Study of Antioxidant Activity and Quantum-chemical Calculations of 2-aminopyrroles

Abstract

Introduction. Modern therapy defines oxidative stress as one of the key links in the pathogenesis of different diseases, which makes the search for new low molecular weight antioxidants actual [1]. The widely used methods are imperfect, since they reflects reactivity of the sample under artificial conditions [2–4]. The proposed technique of using the "Ecolum" biosensor makes it possible to preserve the advantages of in vitro methods and improve the accuracy of determination through the use of biological reactions of cells [5, 6].Aim. Studying of the antiradical and antioxidant activity of 2-aminopyrroles, using in vitro methods and quantum-chemical calculations. Materials and methods. Earlier, derivatives of 2-aminopyrroles were obtained. Antiradical activity of the compounds was studied using the DPPH test (2,2-diphenyl-1-picrylhydrazyl). Antioxidant activity was evaluated on the model of oxidative stress using the «Ecolum» biosensor. The calculation data of the indices of reactivity in the approximation of the gas phase were obtained using quantum-chemical methods.Results and discussion. The antioxidant activity test indicated a higher antioxidant potential of 2a, compared to 2b. Antiradical activity test revealed a greater antiradical potential of 2b. Quantum-chemical calculations showed that 2b is characterized by a higher ionization potential, which may indicate its greater resistance to oxidation compared to 2a.Conclusion. The study of the antiradical and antioxidant activity of 2-aminopyrroles showed the importance of developing a methodology for the search for new antioxidants, because of antiradical activity test deviations, compared to living cell reactions.