Physicochemical properties of beta-lactam antibacterials: deuterium solvent isotope effect on penicillin G degradation rate.

Abstract

To obtain kinetic evidence on the degradation mechanism of penicillin in aqueous solution, degradation rates of penicillin G in water and deuterium oxide were measured in the pH (pD) range of 4-10. The solvent isotope effect (kH2O/kD2O) of 1.53 below pH (pD) 6 supports the mechanism of water-catalyzed rearrangement of undissociated penicillin G to benzylpenicillenic acid. The spontaneous degradation at neutral pH (pD) and the hydroxide-ion-catalyzed degradation in the alkaline pH (pD) range progress with a deuterium solvent isotope effect (kH2O/kD2O) of 4.5 and 0.59, respectively. This finding indicates the mechanisms of general base-catalyzed hydrolysis by water in the neutral pH range and of nucleophilic attack of the hydroxide ion on the beta-lactam in the alkaline pH range. No significant side-chain dependency was observed in the reaction of penicillins with bases. The solvent isotope studies led to the conclusion that penicillin degradation is catalyzed by a series of bases via general base-catalyzed and nucleophilic mechanisms, depending on their basicity.