The Met-Tyr-Trp cross-link in Mycobacterium tuberculosis catalase-peroxidase (KatG): autocatalytic formation and effect on enzyme catalysis and spectroscopic properties.

Catalase-peroxidases (KatG) are bifunctional enzymes possessing both catalase and peroxidase activities. Three crystal structures of different KatGs revealed the presence of a novel Met-Tyr-Trp cross-link that has been suggested to impart catalatic activity to the KatGs. High-performance liquid chromatographic separation of the peptide fragments resulting from tryptic digestion of recombinant Mycobacterium tuberculosis WT KatG identified a peptide with unusual UV-visible spectroscopic features attributable to the Met(255)-Tyr(229)-Trp(107) cross-link, whose structure was confirmed by mass spectrometry. WT KatG lacking the Met-Tyr-Trp cross-link was prepared, making possible studies of its formation under oxidizing conditions that generate either compound I (peroxyacetic acid, PAA) or compound II (2-methyl-1-phenyl-2-propyl hydroperoxide, MPPH). Incubation of this "cross-link-free" WT KatG with PAA revealed complete formation of the Met-Tyr-Trp structure after six equivalents of peracid were added, whereas MPPH was unable to promote cross-link formation. A mechanism for Met-Tyr-Trp autocatalytic formation by KatG compound I is proposed from these studies. Optical stopped-flow studies of WT KatG and KatG(Y229F), a mutant in which the cross-link cannot be formed, were performed with MPPH and revealed an unusual compound II spectrum for WT KatG, best described as (P.)Fe(III), where P. represents a protein-based radical. This contrasts with the oxoferryl compound II spectrum observed for KatG(Y229F) under identical conditions. The structure-function-spectroscopy relationship in KatG is discussed with relevance to the role that the Met-Tyr-Trp cross-link plays in the catalase-peroxidase mechanism.