scholarly article | Q13442814 |
P50 | author | Masahira Hattori | Q11516953 |
Arthur Kaser | Q88612415 | ||
Kenshiro Oshima | Q97065540 | ||
Mami Kikuchi | Q125284360 | ||
Sylvia Brugman | Q57004455 | ||
P2093 | author name string | Hiroki Ishikawa | |
Edward E S Nieuwenhuis | |||
Rob Willemsen | |||
Andrew B Onderdonk | |||
Tetsuya Matsumoto | |||
Keizo Yamaguchi | |||
Richard S Blumberg | |||
Yasuhiro Koga | |||
Yuji Aiba | |||
Janneke N Samsom | |||
Johanna C Escher | |||
Ytje Simons-Oosterhuis | |||
Dicky Lindenbergh | |||
P2860 | cites work | XBP1 links ER stress to intestinal inflammation and confers genetic risk for human inflammatory bowel disease | Q22252318 |
Specific microbiota direct the differentiation of IL-17-producing T-helper cells in the mucosa of the small intestine | Q24648636 | ||
Phylogenetic identification and in situ detection of individual microbial cells without cultivation | Q24651527 | ||
Genome-wide association study identifies new susceptibility loci for Crohn disease and implicates autophagy in disease pathogenesis | Q24656576 | ||
Communicable ulcerative colitis induced by T-bet deficiency in the innate immune system | Q24680733 | ||
Base-calling of automated sequencer traces using phred. I. Accuracy assessment | Q27860665 | ||
Secretion of microbicidal alpha-defensins by intestinal Paneth cells in response to bacteria | Q28204776 | ||
CD1: antigen presentation and T cell function | Q28251508 | ||
Beta 2-microglobulin-independent MHC class Ib molecule expressed by human intestinal epithelium | Q28286367 | ||
Nod2-dependent regulation of innate and adaptive immunity in the intestinal tract | Q28587612 | ||
Introducing DOTUR, a computer program for defining operational taxonomic units and estimating species richness | Q29614293 | ||
A thymic precursor to the NK T cell lineage | Q95783850 | ||
A key role for autophagy and the autophagy gene Atg16l1 in mouse and human intestinal Paneth cells | Q29614565 | ||
Molecular analysis of commensal host-microbial relationships in the intestine | Q29614776 | ||
A genome-wide association scan of nonsynonymous SNPs identifies a susceptibility variant for Crohn disease in ATG16L1 | Q29614873 | ||
Toll-like receptors: critical proteins linking innate and acquired immunity | Q29615190 | ||
UniFrac--an online tool for comparing microbial community diversity in a phylogenetic context | Q29622870 | ||
Analysis of 16S libraries of mouse gastrointestinal microflora reveals a large new group of mouse intestinal bacteria. | Q30870101 | ||
CD1d ligation on human monocytes directly signals rapid NF-kappaB activation and production of bioactive IL-12. | Q33920135 | ||
Ultrastructure of Paneth cells in the intestine of various mammals | Q34088289 | ||
Nonclassical CD1d-restricted NK T cells that produce IL-13 characterize an atypical Th2 response in ulcerative colitis. | Q34321127 | ||
Disruption of T helper 2-immune responses in Epstein-Barr virus-induced gene 3-deficient mice | Q34430392 | ||
The Paneth cell: a source of intestinal lysozyme | Q34471568 | ||
Defective acute inflammation in Crohn's disease: a clinical investigation | Q34497865 | ||
Innate immune homeostasis by the homeobox gene caudal and commensal-gut mutualism in Drosophila. | Q34740991 | ||
Toward an understanding of NKT cell biology: progress and paradoxes | Q36072480 | ||
Paneth cell alpha-defensins: peptide mediators of innate immunity in the small intestine | Q36148745 | ||
Distinct functional lineages of human V(alpha)24 natural killer T cells | Q36370354 | ||
Reprogramming of intestinal differentiation and intercalary regeneration in Cdx2 mutant mice | Q36394602 | ||
Prevention of autoimmunity by targeting a distinct, noninvariant CD1d-reactive T cell population reactive to sulfatide | Q36399392 | ||
Paneth cell alpha-defensin synthesis and function. | Q36566195 | ||
Ligation of intestinal epithelial CD1d induces bioactive IL-10: critical role of the cytoplasmic tail in autocrine signaling | Q36703897 | ||
Paneth cells, defensins, and the commensal microbiota: a hypothesis on intimate interplay at the intestinal mucosa | Q36813569 | ||
