scholarly article | Q13442814 |
P356 | DOI | 10.1128/IAI.01232-07 |
P8608 | Fatcat ID | release_ydfpczsjjfgnpp4lfvotcyjt4m |
P932 | PMC publication ID | 2223647 |
P698 | PubMed publication ID | 17938214 |
P2093 | author name string | Ashok Kumar | |
Fu-Shin X Yu | |||
Linda D Hazlett | |||
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What is the role of nitric oxide in murine and human host defense against tuberculosis?Current knowledge | Q34442443 | ||
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Cathelicidin-deficient (Cnlp -/- ) mice show increased susceptibility to Pseudomonas aeruginosa keratitis | Q34522531 | ||
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Improved outcome in shigellosis associated with butyrate induction of an endogenous peptide antibiotic | Q34694936 | ||
Flagellin suppresses epithelial apoptosis and limits disease during enteric infection | Q35607301 | ||
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CpG DNA induces self and cross-hyporesponsiveness of RAW264.7 cells in response to CpG DNA and lipopolysaccharide: alterations in IL-1 receptor-associated kinase expression | Q38358926 | ||
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Staphylococcus aureus protein A induced inflammatory response in human corneal epithelial cells | Q42117524 | ||
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Attenuated pathogenesis of polymicrobial peritonitis in mice after TLR2 agonist pre-treatment involves ST2 up-regulation | Q43737915 | ||
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Role and regulation of CXC-chemokines in acute experimental keratitis | Q44257276 | ||
Caspase-1 inhibitor reduces severity of pseudomonas aeruginosa keratitis in mice | Q45027997 | ||
Activation of toll-like receptor (TLR)2, TLR4, and TLR9 in the mammalian cornea induces MyD88-dependent corneal inflammation | Q45238776 | ||
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KC production in the cornea in response to Pseudomonas aeruginosa challenge | Q73395732 | ||
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Endotoxin tolerance: A review | Q77758851 | ||
Toll-like receptors in the cornea | Q79537153 | ||
Toll-like receptors and the eye | Q82973353 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Pseudomonas aeruginosa | Q31856 |
inflammation | Q101991 | ||
murine model | Q122890741 | ||
P304 | page(s) | 89-96 | |
P577 | publication date | 2007-10-15 | |
P1433 | published in | Infection and Immunity | Q6029193 |
P1476 | title | Flagellin suppresses the inflammatory response and enhances bacterial clearance in a murine model of Pseudomonas aeruginosa keratitis | |
P478 | volume | 76 |
Q37832951 | Animal models of bacterial keratitis |
Q41074464 | Chitinase 3-Like 1 Promotes Candida albicans Killing and Preserves Corneal Structure and Function by Controlling Host Antifungal Responses |
Q41891809 | Clearance of Pseudomonas aeruginosa from a healthy ocular surface involves surfactant protein D and is compromised by bacterial elastase in a murine null-infection model. |
Q42645252 | Contributions of MyD88-dependent receptors and CD11c-positive cells to corneal epithelial barrier function against Pseudomonas aeruginosa |
Q34937175 | Disruption of contact lens-associated Pseudomonas aeruginosa biofilms formed in the presence of neutrophils |
Q35892435 | Escherichia coli Nissle 1917 bacterial ghosts retain crucial surface properties and express chlamydial antigen: an imaging study of a delivery system for the ocular surface |
Q33613907 | Evaluation of flagella and flagellin of Pseudomonas aeruginosa as vaccines. |
Q34565958 | Extracellular matrix protein lumican promotes clearance and resolution of Pseudomonas aeruginosa keratitis in a mouse model |
Q34572728 | Flagellin stimulates protective lung mucosal immunity: role of cathelicidin-related antimicrobial peptide |
Q33535845 | Flagellin-induced corneal antimicrobial peptide production and wound repair involve a novel NF-kappaB-independent and EGFR-dependent pathway |
Q42054534 | Flagellin-induced expression of CXCL10 mediates direct fungal killing and recruitment of NK cells to the cornea in response to Candida albicans infection |
