UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of SH2 domain-containing leukocyte-specific phosphoprotein of 76 kDa (SLP-76), a hematopoietic cell-specific adapter protein, is required to couple Syk family tyrosine kinase activation to downstream mediators such as phospholipase C (PLC)-gamma following TCR, platelet collagen receptor and mast cell Fc epsilon R stimulation. In addition to T cells, mast cells and platelets, SLP-76 is expressed in monocytes and macrophages. To determine the role of SLP-76 in Fc gamma R-stimulated signaling pathways in macrophages, we examined cultured bone marrow-derived macrophages (BMM) from SLP-76(-/-) and wild-type mice. In this study, we show that Fc gamma R cross-linking rapidly induces tyrosine phosphorylation of SLP-76 in wild-type BMM. Surprisingly, however, BMM from SLP-76(-/-) mice activate ERK2 and phosphorylate PLC-gamma 2 following Fc gamma R ligation. Furthermore, SLP-76(-/-) BMM display normal Fc gamma R-dependent phagocytic function and reactive oxygen intermediate production. SLP-76(-/-) and SLP-76(+/+) BMM secrete comparable levels of IL-12 in response to lipopolysaccharide and IFN-gamma. To examine macrophage function in vivo, SLP-76(-/-) mice were challenged i.v. with Listeria monocytogenes. SLP-76(-/-) mice survive and efficiently contain the acute phase of infection similar to wild-type mice but exhibit a stable chronic infection attributed to the lack of mature T cells. These data show that, although SLP-76 is required to couple Syk family PTK activity to downstream mediators and effector functions in Fc gamma R-induced pathways in some cell types, activation of Fc gamma R-dependent pathways occurs independently of SLP-76 in BM
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PMID:In vitro and in vivo macrophage function can occur independently of SLP-76. 1083 16

Genetic evidence indicating that TOLL-like receptor 4 (Tlr4) is the lipopolysaccharide (LPS) receptor in mice was reported. However, biochemical evidence that murine Tlr4 confers LPS responsiveness has not been convincingly demonstrated. Inducible cyclooxygenase (COX-2) is selectively expressed in LPS-stimulated macrophages in part mediated through the activation of NF kappa B. Thus, we determined whether murine Tlr4 confers LPS responsiveness as evaluated by the activation of NF kappa B and COX-2 expression. Transfection of a murine macrophage-like cell line (RAW264.7) with the constitutively active form (delta Tlr4) of Tlr4 is sufficient to activate NF kappa B and COX-2 expression. However, the truncated form (delta Tlr4(P712H)) of the missense mutant Tlr4(P712H) found in LPS-hyporesponsive mouse strain (C3H/HeJ) inhibits LPS-induced NF kappa B activation and COX-2 expression. The inability of delta Tlr4(P712H) to activate NF kappa B and induce COX-2 expression is rescued by a constitutively active adapter protein myeloid differentiation factor 88 (MyD88), which interacts directly with the cytoplasmic domain of Tlr proteins. Furthermore, MyD88 is co-immunoprecipitated with the wild-type delta Tlr4 but not with the delta Tlr4(P712H) mutant. Together, these results indicate that Tlr4 confers LPS responsiveness in RAW264.7 cells and suggest that hyporesponsiveness of C3H/HeJ mice to LPS is attributed to the disruption of Tlr4-mediated signaling pathways that results from the inability of the mutant Tlr4(P712H) to interact with MyD88.
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PMID:Murine TOLL-like receptor 4 confers lipopolysaccharide responsiveness as determined by activation of NF kappa B and expression of the inducible cyclooxygenase. 1095 94

Toll-like receptors are a family of receptors that recognize components of bacteria and induce a proinflammatory response by cells, including macrophages and endothelial cells. Ten human Toll receptors differing in their specificity for microbial components have been cloned. They respond to various components, including lipopolysaccharide of Gram-negative bacteria, lipopeptides of Gram-positive cell walls, bacterial DNA, and flagella. Some Toll-like receptors require the cooperation of an adapter protein. Toll-like receptor 4 function requires the presence of the protein MD2. Recently, it has been shown that Toll-like receptors function cooperatively to increase the specificity of response to a given microbe. Human polymorphisms of Toll-like receptor genes have been discovered and are associated with hyporesponsiveness to bacterial components.
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PMID:Toll receptors and sepsis. 1180 36

