DOI: 10.1073/pnas.2612169123 ISSN: 0027-8424
Multistep electron tunneling through tryptophans in the KatG bifunctional peroxidase monitored by a nonperturbing spin probe
Elisabetta Mileo, Annalisa Piero, Elisabeth Lojou, Lionel Cheruzel, Harry B. Gray, Anabella Ivancich
The bifunctional heme peroxidase from
B. pseudomallei
(BpKatG) utilizes heme and three tryptophans (Trp139, Trp153, and Trp330) as unique redox cofactors in the peroxidase-like catalytic cycle, as was shown previously by multifrequency Electron Paramagnetic Resonance (EPR) spectroscopy combined with isotope labeling and site-directed mutagenesis. In this work, we exploited the redox properties of a strategically attached nitroxide as a direct probe of the long-range multistep electron-tunneling pathway between Trp153
•
and the high-valent heme intermediate, thereby showing it is mediated by Trp94 and Trp95. We also demonstrated that the equilibrium between the [Fe
IV
= O Trp153
•
] and [Fe
IV
= O Trp139
•
] intermediates, which is observed in the absence of substrate, is preferentially shifted toward catalytic oxidation of isoniazid substrate by Trp139
•
. Our EPR experimental data confirm that Trp139
•
oxidatively activates the isoniazid prodrug, in sharp contrast to the current view that [Fe
IV
= O Por
•+
] is the oxidant, as in canonical peroxidases.