| scholarly article | Q13442814 |
| P2093 | author name string | Ashok Kumar | |
| Jing Zhang | |||
| Fu-Shin X Yu | |||
| P2860 | cites work | Bactericidal activity of renal tubular cells: the putative role of human beta-defensins | Q78378688 |
| Human beta-defensin 2 is induced by interleukin-1beta in the corneal epithelial cells | Q80375913 | ||
| Isolation and characterization of human beta -defensin-3, a novel human inducible peptide antibiotic | Q24290539 | ||
| Production of beta-defensin antimicrobial peptides by the oral mucosa and salivary glands | Q24548834 | ||
| Toll-like receptor signalling | Q24570126 | ||
| Expression of human beta-defensins 1 and 2 in kidneys with chronic bacterial infection | Q24804437 | ||
| The solution structures of the human beta-defensins lead to a better understanding of the potent bactericidal activity of HBD3 against Staphylococcus aureus | Q27636772 | ||
| Toll-like receptors | Q27860671 | ||
| Innate immune recognition | Q27860721 | ||
| Mucoid Pseudomonas aeruginosa, TNF-alpha, and IL-1beta, but not IL-6, induce human beta-defensin-2 in respiratory epithelia | Q28145673 | ||
| Defensins: antimicrobial peptides of innate immunity | Q28204453 | ||
| Production of beta-defensin-2 by human colonic epithelial cells induced by Salmonella enteritidis flagella filament structural protein | Q28208128 | ||
| A peptide antibiotic from human skin | Q28242199 | ||
| Structure and mapping of the human beta-defensin HBD-2 gene and its expression at sites of inflammation | Q28290037 | ||
| Cutting edge: TLR2-deficient and MyD88-deficient mice are highly susceptible to Staphylococcus aureus infection | Q28587620 | ||
| Toll-like receptors: critical proteins linking innate and acquired immunity | Q29615190 | ||
| Human intestinal epithelial cells are broadly unresponsive to Toll-like receptor 2-dependent bacterial ligands: implications for host-microbial interactions in the gut. | Q31126525 | ||
| Inducible expression of human beta-defensin 2 by Fusobacterium nucleatum in oral epithelial cells: multiple signaling pathways and role of commensal bacteria in innate immunity and the epithelial barrier | Q33898454 | ||
| A novel polymorphism in the toll-like receptor 2 gene and its potential association with staphylococcal infection | Q34005032 | ||
| Epithelial antimicrobial peptides: innate local host response elements | Q34158995 | ||
| Toll-like receptor 2-dependent bacterial sensing does not occur via peptidoglycan recognition | Q34166263 | ||
| Innate immune responses of epithelial cells following infection with bacterial pathogens | Q34332645 | ||
| Maintaining corneal integrity how the "window" stays clear | Q34396747 | ||
| A two-stage, p16(INK4A)- and p53-dependent keratinocyte senescence mechanism that limits replicative potential independent of telomere status | Q34441492 | ||
| Keratinocyte expression of human beta defensin 2 following bacterial infection: role in cutaneous host defense | Q34579268 | ||
| Defensin Expression by the Cornea: Multiple Signalling Pathways Mediate IL-1β Stimulation of hBD-2 Expression by Human Corneal Epithelial Cells | Q34758069 | ||
| Intestinal epithelial toll-like receptors: to protect. And serve? | Q35060858 | ||
| The role of Toll-like receptor 2 in microbial disease and immunity | Q35134715 | ||
| Regulation of expression of β-defensins: endogenous enteric peptide antibiotics | Q35563983 | ||
| Innate immunity in the lung: how epithelial cells fight against respiratory pathogens | Q35673699 | ||
| Toll-like receptors: function and roles in lung disease | Q35738175 | ||
| Minireview: functions of the renal tract epithelium in coordinating the innate immune response to infection. | Q35905535 | ||
| Toll-like receptor 4 resides in the Golgi apparatus and colocalizes with internalized lipopolysaccharide in intestinal epithelial cells | Q36370326 | ||
| Inflammatory responses of corneal epithelial cells to Pseudomonas aeruginosa infection | Q37152332 | ||
| Innate immune response of corneal epithelial cells to Staphylococcus aureus infection: role of peptidoglycan in stimulating proinflammatory cytokine secretion | Q37152357 | ||
| Molecular cross talk between epithelial cells and pathogenic microorganisms | Q37430040 | ||
| Truncation mutants of the tight junction protein ZO-1 disrupt corneal epithelial cell morphology | Q38482451 | ||
| Herpetic Stromal Keratitis—Evidence for Cell-Mediated Immunopathogenesis | Q40030256 | ||
