BACKGROUND & AIMS: Although inflammatory and immune cells are present in the gut in the absence of pathology, their presence does not result in sensitization of sensory nerves, implying the existence of a local antinociceptive influence. We hypothesized that a component of the immune system exerts an antinociceptive influence, thus enabling the gut to function in the absence of undue pain or discomfort. METHODS: Visceromotor responses to colorectal distention were measured in mice with severe combined immune deficiency (SCID) and their wild-type controls. RESULTS: SCID mice exhibited significantly lower pain thresholds. Transfer of CD4(+) T, but not B lymphocytes, normalized visceral pain in these mice. The restoration of normal visceral nociception following T-cell reconstitution in SCID mice was blocked by naloxone methiodide. Using an enzyme immunoassay and immunohistochemistry for beta-endorphin, we showed that in vitro stimulation of T lymphocytes induced the synthesis and release of beta-endorphin and that transfer of T cells into SCID mice increased the expression of beta-endorphin in the enteric nervous system. CONCLUSIONS: These findings indicate that the immune system is a critical determinant of visceral nociception and that T lymphocytes provide an important opioid-mediated antinociceptive influence in the gut.
BACKGROUND & AIMS: Although inflammatory and immune cells are present in the gut in the absence of pathology, their presence does not result in sensitization of sensory nerves, implying the existence of a local antinociceptive influence. We hypothesized that a component of the immune system exerts an antinociceptive influence, thus enabling the gut to function in the absence of undue pain or discomfort. METHODS: Visceromotor responses to colorectal distention were measured in mice with severe combined immune deficiency (SCID) and their wild-type controls. RESULTS:SCIDmice exhibited significantly lower pain thresholds. Transfer of CD4(+) T, but not B lymphocytes, normalized visceral pain in these mice. The restoration of normal visceral nociception following T-cell reconstitution in SCIDmice was blocked by naloxone methiodide. Using an enzyme immunoassay and immunohistochemistry for beta-endorphin, we showed that in vitro stimulation of T lymphocytes induced the synthesis and release of beta-endorphin and that transfer of T cells into SCIDmice increased the expression of beta-endorphin in the enteric nervous system. CONCLUSIONS: These findings indicate that the immune system is a critical determinant of visceral nociception and that T lymphocytes provide an important opioid-mediated antinociceptive influence in the gut.
Authors: Christoph Stein; J David Clark; Uhtaek Oh; Michael R Vasko; George L Wilcox; Aaron C Overland; Todd W Vanderah; Robert H Spencer Journal: Brain Res Rev Date: 2008-12-31
Authors: Monica Verma-Gandhu; Elena F Verdu; Premysl Bercik; Patricia A Blennerhassett; Nafia Al-Mutawaly; Jean-Eric Ghia; Stephen M Collins Journal: Gut Date: 2006-10-03 Impact factor: 23.059
Authors: Raquel Guerrero-Alba; Eduardo Emmanuel Valdez-Morales; Nestor Nivardo Jiménez-Vargas; Romke Bron; Daniel Poole; David Reed; Joel Castro; Melissa Campaniello; Patrick A Hughes; Stuart M Brierley; Nigel Bunnett; Alan E Lomax; Stephen Vanner Journal: Br J Pharmacol Date: 2018-05-22 Impact factor: 8.739