Abstract
Currently, impairments in gut mucosal immunity following intestinal ischemia reperfusion (IR) remain unclear. Mucosal CD8+T cells are critical for host defense against bacterial translocation from the gut lumen, and exhausted T cells lose robust effector functions. The present study was designed to verify the hypothesis that intestinal IR leads to mucosal CD8+T cell exhaustion, and that reinvigoration of exhausted CD8+T cell attenuates IR-induced bacterial translocation and liver damage. The intestinal IR model was performed through clamping the superior mesenteric artery in mice. The percent of exhausted CD8+T cells and the effector function of CD8+T cells were examined to determine the occurrence of intestinal mucosal CD8+T cell exhaustion. Subsequently, PD-1 blockade or combined PD-1 and IL-10 blockade was respectively used to reinvigorate exhausted CD8+T cells. Serum biomarkers, bacterial RNA and colonies, and inflammatory factors were examined to determine bacterial translocation and liver damage. The results indicated that intestinal IR induced CD8+T cell exhaustion in mucosal tissues, as evidenced by increased PD-1+ and PD-1+LAG-3+CD8+T cells and decreased IL-2 and TNF-α expression in CD8+T cells. Combined PD-1 and IL-10 blockade, but not PD-1 blockade alone, reinvigorated CD8+T cell exhaustion, as evidenced by increased generation of exhausted CD8+T cells with cytotoxicity and effector function, and elevated production of IFN-γ. Moreover, combined blockade significantly reduced the translocation of gut bacteria and injury to the liver after IR. In conclusion, intestinal IR leads to mucosal CD8+T cell exhaustion. Combined PD-1 and IL-10 blockade reinvigorates exhausted CD8+T cells, and ameliorates bacterial translocation and liver damage following IR.
Published Version
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