Kinetics of hydrolysis of acetyl, valeroyl and nicotinoyl acyl derivatives of stobadine

The present work deals with the kinetics of hydrolysis of the acyl derivatives of stobadine, an originally synthesized potential antiarrhythmic and antihypoxic drug, which was found to have also an excellent scavenging effect on reactive oxygen species. The acyl derivatives of stobadine, which possess high lipophilicity, represent model blood-brain barrier penetrating agents. It is assumed that the acyl derivatives of stobadine may act as prodrugs which are hydrolysed in different biological tissues to release the active drug. The decomposition of three acyl derivatives of stobadine was studied in acidic, basic and neutral buffer solutions at constant ionic strength (0.1 mol/L) at 25 ° and 70 °C using UV spectrophotometric method. The pseudo first-order rate constants and the pH-rate profile for the degradation of acetyl-, valeroyl- and nicotinoyl-derivatives of stobadine were determined. Confirmation that stobadine was the first degradation product was provided by thin-layer chromatography.