Project description:A membrane protein SIRPα (CD172a) interacts with another membrane protein CD47 and thereby constitutes a cell–cell contact signal. To investigate the functional role of CD47-SIRPα signal in the brain, we analyzed the effect of genetic ablation of CD47-SIRPα signal on the gene expression profile in specific brain cells by the use of microarrays.
Project description:A membrane protein SIRPα (CD172a) interacts with another membrane protein CD47 and thereby constitutes a cell–cell contact signal. To investigate the functional role of CD47-SIRPα signal in the brain, we analyzed the effect of genetic ablation of CD47-SIRPα signal on the gene expression profile in specific brain regions by the use of microarrays.
Project description:CD47 is a ubiquitous cell surface receptor that limits cell clearance by phagocytes that express its counter-receptor signal-regulatory protein-α and directly regulates T cell immunity by interacting with its inhibitory ligand thrombospondin-1. Murine natural killer (NK) cells express higher levels of CD47 than other lymphocytes, but the role of CD47 in regulating NK cell homeostasis and immune function remains unclear. Cd47-/- mice exhibited depletion of NK precursors in bone marrow, but antisense Cd47 knockdown or gene disruption resulted in a dose dependent accumulation of immature and mature NK cells in spleen. Cd47-/- mice were impaired in controlling chronic Clone-13 lymphocytic choriomeningitis virus (LCMV) infection, which was associated with depletion of splenic NK cells and loss of effector cytokine and interferon response gene expression in Cd47-/- NK cells. These data identify CD47 as a cell-intrinsic and systemic regulator of NK cell homeostasis and NK cell responses to viral infection.
Project description:We undertook a unbiased genome-wide haploid genetic screen to identify new components in interferon lambda signaling. In addition, we performed a genome-wide screen to identify genes that repress spontaneous activation of interferon stimulated genes in the absence of interferon. Both of these screens were performed using a HAP1 cell line containing GFP reporter under the transcriptional regulation of the Interferon-Stimulated Response Element from IFIT2. We also overexpressed IL28RA (IFNLR1) in this cell line, in order to sensitize the cells to type III interferon
Project description:CD47 is a marker of self and a signaling receptor for thrombospondin-1 that is also a membrane
component of extracellular vesicles (EVs) released by various cell types. Previous studies identified CD47-dependent functional effects of EVs on target cells, mediated by delivery of their RNA contents, and enrichment of specific subsets of coding and noncoding RNAs in CD47+ EVs. Here, transcriptomic analyses of EVs released by human and murine cells revealed CD47-dependent enrichment of capped microRNAs and mRNAs. Knockdown or loss of CD47 in wild type Jurkat T cells or treatment with thrombospondin-1 enhanced levels of specific capped-RNAs released in EVs, and reexpressing CD47 in null cells decreased their levels. Mass spectrometry and co-immunoprecipitation identified specific interactions of CD47 with components of the exportin-1/Ran nuclear export complex and its known cargo proteins and between the CD47 cytoplasmic adapter ubiquilin-1 and the exportin-1/Ran complex. Interaction with CD47 was inhibited following alkylation of exportin-1 at Cys528 by leptomycin B. Leptomycin B treatment increased levels of cap-dependent RNAs and their association with exportin-1 in EVs released from wild type but not CD47-deficient cells. These results indicate that CD47
regulates the trafficking of cap-dependent RNAs to EVs through physical interactions with the exportin-1/Ran transport complex. Within the files, lmj1038 represents the control pulldown from CD47- JinB8 cells whereas lmj1039 is the CD47+ pulldown from wild-type Jurkat cells.
Project description:Signaling through the thrombospondin-1 receptor CD47 broadly limits cell and tissue survival of stress, but the molecular mechanisms are incompletely understood. We now show that loss of CD47 permits sustained proliferation of primary murine endothelial cells and enables these cells to spontaneously reprogram to form multipotent embryoid bodies. c-Myc, Klf4, Oct4, and Sox2 expression is elevated in CD47-null endothelial cells, in several tissues of CD47- or thrombospondin-1-null mice, and in a human T cell line lacking CD47. CD47 knockdown acutely increases mRNA levels of c-Myc and other stem cell transcription factors in cells and in vivo, whereas CD47 ligation by thrombospondin-1 suppresses c-Myc expression. The inhibitory effects of increasing CD47 levels can be overcome by maintaining c-Myc expression and are absent in cells with dysregulated c-Myc. Thus, CD47 antagonists enable cell self-renewal and reprogramming by overcoming negative regulation of c-Myc and other stem cell transcription factors. To identify gene expression changes associated with CD47 null cells, we compared the gene expression profile of these cells with WT endothelial cell, CD47 null Embryoid bodies cells and an established Embryonic Stem cell line.