Intestinal barrier: An interface between health and disease

Farhadi, Ashkan; Banan, Ali; Fields, Jeremy Z.; Keshavarzian, Ali

doi:10.1046/j.1440-1746.2003.03032.x

Cited by 459 publications

(337 citation statements)

References 170 publications

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“…Because chemoprevention therapies must be minimally toxic, more work must be done to understand the effects of EGFR pathway inhibitors on the normal intestinal mucosa. For example, the maintenance of proper barrier function in the intestine has been attributed to EGFR activity (103). During the long duration treatment that is typically envisioned for tumor prevention, loss of EGFR activity may have deleterious consequences because its functions are physiologically necessary in the normal gut.…”

Section: Discussionmentioning

confidence: 99%

Apc Deficiency Is Associated with Increased Egfr Activity in the Intestinal Enterocytes and Adenomas of C57BL/6J-Min/+ Mice

Moran¹,

Hunt

Javid³

et al. 2004

Journal of Biological Chemistry

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Section: Discussionmentioning

confidence: 99%

Apc Deficiency Is Associated with Increased Egfr Activity in the Intestinal Enterocytes and Adenomas of C57BL/6J-Min/+ Mice

Moran¹,

Hunt

Javid³

et al. 2004

Journal of Biological Chemistry

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“…24 Mucus is secreted by goblet cells and acts as a mechanical protective layer that also contains digestive and antibacterial enzymes and antibodies, and will hydrate the epithelial layer and helps it regenerate. 25 The epithelial layer, in addition to playing an important part in absorption of the nutrients, also serves as a physical barrier due to the tight junctions between the epithelial cells.…”

Section: Effect Of Gut Microbiota On Intestinal Permeabilitymentioning

confidence: 99%

Modulatory Effects of Gut Microbiota on the Central Nervous System: How Gut Could Play a Role in Neuropsychiatric Health and Diseases

Yarandi

Peterson

Treisman

et al. 2016

J Neurogastroenterol Motil

228

134

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Gut microbiome is an integral part of the Gut-Brain axis. It is becoming increasingly recognized that the presence of a healthy and diverse gut microbiota is important to normal cognitive and emotional processing. It was known that altered emotional state and chronic stress can change the composition of gut microbiome, but it is becoming more evident that interaction between gut microbiome and central nervous system is bidirectional. Alteration in the composition of the gut microbiome can potentially lead to increased intestinal permeability and impair the function of the intestinal barrier. Subsequently, neuro-active compounds and metabolites can gain access to the areas within the central nervous system that regulate cognition and emotional responses. Deregulated inflammatory response, promoted by harmful microbiota, can activate the vagal system and impact neuropsychological functions. Some bacteria can produce peptides or short chain fatty acids that can affect gene expression and inflammation within the central nervous system. In this review, we summarize the evidence supporting the role of gut microbiota in modulating neuropsychological functions of the central nervous system and exploring the potential underlying mechanisms.

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“…1 It is well known that intestinal I/R not only leads to the injury of intestine itself, but may also cause multiple organ dysfunction owing to damage of the intestinal mucosal barrier. 2 Of particular interest, compromised peripheral perfusion during CPB and the resulting gastrointestinal mucosal injury have been shown to lead to decreased mucosal barrier function, which may allow translocation of intestinal flora and endotoxemia and subsequently increased systemic inflammation. 3,4 This may lead to and/or further enhance oxidative stress during CPB and result in more eventful postoperative myocardial functional recovery.…”

mentioning

confidence: 99%

Propofol attenuates intestinal mucosa injury induced by intestinal ischemia-reperfusion in the rat

Liu

Rinne

et al. 2007

Can J Anesth/J Can Anesth

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Purpose:We investigated whether propofol at a sedative dose can prevent intestinal mucosa ischemia/reperfusion (I/R) injury, and if propofol can attenuate oxidative stress and increases in nitric oxide (NO) and endothelin-1 (ET-1) release that may occur during intestinal I/R injury. Methods:Rats were randomly allocated into one of five groups (n = 10 each): (i) sham control; (ii) injury (one hour superior mesenteric artery occlusion followed by three hours reperfusion); (iii) propofol pre-treatment, with propofol given 30 min before inducing intestinal ischemia; (iv) simultaneous propofol treatment, with propofol given 30 min before intestinal reperfusion was started; (v) propofol post-treatment, with propofol given 30 min after intestinal reperfusion was initiated. In the treatment groups, propofol 50 mg·kg -1 was administrated intraperitoneally. Animals in the control and untreated injury groups received equal volumes of intralipid (the vehicle solution of propofol) intraperitoneally. Intestinal mucosa histology was analyzed by Chiu's scoring assessment. Levels of lactic acid (LD), NO, ET-1, lipid peroxidation product malondialdehyde (MDA) and superoxide dismutase (SOD) activity in intestinal mucosa were determined. Results:Histological results showed severe damage in the intestinal mucosa of the injury group accompanied by increases in MDA, NO and ET-1 and a decrease in SOD activity. Propofol treatments, especially pre-treatment, significantly reduced Chiu's scores and levels of MDA, NO, ET-1 and LD, while restoring SOD activity. Conclusion:These findings indicate that propofol attenuates intestinal I/R-induced mucosal injury in an animal model. The response may be attributable to propofol's antioxidant properties, and the effects of inhibiting over-production of NO and in decreasing ET-1 levels. CAN J ANESTH 2007 / 54: 5 / pp 366-374 Objectif : Nous avons cherché à savoir si le propofol, en dose sédative, pouvait empêcher les lésions d'ischémie/reperfusion (I/R) de la muqueuse intestinale, et s'il pouvait atténuer le stress oxydatif et les augmentations dans la libération d'oxyde nitrique (NO) et d'endothéline-1 (ET-1) pouvant survenir lors de lésions I/R intestinales. Méthode : Des rats ont été randomisés en cinq groupes (n = 10 chacun) : (i) faux témoin (sham control) ; (ii) lésion (occlusion de

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Intestinal barrier: An interface between health and disease

Cited by 459 publications

References 170 publications

Apc Deficiency Is Associated with Increased Egfr Activity in the Intestinal Enterocytes and Adenomas of C57BL/6J-Min/+ Mice

Apc Deficiency Is Associated with Increased Egfr Activity in the Intestinal Enterocytes and Adenomas of C57BL/6J-Min/+ Mice

Modulatory Effects of Gut Microbiota on the Central Nervous System: How Gut Could Play a Role in Neuropsychiatric Health and Diseases

Propofol attenuates intestinal mucosa injury induced by intestinal ischemia-reperfusion in the rat

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