Toll-like receptor 2 (TLR2) agonists induce a subset of TLR4-inducible proinflammatory genes, which suggests the use of differential signaling pathways. Murine macrophages stimulated with the TLR4 agonist Escherichia coli lipopolysaccharide (LPS), but not with TLR2 agonists, induced phosphorylation of signal transducer and activator of transcription 1alpha (STAT1alpha) and STAT1beta, which was blocked by antibodies to interferon beta (IFN-beta) but not IFN-alpha. All TLR2 agonists poorly induced IFN-beta, which is encoded by an immediate early LPS-inducible gene. Thus, the failure of TLR2 agonists to induce STAT1-dependent genes resulted, in part, from their inability to express IFN-beta. TLR4-induced IFN-beta mRNA was MyD88- and PKR (double-stranded RNA-dependent protein kinase)-independent, but TIRAP (Toll-interleukin 1 receptor domain-containing adapter protein)-dependent. Together, these findings provide the first mechanistic basis for differential patterns of gene expression activated by TLR4 and TLR2 agonists.
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PMID:TLR4, but not TLR2, mediates IFN-beta-induced STAT1alpha/beta-dependent gene expression in macrophages. 1189 92

In human monocytes and macrophages, interferon-gamma (IFNgamma) augmented mRNA and surface expression of toll-like receptor 4 (TLR4), a crucial component of the signaling receptor complex for bacterial lipopolysaccharide (LPS). Expression of the accessory component MD-2 and of the adapter protein MyD88 was also increased. LPS increased TLR4 mRNA levels, but concomitantly decreased its surface expression. IFNgamma counteracted the LPS-induced downregulation of TLR4. IFNgamma-primed monocytes showed increased responsiveness to LPS in terms of phosphorylation of the interleukin-1 receptor-associated kinase (IRAK; immediately downstream of the MyD88 adapter protein), NF-kB DNA binding activity, and, accordingly, of cytokine (tumor necrosis factor alpha [TNFalpha] and interleukin-12 [IL-12]) production. These results suggest that enhanced TLR4 expression underlies the long-known priming by IFNgamma of mononuclear phagocytes for pathogen recognition and killing as well as its synergism with LPS in macrophage activation.
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PMID:Stimulation of toll-like receptor 4 expression in human mononuclear phagocytes by interferon-gamma: a molecular basis for priming and synergism with bacterial lipopolysaccharide. 1196 13

Toll-like receptor (TLR) signaling activates dendritic cells (DC) to secrete proinflammatory cytokines and up-regulate co-stimulatory molecule expression, thereby linking innate and adaptive immunity. A TLR-associated adapter protein, MyD88, is essential for cytokine production induced by TLR. However, in response to a TLR4 ligand, lipopolysaccharide (LPS), MyD88-deficient (MyD88(-/-)) DC can up-regulate co-stimulatory molecule expression and enhance their T cell stimulatory activity, indicating that the MyD88-independent pathway through TLR4 can induce some features of DC maturation. In this study, we have further characterized function of LPS-stimulated, MyD88(-/-) DC. In response to LPS, wild-type DC could enhance their ability to induce IFN-gamma production in allogeneic mixed lymphocyte reaction (alloMLR). In contrast, in response to LPS, MyD88(-/-) DC augmented their ability to induce IL-4 instead of IFN-gamma in alloMLR. Impaired production of T(h)1-inducing cytokines in MyD88(-/-) DC cannot fully account for their increased T(h)2 cell-supporting ability, because absence of T(h)1-inducing cytokines in DC caused impairment of IFN-gamma, but did not lead to augmentation of IL-4 production in alloMLR. In vivo experiments with adjuvants also revealed T(h)2-skewed immune responses in MyD88(-/-) mice. These results demonstrate that the MyD88-independent pathway through TLR4 can confer on DC the ability to support T(h)2 immune responses.
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PMID:Endotoxin can induce MyD88-deficient dendritic cells to support T(h)2 cell differentiation. 1209 28

Proteins containing PAAD [pyrin, AIM (absent-in-melanoma), ASC [apoptosis-associated speck-like protein containing a CARD (caspase-recruitment domain)] and DD (death domain)-like] (PYRIN, DAPIN) domains are involved in innate immunity, regulating pathways leading to nuclear-factor-kappa B (NF-kappa B) and pro-caspase-1 activation. Many PAAD-family proteins have structures reminiscent of Nod-1, a putative intracellular sensor of lipopolysaccharide. Hereditary mutations in some of the PAAD-family genes are associated with auto-inflammatory diseases. Several of these proteins utilize the bipartite PAAD- and CARD-containing adapter protein ASC/TMS-1 (target of methylation-induced silencing) for linking to downstream signalling pathways. In the present paper, we describe characterization of human PAAD-only protein-1 (POP1)/ASC2, which is highly homologous with the PAAD domain of ASC, and which probably originated by gene duplication on chromosome 16. We demonstrate that POP1/ASC2 associates with ASC via PAAD-PAAD interactions and modulates NF-kappa B and pro-caspase-1 regulation by this adapter protein. In gene transfer experiments, POP1/ASC2 suppressed cytokine-mediated NF-kappa B activation similar to other PAAD-family proteins previously tested. Immunohistochemical studies showed expression of POP1/ASC2 predominantly in macrophages and granulocytes. We propose that POP1/ASC2 functions as a modulator of multidomain PAAD-containing proteins involved in NF-kappa B and pro-caspase-1 activation and innate immunity.
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PMID:The PAAD/PYRIN-only protein POP1/ASC2 is a modulator of ASC-mediated nuclear-factor-kappa B and pro-caspase-1 regulation. 1293 66

