BACKGROUND: The development of postinfectious-irritable bowel syndrome is associated with psychological stress but this relationship is poorly understood. The mouse Citrobacter rodentium model enhances the postinfectious excitability of colonic nociceptors, which can be further amplified by water-avoidance stress (WAS). This study tested whether concurrent infectious colitis and chronic stress enhance and sustain nociceptor excitability more than stress after resolution of infection. METHODS: Male C57 mice were gavaged with C. rodentium. WAS (1 h/day) was performed at different time-points relative to the infection. After the final session of WAS, T9-T13 colonic-projecting DRG neurons were isolated, cultured overnight and patch-clamped to assess excitability. To investigate potential mechanisms, histological damage scores and colonic cytokine production were assessed. KEY RESULTS: WAS more than 30 days after C. rodentium infection produced no greater DRG excitability than WAS in uninfected mice. However, when overlapped with chronic stress (3 sessions of WAS; 7 days before, 9 days during and 9 days after C. rodentium or sham gavage), C. rodentium significantly enhanced DRG excitability vs saline-gavaged chronically stressed mice. Bodyweights and colonic damage scores were unchanged. Both WAS and C. rodentium gavage were found to significantly alter colonic cytokines at postinfection day 30. CONCLUSIONS & INFERENCES: Chronic stress and infectious colitis combine in an additive manner to heighten and prolong the sensitivity of visceral nociceptors. The effect relies on temporal coincidence of stress and infection, does not involve substantial exacerbation of inflammation, and may involve combined direct stress hormone and immune signaling on DRG neurons.
BACKGROUND: The development of postinfectious-irritable bowel syndrome is associated with psychological stress but this relationship is poorly understood. The mouseCitrobacter rodentium model enhances the postinfectious excitability of colonic nociceptors, which can be further amplified by water-avoidance stress (WAS). This study tested whether concurrent infectious colitis and chronic stress enhance and sustain nociceptor excitability more than stress after resolution of infection. METHODS: Male C57 mice were gavaged with C. rodentium. WAS (1 h/day) was performed at different time-points relative to the infection. After the final session of WAS, T9-T13 colonic-projecting DRG neurons were isolated, cultured overnight and patch-clamped to assess excitability. To investigate potential mechanisms, histological damage scores and colonic cytokine production were assessed. KEY RESULTS: WAS more than 30 days after C. rodentium infection produced no greater DRG excitability than WAS in uninfected mice. However, when overlapped with chronic stress (3 sessions of WAS; 7 days before, 9 days during and 9 days after C. rodentium or sham gavage), C. rodentium significantly enhanced DRG excitability vs saline-gavaged chronically stressed mice. Bodyweights and colonic damage scores were unchanged. Both WAS and C. rodentium gavage were found to significantly alter colonic cytokines at postinfection day 30. CONCLUSIONS & INFERENCES: Chronic stress and infectious colitis combine in an additive manner to heighten and prolong the sensitivity of visceral nociceptors. The effect relies on temporal coincidence of stress and infection, does not involve substantial exacerbation of inflammation, and may involve combined direct stress hormone and immune signaling on DRG neurons.
Authors: Mark S Riddle; Marleen Welsh; Chad K Porter; Chiping Nieh; Edward J Boyko; Gary Gackstetter; Tomoko I Hooper Journal: Am J Gastroenterol Date: 2016-01-05 Impact factor: 10.864