Propofol Does Not Reduce Pyroptosis of Enterocytes and Intestinal Epithelial Injury After Lipopolysaccharide Challenge

Background: To date, mechanisms of sepsis-induced intestinal epithelial injury are not well known. P2X7 receptor (P2X7R) regulates Pyroptosis of lymphocytes, and propofol is usually used for sedation in septic patients.

Aims: We aimed to determine the occurrence of enterocyte Pyroptosis mediated by P2X7R and to explore the effects of propofol on Pyroptosis and intestinal epithelial injury after lipopolysaccharide (LPS) challenge.

Methods: A novel regimen of LPS challenge was applied in vitro and in vivo. Inhibitors of P2X7R (A438079) and NLRP3 inflammasome (MCC950), and different doses of propofol were administered. The Caspase-1 expression, Caspase-3 expression, caspase-11 expression, P2X7R expression and NLRP3 expression, extracellular ATP concentration and YO-PRO-1 uptake, and cytotoxicity and HMGB1 concentration were detected to evaluate enterocyte Pyroptosis in cultured cells and intestinal epithelial tissues. Chiu's score, diamine oxidase and villus length were used to evaluate intestinal epithelial injury. Moreover, survival analysis was performed.

Results: LPS challenge activated caspase-11 expression and P2X7R expression, enhanced ATP concentration and YO-PRO-1 uptake, and led to increased cytotoxicity and HMGB1 concentration. Subsequently, LPS resulted in intestinal epithelial damage, as evidenced by increased levels of Chiu's score and diamine oxidase, and shorter villus length and high mortality of Animals. A438079, but not MCC950, significantly relieved LPS-induced enterocyte Pyroptosis and intestinal epithelial injury. Importantly, propofol did not confer the protective effects on enterocyte Pyroptosis and intestinal epithelia although it markedly decreased P2X7R expression.

Conclusion: LPS attack leads to activation of caspase-11/P2X7R and Pyroptosis of enterocytes. Propofol does not reduce LPS-induced Pyroptosis and intestinal epithelial injury, although it inhibits P2X7R upregulation.