Physiological changes in the gastrointestinal tract and host protective immunity: learning from the mouse-Trichinella spiralis model.
about
Goblet cells and mucins: role in innate defense in enteric infectionsUnderstanding human-Plasmodium falciparum immune interactions uncovers the immunological role of worms.The influence of MHC and immunoglobulins a and e on host resistance to gastrointestinal nematodes in sheep.Sleep deprivation induces changes in immunity in Trichinella spiralis-infected rats.Serglycin proteoglycans limit enteropathy in Trichinella spiralis-infected miceRetinoic acid signalling in gastrointestinal parasite infections: lessons from mouse models.Chronic bystander infections and immunity to unrelated antigens.Lactobacillus rhamnosus ingestion promotes innate host defense in an enteric parasitic infection.Parasitic helminths: a pharmacopeia of anti-inflammatory molecules.STAT6 expression and IL-13 production in association with goblet cell hyperplasia and worm expulsion of Gymnophalloides seoi from C57BL/6 miceEffects of alanyl-glutamine supplementation on the small intestinal mucosa barrier in weaned piglets.Innate immunity modulation in the duodenal mucosa induced by REM sleep deprivation during infection with Trichinella spirallis.Protein kinases are potential targets to treat inflammatory bowel disease.New Role of Nod Proteins in Regulation of Intestinal Goblet Cell Response in the Context of Innate Host Defense in an Enteric Parasite Infection.Protective responses of intestinal mucous cells in a range of fish-helminth systems.Infectious bursal disease virus infection leads to changes in the gut associated-lymphoid tissue and the microbiota composition.Blocking peripheral serotonin synthesis by telotristat etiprate (LX1032/LX1606) reduces severity of both chemical- and infection-induced intestinal inflammation.
P2860
Q26822449-183A58AC-647E-44CB-B171-F6BA8B011CBEQ33533310-79706C33-87D7-422F-A3C3-CCB2483D5D07Q34974403-6A420C82-C544-45E4-B6BE-40EFDD8A29D6Q35830037-E89A75A0-E077-4545-A281-D99C175A6CBBQ36042295-D25B188E-2B77-4091-8738-A3B9A9712D09Q36361688-46A8836F-05A4-4582-B07E-CAD883653ED0Q36743201-5FE6C629-5C4A-4B34-A6C5-39EF712CC34AQ36911291-15272CAC-727F-4560-9ED9-91DAA1F3BB34Q37349951-6E17D932-2A7A-49A2-A45D-796ADA82AC3DQ37379111-7EFA6315-FFBD-4149-9D6F-2671BAC7FA4DQ37548872-55A91359-ED75-4FC8-9EB3-1BB4AE29124CQ37736610-65B6552C-E957-4795-872A-986BAD006DBEQ38265533-F17BC9A6-885C-47D9-9842-D01E7652A87FQ38822707-C7314D17-C291-4828-879B-0FD5DE27D74DQ39062809-89FE6FFA-9035-47B5-966B-8575B7528C28Q47547142-F0BAA8F8-E5D2-4C7B-9192-3033AFA20EE8Q50952188-E1B8FD1C-5B2B-4C08-ABC9-57085BCC8D17
P2860
Physiological changes in the gastrointestinal tract and host protective immunity: learning from the mouse-Trichinella spiralis model.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on May 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Physiological changes in the g ...... se-Trichinella spiralis model.
@en
Physiological changes in the g ...... se-Trichinella spiralis model.
@nl
type
label
Physiological changes in the g ...... se-Trichinella spiralis model.
@en
Physiological changes in the g ...... se-Trichinella spiralis model.
@nl
prefLabel
Physiological changes in the g ...... se-Trichinella spiralis model.
@en
Physiological changes in the g ...... se-Trichinella spiralis model.
@nl
P2860
P1433
P1476
Physiological changes in the g ...... se-Trichinella spiralis model.
@en
P2093
P2860
P304
P356
10.1017/S0031182008004381
P577
2008-05-01T00:00:00Z