OBJECTIVE: This study was designed to examine the effect of morphine administration on the intestinal mucus barrier and determine its direct effect on the virulence and lethality of Pseudomonas aeruginosa, one of the most frequent pathogens to colonize the gut of critically ill patients. BACKGROUND DATA: Surgical injury is associated with significant exposure of host tissues to morphine from both endogenous release and its use as a potent analgesic agent. Morphine use in surgical patients exposed to extreme physiologic stress is well established to result in increased infection risk. Although morphine is a known immunosuppressant, whether it directly induces virulence expression and lethality in microbes that colonize the human gut remains unknown. METHODS: Mice were implanted with a slow release morphine or placebo pellet with and without intestinal inoculation of P. aeruginosa created by direct cecal injection. Mucus production and epithelial integrity was assessed in cecal tissue via Alcian blue staining and histologic analysis. In vivo and in vitro P. aeruginosa virulence expression was examined using reporter strains tagged to the epithelial barrier disrupting protein PA-I lectin. P. aeruginosa chemotaxis toward morphine was also assayed in vitro. Finally, the direct effect of morphine to induce PA-I lectin expression was determined in the absence and presence of methylnaltrexone, a μ opioid receptor antagonist. RESULTS: Mice intestinally inoculated with P. aeruginosa and implanted with a morphine pellet demonstrated significant suppression of intestinal mucus, disrupted intestinal epithelium, and enhanced mortality; whereas exposure of mice to either systemic morphine or intestinal P. aeruginosa alone enhanced intestinal mucus without mortality, suggesting a shift in P. aeruginosa during morphine exposure to a mucus suppressing, barrier disrupting, and lethal phenotype. Direct exposure of P. aeruginosa to morphine in vitro confirmed that morphine can transform P. aeruginosa to a more virulent phenotype that is attenuated in part by methylnaltrexone. CONCLUSIONS: Morphine administration shifts intestinal P. aeruginosa to express a virulent phenotype and may play a role in its ability to causes lethal gut-derived sepsis in a susceptible host.
OBJECTIVE: This study was designed to examine the effect of morphine administration on the intestinal mucus barrier and determine its direct effect on the virulence and lethality of Pseudomonas aeruginosa, one of the most frequent pathogens to colonize the gut of critically illpatients. BACKGROUND DATA: Surgical injury is associated with significant exposure of host tissues to morphine from both endogenous release and its use as a potent analgesic agent. Morphine use in surgical patients exposed to extreme physiologic stress is well established to result in increased infection risk. Although morphine is a known immunosuppressant, whether it directly induces virulence expression and lethality in microbes that colonize the human gut remains unknown. METHODS:Mice were implanted with a slow release morphine or placebo pellet with and without intestinal inoculation of P. aeruginosa created by direct cecal injection. Mucus production and epithelial integrity was assessed in cecal tissue via Alcian blue staining and histologic analysis. In vivo and in vitro P. aeruginosa virulence expression was examined using reporter strains tagged to the epithelial barrier disrupting protein PA-I lectin. P. aeruginosa chemotaxis toward morphine was also assayed in vitro. Finally, the direct effect of morphine to induce PA-I lectin expression was determined in the absence and presence of methylnaltrexone, a μ opioid receptor antagonist. RESULTS:Mice intestinally inoculated with P. aeruginosa and implanted with a morphine pellet demonstrated significant suppression of intestinal mucus, disrupted intestinal epithelium, and enhanced mortality; whereas exposure of mice to either systemic morphine or intestinal P. aeruginosa alone enhanced intestinal mucus without mortality, suggesting a shift in P. aeruginosa during morphine exposure to a mucus suppressing, barrier disrupting, and lethal phenotype. Direct exposure of P. aeruginosa to morphine in vitro confirmed that morphine can transform P. aeruginosa to a more virulent phenotype that is attenuated in part by methylnaltrexone. CONCLUSIONS:Morphine administration shifts intestinal P. aeruginosa to express a virulent phenotype and may play a role in its ability to causes lethal gut-derived sepsis in a susceptible host.
Authors: S Yoshida; J Ohta; K Yamasaki; H Kamei; Y Harada; T Yahara; A Kaibara; K Ozaki; T Tajiri; K Shirouzu Journal: Surg Endosc Date: 2000-02 Impact factor: 4.584
Authors: Elise Glattard; Ingeborg D Welters; Thomas Lavaux; Arnaud H Muller; Alexis Laux; Dan Zhang; Alexander R Schmidt; François Delalande; Benoît-Joseph Laventie; Sylvie Dirrig-Grosch; Didier A Colin; Alain Van Dorsselaer; Dominique Aunis; Marie-Hélène Metz-Boutigue; Francis Schneider; Yannick Goumon Journal: PLoS One Date: 2010-01-20 Impact factor: 3.240
Authors: Olivier Lesouhaitier; Thomas Clamens; Thibaut Rosay; Florie Desriac; Mélissande Louis; Sophie Rodrigues; Andrei Gannesen; Vladimir K Plakunov; Emeline Bouffartigues; Ali Tahrioui; Alexis Bazire; Alain Dufour; Pierre Cornelis; Sylvie Chevalier; Marc G J Feuilloley Journal: J Innate Immun Date: 2018-11-05 Impact factor: 7.349
Authors: Matthew W Ralls; Farokh R Demehri; Yongjia Feng; Sasha Raskind; Chunhai Ruan; Arno Schintlmeister; Alexander Loy; Buck Hanson; David Berry; Charles F Burant; Daniel H Teitelbaum Journal: Am J Physiol Gastrointest Liver Physiol Date: 2016-09-01 Impact factor: 4.052