity.
[27] J. W. Conlan,et al. Murine listeriosis as a model of antimicrobial defense , 1997, Immunological reviews.
[28] G. Puzo,et al. Differential induction of apoptosis by virulent Mycobacterium tuberculosis in resistant and susceptible murine macrophages: role of nitric oxide and mycobacterial products. , 1997, Journal of immunology.
[29] Yukiko Kurihara,et al. A role for macrophage scavenger receptors in atherosclerosis and susceptibility to infection , 1997, Nature.
[30] U. Francke,et al. Molecular Cloning, Mapping to Human Chromosome 1 q21-q23, and Cell Binding Characteristics of Spα, a New Member of the Scavenger Receptor Cysteine-rich (SRCR) Family of Proteins* , 1997, The Journal of Biological Chemistry.
[31] Timothy M. Willson,et al. Activation of the Nuclear Receptor LXR by Oxysterols Defines a New Hormone Response Pathway* , 1997, The Journal of Biological Chemistry.
[32] D. Mangelsdorf,et al. An oxysterol signalling pathway mediated by the nuclear receptor LXRα , 1996, Nature.
[33] K. Timmis,et al. Apoptosis of mouse dendritic cells is triggered by listeriolysin, the major virulence determinant of Listeria monocytogenes , 1996, Molecular microbiology.
[34] I. Esparza. [The function of macrophages]. , 1986, Medicina clinica.
[35] D. Mangelsdorf,et al. The role of orphan nuclear receptors in the regulation of cholesterol homeostasis. , 2000, Annual review of cell and developmental biology.