Critical role for tumor necrosis factor alpha in controlling the number of lumenal pathogenic bacteria and immunopathology in infectious colitis.
about
Inhibition of TLR signaling by a bacterial protein containing immunoreceptor tyrosine-based inhibitory motifsRedeeming an old foe: protective as well as pathophysiological roles for tumor necrosis factor in inflammatory bowel diseaseRole of EspA and intimin in expression of proinflammatory cytokines from enterocytes and lymphocytes by rabbit enteropathogenic Escherichia coli-infected rabbitsEarly administration of probiotic Lactobacillus acidophilus and/or prebiotic inulin attenuates pathogen-mediated intestinal inflammation and Smad 7 cell signaling.Associations between mucosal innate and adaptive immune responses and resolution of diarrheal pathogen infections.Mast cells limit systemic bacterial dissemination but not colitis in response to Citrobacter rodentiumMouse model of enteropathogenic Escherichia coli infection.Lipid isolated from a Leishmania donovani strain reduces Escherichia coli induced sepsis in mice through inhibition of inflammatory responsesConcurrent infection with an intestinal helminth parasite impairs host resistance to enteric Citrobacter rodentium and enhances Citrobacter-induced colitis in mice.GM-CSF-facilitated dendritic cell recruitment and survival govern the intestinal mucosal response to a mouse enteric bacterial pathogen.Helminth-primed dendritic cells alter the host response to enteric bacterial infectionModulating the intestinal immune system: the role of lymphotoxin and GALT organs.CD4+-T-cell effector functions and costimulatory requirements essential for surviving mucosal infection with Citrobacter rodentium.Hepatic and renal cytochrome p450 gene regulation during citrobacter rodentium infection in wild-type and toll-like receptor 4 mutant mice.Toll-like receptor 4 contributes to colitis development but not to host defense during Citrobacter rodentium infection in mice.Epithelial phosphatidylinositol-3-kinase signaling is required for β-catenin activation and host defense against Citrobacter rodentium infection.Host susceptibility to the attaching and effacing bacterial pathogen Citrobacter rodentiumSelective role for tumor necrosis factor-α, but not interleukin-1 or Kupffer cells, in down-regulation of CYP3A11 and CYP3A25 in livers of mice infected with a noninvasive intestinal pathogen.In vivo bioluminescence imaging of the murine pathogen Citrobacter rodentiumThe role of Gr-1(+) cells and tumour necrosis factor-α signalling during Clostridium difficile colitis in mice.Modulation of hepatic cytochrome P450s by Citrobacter rodentium infection in interleukin-6- and interferon-{gamma}-null miceAlternatively activated macrophages in intestinal helminth infection: effects on concurrent bacterial colitisCentral role for B lymphocytes and CD4+ T cells in immunity to infection by the attaching and effacing pathogen Citrobacter rodentium.THE ROLE OF SPECIFIC IgG AND COMPLEMENT IN COMBATING A PRIMARY MUCOSAL INFECTION OF THE GUT EPITHELIUM.Development of fatal colitis in FVB mice infected with Citrobacter rodentiumOptineurin deficiency in mice contributes to impaired cytokine secretion and neutrophil recruitment in bacteria-driven colitisCorrelation of Biomarker Expression in Colonic Mucosa with Disease Phenotype in Crohn's Disease and Ulcerative Colitis.CXCR2-dependent mucosal neutrophil influx protects against colitis-associated diarrhea caused by an attaching/effacing lesion-forming bacterial pathogen.The L-Arginine Transporter Solute Carrier Family 7 Member 2 Mediates the Immunopathogenesis of Attaching and Effacing Bacteria.Dietary vitamin D3 deficiency alters intestinal mucosal defense and increases susceptibility to Citrobacter rodentium-induced colitis.Active vitamin D (1,25-dihydroxyvitamin D3) increases host susceptibility to Citrobacter rodentium by suppressing mucosal Th17 responses.Piperine metabolically