Epithelial-cell recognition of commensal bacteria and maintenance of immune homeostasis in the gut. | Q37159089 | ||
Paneth cells and inflammation dance together in Crohn's disease | Q37708712 | ||
Natural killer T cells recognize diacylglycerol antigens from pathogenic bacteria | Q38466705 | ||
Epithelial: lamina propria lymphocyte interactions promote epithelial cell differentiation | Q40043440 | ||
Lysosomal glycosphingolipid recognition by NKT cells | Q40493118 | ||
Delineation of a CD1d-restricted antigen presentation pathway associated with human and mouse intestinal epithelial cells | Q40650016 | ||
Detection of CD1 mRNA in Paneth cells of the mouse intestine by in situ hybridization | Q41093938 | ||
Characterization of luminal paneth cell alpha-defensins in mouse small intestine. Attenuated antimicrobial activities of peptides with truncated amino termini | Q41755550 | ||
Expression of Murine CD1 on Gastrointestinal Epithelium | Q43427985 | ||
Oxazolone colitis, a Th2 colitis model resembling ulcerative colitis, is mediated by IL-13-producing NK-T cells | Q44217456 | ||
Recognition of bacterial glycosphingolipids by natural killer T cells | Q44582192 | ||
Induction of protective IgA by intestinal dendritic cells carrying commensal bacteria | Q47962035 | ||
Exogenous and endogenous glycolipid antigens activate NKT cells during microbial infections | Q50092191 | ||
N- and O-linked oligosaccharides in the secretory granules of rat Paneth cells: an ultrastructural cytochemical study. | Q52196610 | ||
Expression of nonclassical class I molecules by intestinal epithelial cells | Q62806082 | ||
Oral antibiotics as a novel therapy for arthritis: evidence for a beneficial effect of intestinal Escherichia coli | Q73202461 | ||
Activation of natural killer T cells by alpha-galactosylceramide in the presence of CD1d provides protection against colitis in mice | Q73977788 | ||
CD1d-dependent macrophage-mediated clearance of Pseudomonas aeruginosa from lung | Q74221432 | ||
Detection of deoxyribonuclease I along the secretory pathway in Paneth cells of human small intestine | Q74669933 | ||
Single dose of OCH improves mucosal T helper type 1/T helper type 2 cytokine balance and prevents experimental colitis in the presence of valpha14 natural killer T cells in mice | Q81326211 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1241-1250 | |
P577 | publication date | 2009-04-06 | |
P1433 | published in | Journal of Clinical Investigation | Q3186904 |
P1476 | title | Cd1d-dependent regulation of bacterial colonization in the intestine of mice | |
P478 | volume | 119 |
Q42371813 | A Novel Mouse Model of iNKT Cell-deficiency Generated by CRISPR/Cas9 Reveals a Pathogenic Role of iNKT Cells in Metabolic Disease |
Q48232883 | Acidification-dependent activation of CD1d-restricted natural killer T cells is intact in cystic fibrosis |
Q38568857 | Activation of human T cells by CD1 and self-lipids. |
Q26751343 | Antigen specificity of invariant natural killer T-cells |
Q28660311 | Appraisal of microbial evolution to commensalism and pathogenicity in humans |
Q33711991 | CD1d expression in paneth cells and rat exocrine pancreas revealed by novel monoclonal antibodies which differentially affect NKT cell activation |
Q48148150 | CD1d-mediated lipid presentation by CD11c+ cells regulates intestinal homeostasis |
Q37631576 | Colorectal carcinoma: Importance of colonic environment for anti-cancer response and systemic immunity. |
Q41075180 | Commensal bacteria direct selective cargo sorting to promote symbiosis. |
Q37983018 | Commensal gut flora and brain autoimmunity: a love or hate affair? |
Q31169542 | Commensal microbial regulation of natural killer T cells at the frontiers of the mucosal immune system |
Q35037683 | Commensal microbiota and NKT cells in the control of inflammatory diseases at mucosal surfaces |
Q58750358 | Complex Network of NKT Cell Subsets Controls Immune Homeostasis in Liver and Gut |
Q36866122 | Contribution of lipid-reactive natural killer T cells to obesity-associated inflammation and insulin resistance |
