Spectroscopic Comparison of the Heme Active Sites in WT KatG and Its S315T Mutant

Abstract

KatG, the catalase-peroxidase from Mycobacterium tuberculosis, has been characterized by resonance Raman, electron spin resonance, and visible spectroscopies. The mutant KatG(S315T), which is found in about 50% of isoniazid-resistant clinical isolates, is also spectroscopically characterized. The electron spin resonance spectrum of ferrous nitrosyl KatG is consistent with a proximal histidine ligand. The Fe-His stretching vibration observed at 244 cm^-1 for ferrous wild-type KatG and KatG(S315T) confirms the imidazolate character of the proximal histidine in their five-coordinate high-spin complexes. The ferrous forms of wild-type KatG and KatG(S315T) are mixtures of six-coordinate low-spin and five-coordinate high-spin hemes. The optical and resonance Raman signatures of ferric wild-type KatG indicate that a majority of the heme exists in a five-coordinate high-spin state, but six-coordinate hemes are also present. At room temperature, more six-coordinate low-spin heme is observed in ferrous and ferric KatG(S315T) than in the WT enzyme. While the nature of the sixth ligand of LS ferric wild-type KatG is not completely clear, visible, resonance Raman, and electron spin resonance data of KatG(S315T) indicate that its sixth ligand is a neutral nitrogen donor. Possible effects of these differences on enzyme activity are discussed.