| Intracellularly expressed TLR2s and TLR4s contribution to an immunosilent environment at the ocular mucosal epithelium | Q40523562 | ||
| Response of human pulmonary epithelial cells to lipopolysaccharide involves Toll-like receptor 4 (TLR4)-dependent signaling pathways: evidence for an intracellular compartmentalization of TLR4. | Q40619554 | ||
| Respiratory syncytial virus up-regulates TLR4 and sensitizes airway epithelial cells to endotoxin. | Q40625076 | ||
| Toll-like Receptor 5-Mediated Corneal Epithelial Inflammatory Responses toPseudomonas aeruginosaFlagellin | Q40631704 | ||
| Viral Induction of Inflammatory Cytokines in Human Epithelial Cells Follows a p38 Mitogen-Activated Protein Kinase-Dependent but NF-κB-Independent Pathway | Q40633146 | ||
| Airway epithelia regulate expression of human beta-defensin 2 through Toll-like receptor 2. | Q40637330 | ||
| Mucin gene expression in immortalized human corneal-limbal and conjunctival epithelial cell lines. | Q40645324 | ||
| Induction of in vitro reprogramming by Toll-like receptor (TLR)2 and TLR4 agonists in murine macrophages: effects of TLR "homotolerance" versus "heterotolerance" on NF-kappa B signaling pathway components | Q40681768 | ||
| Low grade rhinovirus infection induces a prolonged release of IL-8 in pulmonary epithelium | Q41031812 | ||
| Activation of NF-kappaB in intestinal epithelial cells by enteropathogenic Escherichia coli. | Q41081300 | ||
| Ocular surface epithelia express mRNA for human beta defensin-2. | Q41700287 | ||
| Expression and regulation of the human beta-defensins hBD-1 and hBD-2 in intestinal epithelium. | Q41705704 | ||
| Distribution and shifting trends of bacterial keratitis in north China (1989-98). | Q41806972 | ||
| Antimicrobial defensin peptides of the human ocular surface | Q42230623 | ||
| Activation of Toll-like receptor 2 on human tracheobronchial epithelial cells induces the antimicrobial peptide human beta defensin-2. | Q42453950 | ||
| Inhibition of lipopolysaccharide-induced signal transduction in endotoxin-tolerized mouse macrophages: dysregulation of cytokine, chemokine, and toll-like receptor 2 and 4 gene expression | Q42488328 | ||
| Investigation of beta defensin gene expression in the ocular anterior segment by semiquantitative RT-PCR. | Q42856164 | ||
| Human beta-defensin 2 is up-regulated during re-epithelialization of the cornea | Q43637116 | ||
| Shifting trends in bacterial keratitis in south Florida and emerging resistance to fluoroquinolones | Q44328530 | ||
| Activation of toll-like receptor (TLR)2, TLR4, and TLR9 in the mammalian cornea induces MyD88-dependent corneal inflammation | Q45238776 | ||
| Human beta-defensin-2 production in keratinocytes is regulated by interleukin-1, bacteria, and the state of differentiation | Q46167434 | ||
| By IL-1 signaling, monocyte-derived cells dramatically enhance the epidermal antimicrobial response to lipopolysaccharide | Q46912065 | ||
| Differential expression of human alpha- and beta-defensins mRNA in gastrointestinal epithelia | Q47662658 | ||
| Polymorphonuclear leukocyte migration across model intestinal epithelia enhances Salmonella typhimurium killing via the epithelial derived cytokine, IL-6. | Q50106272 | ||
| Bug detectors. | Q52592941 | ||
| The spectrum of antimicrobial peptide expression at the ocular surface. | Q54673989 | ||
| Toll-like receptor expression in human keratinocytes: nuclear factor kappaB controlled gene activation by Staphylococcus aureus is toll-like receptor 2 but not toll-like receptor 4 or platelet activating factor receptor dependent. | Q54737478 | ||
| T-cell proliferation to superantigen-releasing Staphylococcus aureus by MHC class II-bearing keratinocytes under protection from bacterial cytolysin | Q73170694 | ||
| P433 | issue | 2 | |
| P921 | main subject | toll-like receptor | Q408004 |
| P304 | page(s) | 380-389 | |
| P577 | publication date | 2005-09-15 | |
| P1433 | published in | Microbes and Infection | Q15760242 |
| P1476 | title | Toll-like receptor 2-mediated expression of beta-defensin-2 in human corneal epithelial cells | |
| P478 | volume | 8 |
| Q39846375 | Activation of Toll-like receptors 2 and 4 in Aspergillus fumigatus keratitis |
| Q34776889 | Advanced glycation end products induce human corneal epithelial cells apoptosis through generation of reactive oxygen species and activation of JNK and p38 MAPK pathways |
| Q38410966 | An evolutionary history of defensins: a role for copy number variation in maximizing host innate and adaptive immune responses |
