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Gut-associated lymphoid T cell suppression enhances bacterial translocation in alcohol and burn injury

Authors :
Choudhry, Mashkoor A.
Fazal, Nadeem
Goto, Maskatsu
Gamelli, Richard L.
Sayeed, Mohammed M.
Source :
The American Journal of Physiology. June, 2002, Vol. 282 Issue 6, pG937, 11 p.
Publication Year :
2002

Abstract

The mechanism of alcohol-mediated increased infection in burn patients remains unknown. With the use of a rat model of acute alcohol and burn injury, the present study ascertained whether acute alcohol exposure before thermal injury enhances gut bacterial translocation. On day 2 postinjury, we found a severalfold increase in gut bacterial translocation in rats receiving both alcohol and burn injury compared with the animals receiving either injury alone. Whereas there were no demonstrable changes in intestinal morphology in any group of animals, a significant increase in intestinal permeability was observed in ethanol- and burn-injured rats compared with the rats receiving either injury alone. We further examined the role of intestinal immune defense by determining the gut-associated lymphoid (Peyer's patches and mesenteric lymph nodes) T cell effector responses 2 days after alcohol and burn injury. Although there was a decrease in the proliferation and interferon-[gamma] by gut lymphoid T cells after burn injury alone; the suppression was maximum in the group of rats receiving both alcohol and burn injuries. Furthermore, the depletion of CD[3.sup.+] cells in healthy rats resulted in bacterial accumulation in mesenteric lymph nodes; such CD[3.sup.+] cell depletion in alcohol- and burn-injured rats furthered the spread of bacteria to spleen and circulation. In conclusion, our data suggest that the increased intestinal permeability and a suppression of intestinal immune defense in rats receiving alcohol and burn injury may cause an increase in bacterial translocation and their spread to extraintestinal sites. T lymphocyte; infection immunity bacteria; inflammation; shock

Details

ISSN :
00029513
Volume :
282
Issue :
6
Database :
Gale General OneFile
Journal :
The American Journal of Physiology
Publication Type :
Academic Journal
Accession number :
edsgcl.87774454