Meirav Zaks-Zilberman scite author profile

Overproduction of inflammatory mediators by macrophages in response to Gram-negative LPS has been implicated in septic shock. Recent reports indicate that three membrane-associated proteins, CD14, CD11b/CD18, and Toll-like receptor (TLR) 4, may serve as LPS recognition and/or signaling receptors in murine macrophages. Therefore, the relative contribution of these proteins in the induction of cyclooxygenase 2 (COX-2), IL-12 p35, IL-12 p40, TNF-α, IFN-inducible protein (IP)-10, and IFN consensus sequence binding protein (ICSBP) genes in response to LPS or the LPS-mimetic, Taxol, was examined using macrophages derived from mice deficient for these membrane-associated proteins. The panel of genes selected reflects diverse macrophage effector functions that contribute to the pathogenesis of septic shock. Induction of the entire panel of genes in response to low concentrations of LPS or Taxol requires the participation of both CD14 and TLR4, whereas high concentrations of LPS or Taxol elicit the expression of a subset of LPS-inducible genes in the absence of CD14. In contrast, for optimal induction of COX-2, IL-12 p35, and IL-12 p40 genes by low concentrations of LPS or by all concentrations of Taxol, CD11b/CD18 was also required. Mitigated induction of COX-2, IL-12 p35, and IL-12 p40 gene expression by CD11b/CD18-deficient macrophages correlated with a marked inhibition of NF-κB nuclear translocation and mitogen-activated protein kinase (MAPK) activation in response to Taxol and of NF-κB nuclear translocation in response to LPS. These findings suggest that for expression of a full repertoire of LPS-/Taxol-inducible genes, CD14, TLR4, and CD11b/CD18 must be coordinately engaged to deliver optimal signaling to the macrophage.

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Differential ability of Tribbles family members to promote degradation of C/EBPα and induce acute myelogenous leukemia

Dedhia

et al. 2010

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Trib1, Trib2, and Trib3 are mammalian homologs of Tribbles, an evolutionarily conserved Drosophila protein family that mediates protein degradation. Tribbles proteins function as adapters to recruit E3 ubiquitin ligases and enhance ubiquitylation of the target protein to promote its degradation. Increased Trib1 and Trib2 mRNA expression occurs in human myeloid leukemia and induces acute myeloid leukemia in mice, whereas Trib3 has not been associated with leukemia. Given the high degree of structural conservation among Tribbles family members, we directly compared the 3 mammalian Tribbles in hematopoietic cells by reconstituting mice with hematopoietic stem cells retrovirally expressing these proteins. All mice receiving Trib1 or Trib2 transduced hematopoietic stem cells developed acute myeloid leukemia, whereas Trib3 mice did not. Our previous data indicated that Trib2-mediated degradation of the transcription factor, CCAAT/enhancer-binding protein-alpha (C/EBPα), is important for leukemogenesis. Similar to Trib2, Trib1 induced C/EBPα degradation and inhibited its function. In contrast, Trib3 failed to inactivate or promote efficient degradation of C/EBPα. These data reveal that the 3 Tribbles homologs differ in their ability to promote degradation of C/EBPα, which account for their differential ability to induce leukemia.

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INDUCTION OF PROINFLAMMATORY AND CHEMOKINE GENES BY LIPOPOLYSACCHARIDE AND PACLITAXEL (Taxol™) IN MURINE AND HUMAN BREAST CANCER CELL LINES

2001

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Neuromedin Elicits Cytokine Release in Murine Th2-Type T Cell Clone D10.G4.1

Johnson

Appelbaum²,

Carptenter

et al. 2004

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Neuromedin U (NmU), originally isolated from porcine spinal cord and later from other species, is a novel peptide that potently contracts smooth muscle. NmU interacts with two G protein-coupled receptors designated as NmU-1R and NmU-2R. This study demonstrates a potential proinflammatory role for NmU. In a mouse Th2 cell line (D10.G4.1), a single class of high affinity saturable binding sites for 125I-labeled NmU (KD 364 pM and Bmax 1114 fmol/mg protein) was identified, and mRNA encoding NmU-1R, but not NmU-2R, was present. Competition binding analysis revealed equipotent, high affinity binding of NmU isopeptides to membranes prepared from D10.G4.1 cells. Exposure of these cells to NmU isopeptides resulted in an increase in intracellular Ca2+ concentration (EC50 4.8 nM for human NmU). In addition, NmU also significantly increased the synthesis and release of cytokines including IL-4, IL-5, IL-6, IL-10, and IL-13. Studies using pharmacological inhibitors indicated that maximal NmU-evoked cytokine release required functional phospholipase C, calcineurin, MEK, and PI3K pathways. These data suggest a role for NmU in inflammation by stimulating cytokine production by T cells.

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