Q26825320 | Control of intestinal homeostasis through crosstalk between natural killer T cells and the intestinal microbiota |
Q39228603 | Correlation between early-life regulation of the immune system by microbiota and allergy development |
Q50117639 | Deficiency of Invariant Natural Killer T Cells Does Not Protect Against Obesity but Exacerbates Atherosclerosis in Ldlr-/- Mice. |
Q53818378 | Dietary and Microbial Oxazoles Induce Intestinal Inflammation by Modulating Aryl Hydrocarbon Receptor Responses. |
Q38178734 | Different subsets of natural killer T cells may vary in their roles in health and disease |
Q34453619 | Differential Susceptibility of Bacteria to Mouse Paneth Cell α-Defensins under Anaerobic Conditions |
Q36297601 | Dysbiosis and the immune system |
Q83548320 | Effects of a germ-free environment on gut immune regulation and diabetes progression in non-obese diabetic (NOD) mice |
Q37623437 | Endoplasmic reticulum stress and intestinal inflammation |
Q37483232 | Enteric defensins are essential regulators of intestinal microbial ecology |
Q49347776 | Epithelial Hes1 maintains gut homeostasis by preventing microbial dysbiosis |
Q92377373 | Fecal Microbiota Transplantation Controls Murine Chronic Intestinal Inflammation by Modulating Immune Cell Functions and Gut Microbiota Composition |
Q24612050 | From structure to function: the ecology of host-associated microbial communities |
Q38410637 | From the Deep Sea to Everywhere: Environmental Antigens for iNKT Cells |
Q37774322 | Function of the intestinal epithelium and its dysregulation in inflammatory bowel disease. |
Q91712807 | Gut commensal bacteria, Paneth cells and their relations to radiation enteropathy |
Q87661492 | IFN-γ-producing NKT cells exacerbate sepsis by enhancing C5a generation via IL-10-mediated inhibition of CD55 expression on neutrophils |
Q34143465 | Immune and genetic gardening of the intestinal microbiome. |
Q55002337 | Immunometabolic Activation of Invariant Natural Killer T Cells. |
Q93081712 | Impact of Maternal Malnutrition on Gut Barrier Defense: Implications for Pregnancy Health and Fetal Development |
Q36322032 | In silico search for modifier genes associated with pancreatic and liver disease in Cystic Fibrosis |
Q29615500 | Inflammatory bowel disease |
Q64102240 | Interactions Between the Gut Microbiota and the Host Innate Immune Response Against Pathogens |
Q33554402 | Interactions between the host innate immune system and microbes in inflammatory bowel disease |
Q47552015 | Interactions between the microbiota and innate and innate-like lymphocytes. |
Q35841871 | Interleukin-22 is produced by invariant natural killer T lymphocytes during influenza A virus infection: potential role in protection against lung epithelial damages |
Q36113612 | Intestinal microbes affect phenotypes and functions of invariant natural killer T cells in mice |
Q35144584 | Intestinal microbiota and its effects on the immune system |
Q55115136 | Intestinal microbiota-kidney cross talk in acute kidney injury and chronic kidney disease. |
Q90193376 | Invariant Natural Killer T-Cells and Total CD1d Restricted Cells Differentially Influence Lipid Metabolism and Atherosclerosis in Low Density Receptor Deficient Mice |
Q34302295 | Invariant natural killer T cells as sensors and managers of inflammation |
Q42223235 | Invariant natural killer T cells developing in the human fetus accumulate and mature in the small intestine. |
Q38120169 | Invariant natural killer T cells in adipose tissue: novel regulators of immune-mediated metabolic disease. |
Q36739848 | Invariant natural killer T cells: bridging innate and adaptive immunity |
Q37594063 | Leptin acts independently of food intake to modulate gut microbial composition in male mice |
Q33699810 | Mechanisms of inflammatory responses in obese adipose tissue |
Q37968299 | Microbial influences on epithelial integrity and immune function as a basis for inflammatory diseases. |
Q34532644 | Microbiota–immune system interaction: an uneasy alliance |
Q61796295 | Mucosa-associated microbiota drives pathogenic functions in IBD-derived intestinal iNKT cells |
