| Q30671199 | A pattern recognition protein for peptidoglycan. Cloning the cDNA and the gene of the silkworm, Bombyx mori |
| Q34053118 | ABCA1 promotes the efflux of bacterial LPS from macrophages and accelerates recovery from LPS-induced tolerance |
| Q45283545 | Actinobacillus actinomycetemcomitans lipopolysaccharide activates matrix metalloproteinase-2 and increases receptor activator of nuclear factor-kappaB ligand expression in human periodontal ligament cells |
| Q42508619 | Adenoviral E1A primes alveolar epithelial cells to PM(10)-induced transcription of interleukin-8. |
| Q71793660 | Analysis of the CD14 receptor associated with bovine alveolar macrophages |
| Q36994830 | Apolipoprotein A-II augments monocyte responses to LPS by suppressing the inhibitory activity of LPS-binding protein. |
| Q34294329 | Associations between the duration of dialysis, endotoxemia, monocyte chemoattractant protein-1, and the effects of a short-dwell exchange in patients requiring continuous ambulatory peritoneal dialysis |
| Q48021507 | Autoimmune diabetes: the role of T cells, MHC molecules and autoantigens |
| Q39831511 | Azurophilic granules of human neutrophils contain CD14. |
| Q41043754 | Binding of bacterial peptidoglycan to CD14. |
| Q40384654 | Biochemical and functional characterization of membrane blebs purified from Neisseria meningitidis serogroup B. |
| Q40816001 | Biophysical characterization of endotoxin inactivation by NK-2, an antimicrobial peptide derived from mammalian NK-lysin |
| Q44884694 | Biophysical characterization of the interaction of Limulus polyphemus endotoxin neutralizing protein with lipopolysaccharide |
| Q40572293 | Blood-Borne Lipopolysaccharide Is Rapidly Eliminated by Liver Sinusoidal Endothelial Cells via High-Density Lipoprotein. |
| Q35765087 | CD14 and lipopolysaccharide binding protein expression in a rat model of alcoholic liver disease |
| Q24321720 | CD14 is a cell-activating receptor for bacterial peptidoglycan |
| Q33887457 | CD14, new aspects of ligand and signal diversity |
| Q50140195 | Catalytic properties of lipopolysaccharide (LPS) binding protein. Transfer of LPS to soluble CD14. |
| Q42061738 | Cellular binding of soluble CD14 requires lipopolysaccharide (LPS) and LPS-binding protein |
| Q45423961 | Cellular distribution of lipid A and LPS R595 after in vitro application to isolated human monocytes by freeze-fracture replica immunogold-labelling |
| Q45289385 | Cerebrospinal fluid levels of soluble CD14 in inflammatory and non-inflammatory diseases of the CNS: upregulation during bacterial infections and viral meningitis |
| Q39995180 | Clearance of bacterial lipopolysaccharides and lipid A by the liver and the role of argininosuccinate synthase |
| Q44754330 | Cloning and pharmacological characterization of the equine adenosine A3 receptor |
| Q31577999 | Construction of acetate auxotrophs of Neisseria meningitidis to study host-meningococcal endotoxin interactions |
| Q46501220 | Cotranslational biogenesis of NF-kappaB p50 by the 26S proteasome |
| Q52547524 | Covalent association of lipopolysaccharide at the hemocyte surface of insects is an initial step for its internalization--Protein-tyrosine phosphorylation requirement. |
| Q46287406 | Different effects of acute and chronic ethanol on LPS-induced cytokine production and TLR4 receptor behavior in mouse peritoneal macrophages |
| Q47749609 | Differential effects of bacterial lipopolysaccharides upon neutrophil function. |
| Q35551940 | Diphosphoryl lipid A from Rhodobacter sphaeroides inhibits complexes that form in vitro between lipopolysaccharide (LPS)-binding protein, soluble CD14, and spectrally pure LPS. |
| Q38852954 | Distinct single-cell signaling characteristics are conferred by the MyD88 and TRIF pathways during TLR4 activation. |
| Q35889127 | Early-phase alcoholic liver disease: an update on animal models, pathology, and pathogenesis |
| Q44003177 | Effect of steroids on lipopolysaccharide/interleukin 2-induced interleukin 18 production in peripheral blood mononuclear cells |
| Q34481898 | Endotoxin and CD14 in the progression of biliary atresia |
| Q33751658 | Endotoxin binding and elimination by monocytes: secretion of soluble CD14 represents an inducible mechanism counteracting reduced expression of membrane CD14 in patients with sepsis and in a patient with paroxysmal nocturnal hemoglobinuria. |
| Q52855586 | Enhancing actions of peptides derived from the γ-chain of fetal human hemoglobin on the immunostimulant activities of monophosphoryl lipid A. |