| Q54527823 | Aspergillus fumigatus antigens activate immortalized human corneal epithelial cells via toll-like receptors 2 and 4. |
| Q36160371 | Associations of Toll-Like Receptor and β-Defensin Polymorphisms with Measures of Periodontal Disease (PD) in HIV+ North American Adults: An Exploratory Study |
| Q37539984 | Bone marrow chimeras and c-fms conditional ablation (Mafia) mice reveal an essential role for resident myeloid cells in lipopolysaccharide/TLR4-induced corneal inflammation. |
| Q37648768 | C-Jun NH2 terminal kinase (JNK) is an essential mediator of Toll-like receptor 2-induced corneal inflammation |
| Q37490137 | C-type lectins with a sweet spot for Mycobacterium tuberculosis |
| Q41123908 | Calcitriol May Down-Regulate mRNA Over-Expression of Toll-Like Receptor-2 and -4, LL-37 and Proinflammatory Cytokines in Cultured Human Keratinocytes |
| Q37548220 | Candida albicans airway exposure primes the lung innate immune response against Pseudomonas aeruginosa infection through innate lymphoid cell recruitment and interleukin-22-associated mucosal response |
| Q34775530 | Checks and balances: the ocular response to infection |
| Q36601690 | Co-regulation of Dectin-1 and TLR2 in inflammatory response of human corneal epithelial cells induced by Aspergillus fumigates |
| Q33463449 | Convergence of IL-1beta and VDR activation pathways in human TLR2/1-induced antimicrobial responses |
| Q40083114 | Corneal Fibroblasts as Sentinel Cells and Local Immune Modulators in Infectious Keratitis. |
| Q64058328 | Differential Expression of Antimicrobial Peptides in Streptococcus pneumoniae Keratitis and STAT3-Dependent Expression of LL-37 by Streptococcus pneumoniae in Human Corneal Epithelial Cells |
| Q36422076 | Flagellin suppresses the inflammatory response and enhances bacterial clearance in a murine model of Pseudomonas aeruginosa keratitis |
| Q33535845 | Flagellin-induced corneal antimicrobial peptide production and wound repair involve a novel NF-kappaB-independent and EGFR-dependent pathway |
| Q36300122 | Hepatocytes express the antimicrobial peptide HBD-2 after multiple trauma: an experimental study in human and mice |
| Q37114405 | Host defense at the ocular surface |
| Q37767621 | Host-pathogen interactions in the cornea |
| Q35030919 | In vitro studies on the antimicrobial peptide human beta-defensin 9 (HBD9): signalling pathways and pathogen-related response (an American Ophthalmological Society thesis). |
| Q33346667 | Induction of beta defensin 2 by NTHi requires TLR2 mediated MyD88 and IRAK-TRAF6-p38MAPK signaling pathway in human middle ear epithelial cells |
| Q39739676 | Induction of human β-defensin-2 in pulmonary epithelial cells by Legionella pneumophila: involvement of TLR2 and TLR5, p38 MAPK, JNK, NF-κB, and AP-1. |
| Q36644267 | Inhibition of corneal inflammation by liposomal delivery of short-chain, C-6 ceramide |
| Q41905068 | Inhibition of corneal inflammation by the TLR4 antagonist Eritoran tetrasodium (E5564). |
| Q37832959 | Innate immune effectors in mycobacterial infection |
| Q41906845 | Innate immune regulation of Serratia marcescens-induced corneal inflammation and infection |
| Q37767622 | Innate immunity of the ocular surface |
| Q37320379 | Interferon regulatory factor-1 in flagellin-induced reprogramming: potential protective role of CXCL10 in cornea innate defense against Pseudomonas aeruginosa infection |
| Q35085000 | Interferon-gamma-induced MD-2 protein expression and lipopolysaccharide (LPS) responsiveness in corneal epithelial cells is mediated by Janus tyrosine kinase-2 activation and direct binding of STAT1 protein to the MD-2 promoter |
| Q41112869 | Invisible Shield: Review of the Corneal Epithelium as a Barrier to UV Radiation, Pathogens, and Other Environmental Stimuli |
| Q48207699 | Keratin 6a reorganization for ubiquitin-proteasomal processing is a direct antimicrobial response. |
| Q43178010 | Lack of MD-2 expression in human corneal epithelial cells is an underlying mechanism of lipopolysaccharide (LPS) unresponsiveness |
| Q36895297 | Life at the front: dissecting bacterial-host interactions at the ocular surface. |
| Q37152330 | Modulation of corneal epithelial innate immune response to pseudomonas infection by flagellin pretreatment |
| Q36971794 | Muller glia in retinal innate immunity: a perspective on their roles in endophthalmitis. |