MyD88 is an adapter protein that is involved in Toll-like receptor (TLR)- and interleukin-1 receptor (IL-1R)-induced activation of nuclear factor-kappaB (NF-kappaB) and c-Jun N-terminal kinase (JNK). By directly binding IL-1R-associated kinase (IRAK)-1 and IRAK-4, MyD88 serves as a bridging protein, enabling IRAK-4-induced IRAK-1 phosphorylation. We previously identified a lipopolysaccharide-inducible splice variant of MyD88, MyD88(S), which specifically prevents the recruitment of IRAK-4 into the IL-1R complex and thus inhibits IRAK-4-mediated IRAK-1 phosphorylation. MyD88(S) is not able to activate NF-kappaB, and in contrast functions as a dominant negative inhibitor of TLR/IL-1R-induced NF-kappaB activation. Unexpectedly, we here demonstrate that MyD88(S) still allows JNK phosphorylation and activator protein (AP)-1-dependent reporter gene induction upon overexpression in HEK293T cells. These observations indicate that NF-kappaB and JNK activation pathways can already diverge at the level of MyD88. Moreover, the regulated expression of a MyD88 splice variant which specifically interferes with NF-kappaB- but not AP-1-dependent gene expression implies an important role for alternative splicing in the fine-tuning of TLR/IL-1R responses.
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PMID:MyD88S, a splice variant of MyD88, differentially modulates NF-kappaB- and AP-1-dependent gene expression. 1288 15

A phenotype-driven approach led to the first understanding of precisely what the Toll-like receptors (TLR) did, when it was determined that the mammalian endotoxin (lipopolysaccharide; LPS) receptor is encoded by TLR4. The TLRs are the primary sensors of the innate immune system, and without them, small inocula of microorganisms pose a major threat to the host, growing unchecked for a long period before they are recognized. Mutations that affect innate immune sensing may account for a substantial fraction of sepsis, and a highly significant excess of mutations in TLR4 has been identified in patients with systemic meningococcal disease. As such, it is important to understand the pathways that are responsible for innate immune sensing, including the signaling intermediates utilized by the TLRs. Random germline mutagenesis identified a locus, Lps2, which is required for normal responses to double-stranded RNA and LPS. Hence, a single transducer was found to serve both the TLR3 and TLR4 response pathways. The Lps2 mutation was found to ablate entirely the MyD88-independent pathway for LPS sensing, indicating that two and only two branches of the LPS sensing pathway exist in macrophages, and homozygotes for the mutation were resistant to LPS, but markedly susceptible to infection with mouse cytomegalovirus. Remarkably, Lps2 mutant mice entirely failed to produce type I interferons in response to a viral infection. It would appear that Lps2 is the most proximal component of a signal integration system required for innate immune responses to both viral and bacterial diseases. Positional cloning revealed that the TIR adapter protein Trif/Ticam-1 is structurally altered by the Lps2 mutation. This adapter is responsible for shared effects of responses to viral and bacterial pathogens.
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PMID:Lps2 and signal transduction in sepsis: at the intersection of host responses to bacteria and viruses. 1462 Jan 35

Both lipopolysaccharide (LPS) and double-stranded RNA (dsRNA) are adjuvants for the adaptive immune response, inducing upregulation of costimulatory molecules (UCM) on antigen-presenting cells. Trif, an adapter protein that transduces signals from Toll-like receptor 4 (TLR4) and TLR3, permits the induction of many cytokines, including interferon-beta, which signals through the type I interferon receptor. We show here that LPS-induced UCM was strictly dependent on the TLR4-->Trif axis, whereas dsRNA-induced UCM was only partly dependent on the TLR3-->Trif axis. But both LPS- and dsRNA-induced UCM were entirely dependent on type I interferon receptor signaling. These findings show that UCM involves an autocrine or paracrine loop, and indicate that an alternative TLR3-independent, Trif-independent pathway contributes to dsRNA-induced UCM.
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PMID:Upregulation of costimulatory molecules induced by lipopolysaccharide and double-stranded RNA occurs by Trif-dependent and Trif-independent pathways. 1463 64

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