| Q28213451 | Evidence of a trimolecular complex involving LPS, LPS binding protein and soluble CD14 as an effector of LPS response |
| Q35552643 | Feeding a high-grain diet reduces the percentage of LPS clearance and enhances immune gene expression in goat liver |
| Q34017243 | Fluorescence resonance energy transfer analysis of lipopolysaccharide in detergent micelles |
| Q36883291 | Functional lipopolysaccharide receptors of low affinity are constitutively expressed on mouse bone marrow cells |
| Q40580192 | Glucocorticoid pretreatment induces cytokine overexpression and nuclear factor-kappaB activation in macrophages |
| Q38353657 | Helicobacter pylori and Porphyromonas gingivalis lipopolysaccharides are poorly transferred to recombinant soluble CD14. |
| Q52552199 | Hemocyte surface phenoloxidase (PO) and immune response to lipopolysaccharide (LPS) in Ceratitis capitata. |
| Q37304848 | Hemopexin down-regulates LPS-induced proinflammatory cytokines from macrophages |
| Q24291979 | High concentrations of lipopolysaccharide-binding protein in serum of patients with severe sepsis or septic shock inhibit the lipopolysaccharide response in human monocytes |
| Q41324146 | Identification of a domain in soluble CD14 essential for lipopolysaccharide (LPS) signaling but not LPS binding |
| Q40957825 | Immune response in insects: the role of phenoloxidase in defense reactions in relation to melanization and sclerotization |
| Q42985082 | Induction of procoagulant activity in virus infected bovine alveolar macrophages and the effect of lipopolysaccharide |
| Q34756570 | Initial responses to endotoxins and Gram-negative bacteria |
| Q41879281 | Internalization of monomeric lipopolysaccharide occurs after transfer out of cell surface CD14. |
| Q40624580 | Intracellular Recognition of Lipopolysaccharide by Toll-like Receptor 4 in Intestinal Epithelial Cells |
| Q56610443 | Invited review: Bacterial lipopolysaccharides and innate immunity |
| Q34048929 | LPS-binding protein enables intestinal epithelial restitution despite LPS exposure |
| Q37086179 | LPS-binding protein mediates LPS-induced liver injury and mortality in the setting of biliary obstruction |
| Q37381799 | LPS-binding protein protects mice from septic shock caused by LPS or gram-negative bacteria |
| Q28204864 | Lipopolysaccharide (LPS)-binding protein inhibits responses to cell-bound LPS |
| Q36445952 | Lipopolysaccharide binding protein promoter variants influence the risk for Gram-negative bacteremia and mortality after allogeneic hematopoietic cell transplantation |
| Q44314755 | Lipopolysaccharide binding protein-mediated complexation of lipopolysaccharide with soluble CD14. |
| Q74179329 | Lipopolysaccharide complexed with soluble CD14 binds to normal human monocytes |
| Q41402192 | Lipopolysaccharide dependent cellular activation |
| Q35214735 | Lipopolysaccharide inhibits the channel activity of the P2X7 receptor |
| Q24290990 | Lipopolysaccharide is in close proximity to each of the proteins in its membrane receptor complex. transfer from CD14 to TLR4 and MD-2 |
| Q41263976 | Lipopolysaccharide-binding protein cannot independently predict type 2 diabetes mellitus: A nested case-control study. |
| Q24310669 | Lipopolysaccharide-binding protein mediates CD14-independent intercalation of lipopolysaccharide into phospholipid membranes |
| Q31143473 | Lipopolysaccharide-binding protein of Bombyx mori participates in a hemocyte-mediated defense reaction against gram-negative bacteria. |
| Q42061821 | Lipopolysaccharide-binding proteins and their involvement in the bacterial clearance from the hemolymph of the silkworm Bombyx mori |
| Q53647950 | Localization of the lipopolysaccharide-binding protein in phospholipid membranes by atomic force microscopy. |
| Q80678600 | MAC1 mediates LPS-induced production of superoxide by microglia: the role of pattern recognition receptors in dopaminergic neurotoxicity |
| Q46806317 | Macrolides attenuate mucus hypersecretion in rat airways through inactivation of NF-kappaB. |
| Q35737359 | Modulating LPS signal transduction at the LPS receptor complex with synthetic Lipid A analogues |
| Q34121556 | Modulation of mouse endotoxic fever by complement |
| Q35755283 | Modulation of the innate immune response within the periodontium. |
| Q58831739 | Modulatory effect of interleukin-10 on the production of platelet-activating factor and superoxide anions by human leucocytes |
