Among all the side effects, opioid-induced constipation (OIC) has the highest incidence rate in people who take chronic opioid therapy. Increasing evidence shows that enteric glial cells (EGCs) play a pivotal role in the modulation of gastrointestinal motility. We aim to investigate whether EGCs are involved in OIC and possible mechanisms. Eight-week male C57BL/6 mice were randomized into four groups: the control group, the morphine group, the gliotoxin fluorocitrate (FC) group, and the FC plus morphine group. OIC was induced by injection of morphine subcutaneously. Colonic motility was evaluated by in vivo motility assays and colonic migrating motor complex (CMMC) in vitro. Both the Ca2+ responses and the release of inflammatory cytokine by EGCs were detected in vitro. Proteins were detected by immunofluorescence staining and Western blot. The morphine group showed prolonged gastrointestinal motility compared with the control group. Once EGCs were disrupted by FC, such inhibitory effect was abolished. There was a remarkable enhancement of the GFAP expression on colonic EGCs. Immunofluorescence exhibited that μ-opioid receptor (MOR) collocated with GFAP, indicating the existence of MOR in EGCs. Moreover, morphine activated the EGCs significantly through enhancing GFAP expression and Ca2+ amplitude. Both effects can be reversed by MOR-siRNA. Morphine treatment elevated the enteric glial release of proinflammatory cytokines notably and this effect was abolished when EGCs were silenced by MOR-siRNA. The activation of EGCs via MOR and the increased proinflammatory cytokine from EGCs may be involved in morphine-induced constipation. These results provided a potential therapeutic target for OIC.
Keywords: Ca2+ responses; Enteric glial cells; Gastrointestinal motility; OIC; Proinflammatory cytokine; μ-Opioid receptor.