Background & objectives The choice of anesthetic for better perioperative conservation of immune responses has always been contentious. This study investigated the differential impact of the intravenous anesthetic, propofol, and the volatile anesthetic, isoflurane on the T cell immune responses, if any, among individuals going through perioperative breast cancer. Methods Perioperative blood samples (preoperative, intraoperative and postoperative) collected from participants with breast cancer in two arms namely isoflurane arm (n=50) and the propofol arm (n=50) were analyzed for T cell immune response using flow cytometry and ELISA. The interactions of anesthetics with CD4/CD8 were probed with molecular docking and molecular dynamic (MD) simulations. Results Linear mixed model analysis showed that isoflurane in comparison to propofol inhibited CD4+ helper (Th) [β-coefficient: -8.75; 95% CI: -13.00 to -4.51] and CD19+ B cell (β: -7.51; 95% CI: -15.46 to 0.44) frequencies during the intraoperative period in perioperative breast cancer patients. Further, interleukin (IL)-10 and IL-12 were significantly increased during the intra- and postoperative periods in the isoflurane group as compared to the propofol group. Molecular docking (MD) validated propofol's better binding energy with CD4/CD8 than isoflurane. MD simulations propagated that in contrast to isoflurane, propofol formed a more compact and stabilized structure with CD4/CD8, making the amino acid residues on the surface of CD4/CD8 inaccessible for any interaction. Interpretation & conclusions The clinical observations and the in silico findings exhibited that propofol in comparison to isoflurane better regulated T cell immuno-inflammatory response in perioperative breast cancer patients.
Keywords: CD4+ T helper cells; CD8+ cytotoxic T cells; isoflurane; molecular docking; molecular dynamic simulations; propofol.