| Q39693467 | Moesin-induced signaling in response to lipopolysaccharide in macrophages |
| Q38292396 | Moraxella catarrhalis lipooligosaccharide selectively upregulates ICAM-1 expression on human monocytes and stimulates adjacent naïve monocytes to produce TNF-alpha through cellular cross-talk |
| Q54572114 | Mutation of amino acids 39-44 of human CD14 abrogates binding of lipopolysaccharide and Escherichia coli. |
| Q33752508 | Nuclear translocation of NF-kappaB in lipopolysaccharide-treated macrophages fails to correspond to endotoxicity: evidence suggesting a requirement for a gamma interferon-like signal. |
| Q42528827 | Oct-1 and CCAAT/enhancer-binding protein (C/EBP) bind to overlapping elements within the interleukin-8 promoter. The role of Oct-1 as a transcriptional repressor |
| Q35963446 | Oral inflammatory diseases and systemic inflammation: role of the macrophage. |
| Q40648610 | Oxidized galectin-1 reduces lipopolysaccharide-induced increase of proinflammatory cytokine mRNA in cultured macrophages |
| Q35474308 | Paclitaxel (Taxol)-induced NF-kappaB translocation in murine macrophages. |
| Q48010805 | Phagocytosis of Escherichia coli by insect hemocytes requires both activation of the Ras/mitogen-activated protein kinase signal transduction pathway for attachment and beta3 integrin for internalization |
| Q34081441 | Phosphorylcholine substituents in nematodes: structures, occurrence and biological implications |
| Q35960905 | Protective effect of ginsenosides Rg1 and Re on lipopolysaccharide-induced sepsis by competitive binding to Toll-like receptor 4 |
| Q35176262 | Receptors, mediators, and mechanisms involved in bacterial sepsis and septic shock |
| Q39827077 | Release of lipopolysaccharide from intracellular compartments containing Salmonella typhimurium to vesicles of the host epithelial cell. |
| Q74700968 | Role of lipid metabolites in the signalling and activation of macrophage cells by lipopolysaccharide |
| Q38313419 | Rough and smooth forms of fluorescein-labelled bacterial endotoxin exhibit CD14/LBP dependent and independent binding that is influencedby endotoxin concentration |
| Q28116165 | SP-R210 (Myo18A) Isoforms as Intrinsic Modulators of Macrophage Priming and Activation |
| Q39830111 | Saturable CD14-dependent binding of fluorescein-labeled lipopolysaccharide to human monocytes |
| Q73016806 | Shedding of membrane-bound CD14 from lipopolysaccharide-stimulated macrophages by vasoactive intestinal peptide and pituitary adenylate cyclase activating polypeptide |
| Q32161069 | Structural elucidation and monokine-inducing activity of two biologically active zwitterionic glycosphingolipids derived from the porcine parasitic nematode Ascaris suum |
| Q29392656 | Surfactant Proteins A and D Bind CD14 by Different Mechanisms |
| Q40849409 | Synthesis and in vitro activities of a spacer-containing glycophospholipid ligand of a lipopolysaccharide receptor involved in endotoxin tolerance |
| Q39647915 | TLR4 signaling is coupled to SRC family kinase activation, tyrosine phosphorylation of zonula adherens proteins, and opening of the paracellular pathway in human lung microvascular endothelia |
| Q39824240 | The N-terminal half of membrane CD14 is a functional cellular lipopolysaccharide receptor |
| Q28214380 | The carboxyl-terminal domain of closely related endotoxin-binding proteins determines the target of protein-lipopolysaccharide complexes |
| Q39610641 | The internalization time course of a given lipopolysaccharide chemotype does not correspond to its activation kinetics in monocytes |
| Q33690301 | The localization of two mimic epitopes of lipopolysaccharide binding protein and the preparation of their tandem multiple antigen peptide |
| Q38100278 | The role of lipopolysaccharide-binding protein in innate immunity: a revisit and its relevance to oral/periodontal health |
| Q47147432 | Toll-Like Receptor 4 Signalling and Its Impact on Platelet Function, Thrombosis, and Haemostasis. |
| Q36370326 | Toll-like receptor 4 resides in the Golgi apparatus and colocalizes with internalized lipopolysaccharide in intestinal epithelial cells |
| Q34296477 | Toll-like receptors and innate immunity. |
| Q36375236 | Transport of bacterial lipopolysaccharide to the golgi apparatus |
| Q38289102 | Triggering of the human interleukin-6 gene by interferon-gamma and tumor necrosis factor-alpha in monocytic cells involves cooperation between interferon regulatory factor-1, NF kappa B, and Sp1 transcription factors |