Glutathione transferase A1-1: catalytic importance of arginine 15.

Glutathione transferases (GSTs) are fundamental enzymes of the cell detoxification system. They catalyze the nucleophilic attack of glutathione (GSH) on electrophilic substrates to produce less toxic compounds. The resulting substrate can then be recognized by ATP-dependent transmembrane pumps and consequently expelled from the cell. Despite all the existing studies on GSTs, many aspects of the catalytic events are still poorly understood. Recently, using as a model the GSTA1-1 enzyme, we proposed a GSH activation mechanism. Resorting to the density functional theory (DFT), we demonstrated that a water molecule could assist a proton transfer between the GSH thiol and alpha-carboxylic groups, after an initial conformational rearrangement of GSH, as evidenced by potential of mean force calculations. In this work to elucidate the catalytic role of Arg15, a strictly conserved active site residue in class alpha GSTs, we analyzed the activation energy barrier and structural details associated with the GSTA1-1 mutants R15A, R15Repsilon,eta-c (an Arg residue with the epsilon,eta-nitrogens substituted by carbons), and R15Rneutral (a neutral Arg residue due to the a addition of a hydride in the zeta-carbon). A similar mechanism to the one used in our GSH activation proposal was implemented.