regulates peritoneal resident macrophages to potentiate their functions against bacterial infection.Animal models of inflammatory bowel disease: lessons from enteric infections.HVEM: An unusual TNF receptor family member important for mucosal innate immune responses to microbes.Chitinase 3-like-1 promotes Streptococcus pneumoniae killing and augments host tolerance to lung antibacterial responses.Regulation of hepatic cytochrome P450 expression in mice with intestinal or systemic infections of citrobacter rodentium.Activation of p38α in T cells regulates the intestinal host defense against attaching and effacing bacterial infectionsIL-6-dependent mucosal protection prevents establishment of a microbial niche for attaching/effacing lesion-forming enteric bacterial pathogensEndothelial PAS domain protein 1 activates the inflammatory response in the intestinal epithelium to promote colitis in miceHelminth infections and intestinal inflammation
P2860
Q24299272-2ABBDD62-6446-4473-AB43-E3F5465E5F80Q27027630-AC4F9FD9-7113-4047-945A-96BFDF027757Q33559050-75FA7C67-CE65-4788-A205-5401DA23464FQ33587942-9D8E491B-31E0-4E21-B87F-2FE7C3767520Q33675794-E0BE18D6-1980-43E3-8576-221F9CCF66FCQ33769220-CB550534-204B-41B2-864F-609BF943626CQ33792879-BB622D1B-C205-4FC3-8C67-8F07214CC3C4Q33998530-1B03A07C-DD1F-4846-B6D6-5097416F45B8Q34034131-3BB85A90-08E8-4162-8B8A-E3D6022E4E8DQ34058590-C0735A08-54A8-4026-8AEB-C06EDB91BF5CQ34088032-7358BD3A-651F-44C4-9B5F-D1567EFB8189Q34298341-B2C4DB5D-4C76-489B-A713-47EA201A26ECQ34300967-37BD0CC9-D156-4CFC-AC74-3EEE2E8005EBQ34405854-E2662D9D-B987-4A31-8879-5CD35F5D1AAEQ34602053-203636E7-5C17-4A52-BB39-4424A3AFA891Q34931410-A416E0FC-4FE8-4D9E-A158-15E83B072B77Q35011197-85530D56-147E-4B7A-B300-94F07CA2327FQ35072031-970DDA55-AE8D-4B6D-AC23-C229AD3118ECQ35073755-76DAED2E-B027-4E18-B111-4A7DD95402BDQ35423526-D53DCFF9-2B3F-427B-AA6B-8D1E21EEB400Q35454343-F47529AF-BE3F-4054-A080-E2ED501F332DQ35527184-38312E8E-AE2E-4486-9EF4-3F1A32391861Q35802509-C55792A1-B3AB-4CC9-818F-125C27AF424AQ35869432-4511C179-0C35-4637-B060-2EAB287223D8Q35913654-573780C5-7B93-4807-8F55-B10F5449F834Q35923489-F585D152-7C2E-445C-9A55-ACE18065A0C7Q36073263-96FD38F7-A71E-4CDE-81B9-AD201D523B74Q36166383-85E1E145-BF2F-4BBB-8D61-72B8D34F2D52Q36175037-29B9208A-578C-4BC8-B0AC-6592F6F3660DQ36237164-6887D297-5372-49FD-A0EF-C50363FBDC73Q36494694-65EEDD03-F38B-4BD4-AD44-8589951D9061Q36544884-FD6E6923-34FF-4592-916C-01128A10385DQ36631411-1EBCF5C1-BBCE-4573-A215-A0D8353A253BQ36677090-EDC1E442-E8AC-4AAA-A6DE-C799A022EF0AQ36731284-D651EB36-EB9D-49DD-9FDE-8A0925B1C7BDQ37075256-078991EC-16C8-4B30-B9CF-02976BBAB509Q37163776-DFF8BB48-3AF8-4E9A-B6C1-D1B143FA2179Q37226694-F95A202B-3CBE-41FF-878B-5E57CD553529Q37237823-AE3AA2D3-E585-49C7-B83F-505DD10DF50FQ37262993-6103BA9A-AC17-4562-8350-38EC99B592F4
P2860
Critical role for tumor necrosis factor alpha in controlling the number of lumenal pathogenic bacteria and immunopathology in infectious colitis.
description
2001 nî lūn-bûn
@nan
2001 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Critical role for tumor necros ...... thology in infectious colitis.
@ast
Critical role for tumor necros ...... thology in infectious colitis.
@en
Critical role for tumor necros ...... thology in infectious colitis.
@nl
type
label
Critical role for tumor necros ...... thology in infectious colitis.
@ast
Critical role for tumor necros ...... thology in infectious colitis.
@en
Critical role for tumor necros ...... thology in infectious colitis.
@nl
prefLabel
Critical role for tumor necros ...... thology in infectious colitis.
@ast
Critical role for tumor necros ...... thology in infectious colitis.
@en
Critical role for tumor necros ...... thology in infectious colitis.
@nl
P2093
P2860
P1476
Critical role for tumor necros ...... thology in infectious colitis.
@en
P2093
C P Simmons
G Monteleone
M Ghaem-Maghami
N S Gonçalves
T T MacDonald
P2860
P304
P356
10.1128/IAI.69.11.6651-6659.2001
P407
P577
2001-11-01T00:00:00Z