| Q40040720 | MyD88 functions as a negative regulator of TLR3/TRIF-induced corneal inflammation by inhibiting activation of c-Jun N-terminal kinase |
| Q49920174 | PSMA-targeted polyinosine/polycytosine vector induces prostate tumor regression and invokes an antitumor immune response in mice |
| Q36750331 | Pattern recognition receptors in microbial keratitis |
| Q42181287 | Pimecrolimus enhances TLR2/6-induced expression of antimicrobial peptides in keratinocytes |
| Q39883535 | Protein array characterization of bioactive proteins secreted by immortalized human corneal epithelium in response to pseudomonas constituents. |
| Q40477924 | Pseudomonas aeruginosa proteolytically alters the interleukin 22-dependent lung mucosal defense. |
| Q38858589 | Recognition of Corynebacterium pseudodiphtheriticum by Toll-like receptors and up-regulation of antimicrobial peptides in human corneal epithelial cells |
| Q34775535 | Response of corneal epithelial cells to Staphylococcus aureus |
| Q36799596 | Role of host-defence peptides in eye diseases |
| Q37140970 | Role of small GTPase Rho in regulating corneal epithelial wound healing |
| Q30318679 | Roles of human beta-defensins in innate immune defense at the ocular surface: arming and alarming corneal and conjunctival epithelial cells |
| Q38784468 | Staphylococcus aureus lipoproteins trigger human corneal epithelial innate response through toll-like receptor-2 |
| Q42117524 | Staphylococcus aureus protein A induced inflammatory response in human corneal epithelial cells |
| Q38483194 | Staphylococcus aureus-induced corneal inflammation is dependent on Toll-like receptor 2 and myeloid differentiation factor 88 |
| Q38922649 | Suppression of Toll-like receptor-mediated innate immune responses at the ocular surface by the membrane-associated mucins MUC1 and MUC16 |
| Q26996513 | TLR-Dependent Human Mucosal Epithelial Cell Responses to Microbial Pathogens |
| Q35032361 | TLR2 mediates the innate response of retinal Muller glia to Staphylococcus aureus |
| Q60046047 | TLR2/4-mediated NF-κB pathway combined with the histone modification regulates β-defensins and interleukins expression by sodium phenyl butyrate in porcine intestinal epithelial cells |
| Q54410145 | The Corneal Expression of Antimicrobial Peptides during Experimental Fungal Keratitis |
| Q47213929 | The Pathogenesis of Staphylococcus aureus Eye Infections |
| Q35187531 | The importance of the Pseudomonas aeruginosa type III secretion system in epithelium traversal depends upon conditions of host susceptibility |
| Q37017370 | The role of antimicrobial peptides at the ocular surface |
| Q34264383 | The role of toll-like receptor 4 in corneal epithelial wound healing |
| Q43134636 | The still obscure attributes of cryptococcal glucuronoxylomannan |
| Q33556991 | Toll-like receptor 2 ligand-induced protection against bacterial endophthalmitis |
| Q40025049 | Toll-like receptor 2 mediates the induction of IL-10 in corneal fibroblasts in response to Fusarium solu |
| Q43807744 | Toll-like receptor 2 siRNA suppresses corneal inflammation and attenuates Aspergillus fumigatus keratitis in rats |
| Q33896625 | Toll-like receptor 2-mediated NF-kappa B pathway activation in ocular surface epithelial cells. |
| Q40327809 | Toll-like receptor 3 agonist poly(I:C)-induced antiviral response in human corneal epithelial cells |
| Q34629176 | Toll-like receptor activation modulates antimicrobial peptide expression by ocular surface cells |
| Q50157948 | Toll-like receptor agonists regulate beta-defensin 2 release in hair follicle. |
| Q51158850 | Toll-like receptor-associated keratitis and strategies for its management. |
| Q36483050 | Toll-like receptors and corneal innate immunity |
| Q82973353 | Toll-like receptors and the eye |
| Q37264273 | Toll-like receptors at the ocular surface |
| Q37719810 | Toll-like receptors in ocular surface disease |
| Q37832747 | Toll-like receptors in ocular surface diseases: overview and new findings. |
| Q36749847 | Toluene Exposure Leads to a Change in Expression Patterns of β Defensins in the Mouse Tracheal Epithelium |
| Q35328441 | Topical flagellin protects the injured corneas from Pseudomonas aeruginosa infection |
| Q36362248 | Vitamin D Activation and Function in Human Corneal Epithelial Cells During TLR-Induced Inflammation |
| Q34540931 | Whole cigarette smoke increased the expression of TLRs, HBDs, and proinflammory cytokines by human gingival epithelial cells through different signaling pathways |
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