Benzofuroxan as a thiol-specific reactivity probe. Kinetics of its reactions with papain, ficin, bromelain and low-molecular-weight thiols

Abstract

1. The characteristics of benzofuroxan (benzofurazan 1-oxide, benzo-2-oxa-1,3-diazole N-oxide) that relate to its application as a reactivity probe for the study of environments of thiol groups are discussed. 2. To establish a kinetic and mechanistic basis for its use as a probe, a kinetic study of its reaction with 2-mercaptoethanol was carried out. 3. This reaction appears to proceed by a rate-determining attack of the thiolate ion on one of the electrophilic centres of benzofuroxan (possibly C-6) to provide a low steady-state concentration of an intermediate adduct; rapid reaction of this adduct with a second molecule of thiol gives the disulphide and o-benzoquinone dioxime. 4. The effects of the different types of environment that proteins can provide on the kinetic characteristics of reactions of thiol groups with benzofuroxan are delineated. 5. Benzofuroxan was used as a thiolspecific reactivity probe to investigate the active centres of papain (EC 3.4.22.2), ficin (EC 3.4.22.3) and bromelain (EC 3.4.22.4). The results support the concept that the active centres of all three enzymes either contain a nucleophilic thiolate ion whose formation is characterized by a pKa of 3-4 and whose reaction with an electrophile can be assisted by interaction of a site of high electron density in the electrophile with active-centre imidazolium ion of pKa 8-9, or can provide such ions by protonic redistribution in enzyme-reagent or enzyme-substrate complexes.