The gut as a lymphoepithelial organ: The role of intestinal epithelial cells in mucosal immunity

Tlaskalová‐Hogenová, Helena; Farré-Castany, M. A.; Štěpánková, Renata; Kozáková, Hana; Tučková, Ludmila; Funda, David P.; Barot, R.; Cukrowská, Božena; Sinkora, J; Mandel, L.; Karská, K.; Kolínská, J

doi:10.1007/bf02814746

Cited by 24 publications

(16 citation statements)

References 41 publications

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“…Intestinal mucosa barriers include mechanical barrier, chemical barrier, immunologic barrier and biology barrier [18][19][20][21] , any damage of these barriers will damage intestinal mucosa barrier function. In this study, we used plasma D-xylose, endotoxin and intestine mucus sIgA to evaluate the intestinal mucosa barrier function in rats with NASH and to observe its change in NASH rats.…”

Section: Discussionmentioning

confidence: 99%

Change of intestinal mucosa barrier function in the progress of non-alcoholic steatohepatitis in rats

Sheng¹,

Wu²,

He³

et al. 2008

WJG

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AIM:To explore the change of intestinal mucosa barrier function in the progress of non-alcoholic steatohepatitis (NASH) in rats. METHODS: Thirty-two Sprague-Dawley (SD) rats were randomly divided into control group and model group. Rats in the control group were given normal diet, and rats in the model group were given fat-rich diet. Eight rats in each group were killed at end of the 8th and 12th wk, respectively. The levels of endotoxin, D-xylose, TG, TC, ALT and AST, intestinal tissue SOD and MDA as well as intestinal mucus secretory IgA (sIgA) were measured. The pathology of liver was observed by HE staining. RESULTS: At end of the 8th wk, there was no marked difference in the levels of endotoxin, D-xylose and sIgA between the two groups. At end of the 12th wk, rats in the model group developed steatohepatitis and had a higher serum level of endotoxin (P = 0.01) and D-xylose (P = 0.00) and a lower serum level of sIgA (P = 0.007). CONCLUSION: Intestinal mucosa barrier malfunction may exist in NASH rats and may be an important promoter of NASH in rats.

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Section: Discussionmentioning

confidence: 99%

Change of intestinal mucosa barrier function in the progress of non-alcoholic steatohepatitis in rats

Sheng¹,

Wu²,

He³

et al. 2008

WJG

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“…The gut epithelium, apart from its participation in absorptive, digestive, and secretory processes, does not just act as a passive barrier but plays a major role in protection through interactions with the immune system (5). The small intestinal epithelium consists of 4 cell types, the absorptive enterocytes, the goblet cells, the enteroendocrine cells, and the Paneth cells in the crypts, whereas in the large intestine, Paneth cells are lacking.…”

Section: Enterocytesmentioning

confidence: 99%

“…Mucosal surfaces of the gut represent the main sites in which environmental microorganisms and antigens (Ag) 5 interact with the host. Sentinel cells including epithelial cells, macrophages, and intraepithelial dendritic cells (DCs) continuously sense the environment and coordinate defenses for the protection of mucosal tissues.…”

mentioning

confidence: 99%

Molecular and Cellular Basis of Microflora-Host Interactions1,

Winkler

Ghadimi

Schrezenmeir

et al. 2007

The Journal of Nutrition

133

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Mucosal surfaces represent the main sites in which environmental microorganisms and antigens interact with the host. In particular the intestinal mucosal surfaces are in continuous contact with a heterogeneous population of microorganisms of the endogenous flora and are exposed to food and microbes. As a result, the immune system of the host has to discriminate between pathogenic and commensal microorganisms. This article reviews the types of sentinel cells that continuously sense the environment and coordinate immune defenses as well as the mechanisms of the innate and adaptive immune systems that are activated by bacterial and viral molecular patterns leading to inflammatory, allergic, or regulatory immune response with special emphasis on probiotic bacteria. J. Nutr. 137: 756S-772S, 2007.

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“…Epithelial cells respond to proinflammatory cytokines by synthesizing or producing immunologically active proteins. Epithelial line cells, constitutively or after stimulation, produce various cytokines (TGF-β, IL-1, IL-6, IL-8, IL-10 and others), trefoil factors and antimicrobial peptides (tables 2, 3) [5, 10, 12, 13]. …”

Section: Mucosal Barrier – Epithelial Cells As An Integral Component mentioning

confidence: 99%

“…The mucosal immunity system fulfills the following basic tasks: (1) protection from harmful microbial pathogens (anti-infectious role), (2) barrier against penetration of infectious and immunogenic components present on the mucosas into the circulation and thus into the inner environment of the organism (barrier function), (3) low reactivity to harmless antigens present on mucosal surfaces (‘oral or mucosal tolerance’), (4) maintenance of mucosal homeostasis (immunoregulatory function) [2, 3, 4, 5]. …”

Section: Characteristics Of Mucosal Immunity and Its Clinical Signifimentioning

confidence: 99%

Mucosal Immunity: Its Role in Defense and Allergy

Tlaskalová‐Hogenová

Tučková²,

Lodinová-Žádníková³

et al. 2002

Int Arch Allergy Immunol

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The interface between the organism and the outside world, which is the site of exchange of nutrients, export of products and waste components, must be selectively permeable and at the same time, it must constitute a barrier equipped with local defense mechanisms against environmental threats (e.g. invading pathogens). The boundaries with the environment (mucosal and skin surfaces) are therefore covered with special epithelial layers which support this barrier function. The immune system, associated with mucosal surfaces covering the largest area of the body (200–300 m²), evolved mechanisms discriminating between harmless antigens and commensal microorganisms and dangerous pathogens. The innate mucosal immune system, represented by epithelial and other mucosal cells and their products, is able to recognize the conserved pathogenic patterns on microbes by pattern recognition receptors such as Toll-like receptors, CD14 and others. As documented in experimental gnotobiotic models, highly protective colonization of mucosal surfaces by commensals has an important stimulatory effect on postnatal development of immune responses, metabolic processes (e.g. nutrition) and other host activities; these local and systemic immune responses are later replaced by inhibition, i.e. by induction of mucosal (oral) tolerance. Characteristic features of mucosal immunity distinguishing it from systemic immunity are: strongly developed mechanisms of innate defense, the existence of characteristic populations of unique types of lymphocytes, colonization of the mucosal and exocrine glands by cells originating from the mucosal organized tissues (‘common mucosal system’) and preferential induction of inhibition of the responses to nondangerous antigens (mucosal tolerance). Many chronic diseases, including allergy, may occur as a result of genetically based or environmentally induced changes in mechanisms regulating mucosal immunity and tolerance; this leads to impaired mucosal barrier function, disturbed exclusion and increased penetration of microbial, food or airborne antigens into the circulation and consequently to exaggerated and generalized immune responses to mucosally occurring antigens, allergens, superantigens and mitogens.

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The gut as a lymphoepithelial organ: The role of intestinal epithelial cells in mucosal immunity

Cited by 24 publications

References 41 publications

Change of intestinal mucosa barrier function in the progress of non-alcoholic steatohepatitis in rats

Change of intestinal mucosa barrier function in the progress of non-alcoholic steatohepatitis in rats

Molecular and Cellular Basis of Microflora-Host Interactions1,

Mucosal Immunity: Its Role in Defense and Allergy

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