Q35558518 | Mucosal Immune Development in Early Life: Setting the Stage |
Q37762742 | Mucosal control of the intestinal microbial community |
Q46466761 | NKT Cell-Deficient Mice Harbor an Altered Microbiota That Fuels Intestinal Inflammation during Chemically Induced Colitis. |
Q47151392 | NKT cells contribute to basal IL-4 production but are not required to induce experimental asthma. |
Q37545348 | NKT cells in mucosal immunity |
Q39105646 | Natural killer T cells in atherosclerosis |
Q36765720 | Natural killer T cells in health and disease |
Q50190286 | Natural killer T cells in lipoprotein metabolism and atherosclerosis. |
Q35478936 | No vacancy: how beneficial microbes cooperate with immunity to provide colonization resistance to pathogens |
Q84781198 | Novel Tools for Modulating Immune Responses in the Host—Polysaccharides from the Capsule of Commensal Bacteria |
Q33863534 | Paneth cell defensins and the regulation of the microbiome: détente at mucosal surfaces |
Q30582106 | Paneth cell extrusion and release of antimicrobial products is directly controlled by immune cell-derived IFN-γ. |
Q33815422 | Paneth cell α-defensins in enteric innate immunity |
Q37855523 | Paneth cells, antimicrobial peptides and maintenance of intestinal homeostasis |
Q42258972 | Preferential depletion of gut CD4-expressing iNKT cells contributes to systemic immune activation in HIV-1 infection |
Q26797333 | Regulation of Lipid Specific and Vitamin Specific Non-MHC Restricted T Cells by Antigen Presenting Cells and Their Therapeutic Potentials |
Q38527820 | Regulation of NKT Cell Localization in Homeostasis and Infection |
Q55365683 | Role of Natural Killer T Cells in the Development of Obesity and Insulin Resistance: Insights From Recent Progress. |
Q53841887 | Short-term Oral Antibiotics Treatment Promotes Inflammatory Activation of Colonic Invariant Natural Killer T and Conventional CD4+ T Cells. |
Q35679532 | Starvation compromises Paneth cells |
Q38182585 | Susceptibility to Entamoeba histolytica intestinal infection is related to reduction in natural killer T-lymphocytes in C57BL/6 mice. |
Q36189952 | T lymphocytes control microbial composition by regulating the abundance of Vibrio in the zebrafish gut |
Q36794685 | Targeted disruption of CD1d prevents NKT cell development in pigs |
Q37874633 | Targeting the diverse immunological functions expressed by hepatic NKT cells |
Q40871546 | The Innate Immune Response Against Staphylococcus aureus |
Q49452437 | The Yin and Yang of Invariant Natural Killer T Cells in Tumor Immunity-Suppression of Tumor Immunity in the Intestine |
Q97681303 | The dialogue between unconventional T cells and the microbiota |
Q37525591 | The evolved functions of CD1 during infection |
Q26865391 | The functions of type I and type II natural killer T cells in inflammatory bowel diseases |
Q37968302 | The influence of the microbiota on type-1 diabetes: on the threshold of a leap forward in our understanding |
Q89074520 | The interaction between invariant Natural Killer T cells and the mucosal microbiota |
Q90263684 | The parasitic worm product ES-62 promotes health- and life-span in a high calorie diet-accelerated mouse model of ageing |
Q59792624 | Therapeutic faecal microbiota transplantation controls intestinal inflammation through IL10 secretion by immune cells |
Q84152969 | Thymic involution and corticosterone level in Sandhoff disease model mice: new aspects the pathogenesis of GM2 gangliosidosis |
Q63362826 | Tissue-specific functions of invariant natural killer T cells |
Q91871894 | Transnuclear mice reveal Peyer's patch iNKT cells that regulate B-cell class switching to IgG1 |
Q39032478 | Treatment with alpha-galactosylceramide protects mice from early onset of nonalcoholic steatohepatitis: Role of intestinal barrier function |
Q34181498 | Type II NKT cells stimulate diet-induced obesity by mediating adipose tissue inflammation, steatohepatitis and insulin resistance |
Q37296711 | ZnT2-Mediated Zinc Import Into Paneth Cell Granules Is Necessary for Coordinated Secretion and Paneth Cell Function in Mice. |
Q26801962 | iNKT and MAIT Cell Alterations in Diabetes |