The effect of synthetic thrombin receptor (PAR1) agonist peptide encapsulated in microspheres made of lactic and glycolic acid copolymer on tissue reparation was studied in rats with acetate-induced ulcer. PAR1 agonist peptide was immobilized in biodegraded lactic and glycolic acid microspheres by double emulgation, the kinetics of peptide release was analyzed, and the dynamics of ulcer healing was studied in experimental (administration of microspheres with the peptide into the stomach) and two control groups (administration of saline or spheres without peptide). Thrombin receptor agonist peptide gradually released from lactic and glycolic acid microspheres into the stomach shortened the inflammation phase and shifted the proliferation phase to the earlier period, thus accelerating healing of experimental ulcers in rats.
Generation of thrombin and activated protein C in the inflammatory focus was demonstrated in rats with experimental acute peritonitis. The contents of thrombin and activated protein C peaked by the 30th and 120th minute of inflammation, respectively. In vitro study showed a decrease in spontaneous and compound 48/80-induced secretion of beta-hexosaminidase by peritoneal mast cells under the influence of activated protein C in low concentrations. The antiinflammatory effect of protein C in the focus of acute peritonitis is probably realized through NO release from peritoneal mast cells. This conclusion is derived from the data that L-NAME abolishes the protective effect of activated protein C.
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