Q44608433 | Flagellin/TLR5 signaling potentiates airway serous secretion from swine tracheal submucosal glands |
Q37401067 | Flagellin: key target of mucosal innate immunity |
Q37042841 | Genome-wide transcriptional analysis of differentially expressed genes in flagellin-pretreated mouse corneal epithelial cells in response to Pseudomonas aeruginosa: involvement of S100A8/A9. |
Q37114405 | Host defense at the ocular surface |
Q50102816 | Human corneal epithelial cells produce antimicrobial peptides LL-37 and β-defensins in response to heat-killed Candida albicans |
Q38711141 | IL-24 Promotes Pseudomonas aeruginosa Keratitis in C57BL/6 Mouse Corneas |
Q33792940 | ISG15 in Host Defense Against Candida albicans Infection in a Mouse Model of Fungal Keratitis |
Q45174642 | Immunization with Bivalent Flagellin Protects Mice against Fatal Pseudomonas aeruginosa Pneumonia. |
Q35167160 | In Vivo Role of TLR2 and MyD88 Signaling in Eliciting Innate Immune Responses in Staphylococcal Endophthalmitis |
Q37320379 | Interferon regulatory factor-1 in flagellin-induced reprogramming: potential protective role of CXCL10 in cornea innate defense against Pseudomonas aeruginosa infection |
Q43178010 | Lack of MD-2 expression in human corneal epithelial cells is an underlying mechanism of lipopolysaccharide (LPS) unresponsiveness |
Q35784609 | Matrix Metalloproteinase-13 as a Target for Suppressing Corneal Ulceration Caused by Pseudomonas aeruginosa Infection |
Q40098698 | MyD88 contribution to ocular surface homeostasis |
Q34998377 | Non-invasive imaging of allogeneic transplanted skin graft by 131I-anti-TLR5 mAb |
Q39725184 | Pretreatment with lipopolysaccharide modulates innate immunity in corneal fibroblasts challenged with Aspergillus fumigatus |
Q34130684 | Retinal Muller glia initiate innate response to infectious stimuli via toll-like receptor signaling |
Q36799596 | Role of host-defence peptides in eye diseases |
Q33844994 | Role of neutrophils, MyD88-mediated neutrophil recruitment, and complement in antibody-mediated defense against Pseudomonas aeruginosa keratitis |
Q36979233 | Staphylococcus aureus corneal infections: effect of the Panton-Valentine leukocidin (PVL) and antibody to PVL on virulence and pathology |
Q55224780 | Stimulator of Interferon Genes Promotes Host Resistance Against Pseudomonas aeruginosa Keratitis. |
Q36083319 | TLR4 and TLR5 on corneal macrophages regulate Pseudomonas aeruginosa keratitis by signaling through MyD88-dependent and -independent pathways. |
Q30396344 | TLR4 drives the pathogenesis of acquired cholesteatoma by promoting local inflammation and bone destruction |
Q58805553 | TSLP Protects Corneas From Pseudomonas aeruginosa Infection by Regulating Dendritic Cells and IL-23-IL-17 Pathway |
Q26849739 | Targeting toll-like receptor signaling as a novel approach to prevent ocular infectious diseases |
Q37017370 | The role of antimicrobial peptides at the ocular surface |
Q36018242 | Toll-like receptor 2 ligand pretreatment attenuates retinal microglial inflammatory response but enhances phagocytic activity toward Staphylococcus aureus |
Q33556991 | Toll-like receptor 2 ligand-induced protection against bacterial endophthalmitis |
Q43807744 | Toll-like receptor 2 siRNA suppresses corneal inflammation and attenuates Aspergillus fumigatus keratitis in rats |
Q34629176 | Toll-like receptor activation modulates antimicrobial peptide expression by ocular surface cells |
Q37264273 | Toll-like receptors at the ocular surface |
Q37719810 | Toll-like receptors in ocular surface disease |
Q35328441 | Topical flagellin protects the injured corneas from Pseudomonas aeruginosa infection |
Q35027501 | Topical flagellin-mediated innate defense against Candida albicans keratitis |
Q36053504 | Unexpected Roles for Toll-Like Receptor 4 and TRIF in Intraocular Infection with Gram-Positive Bacteria |
Q36623999 | Wnt3a suppresses Pseudomonas aeruginosa-induced inflammation and promotes bacterial killing in macrophages |
Q64283100 | keratitis: passive immunotherapy with antibodies raised against divalent flagellin |
Q37729969 | rFliC prolongs allograft survival in association with the activation of recipient Tregs in a TLR5-dependent manner |
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