Litcius/Paper detail

Stabilization of a Heme-HNO Model Complex Using a Bulky Bis-Picket Fence Porphyrin and Reactivity Studies with NO

Elizabeth C. Manickas, Ashley B. McQuarters, Michael Y. Hu, E. Ercan, Nicolai Lehnert

2023Journal of the American Chemical Society14 citationsDOIOpen Access PDF

Abstract

Nitroxyl, HNO/NO –, the one-electron reduced form of NO, is suggested to take part in distinct signaling pathways in mammals and is also a key intermediate in various heme-catalyzed NO x interconversions in the nitrogen cycle. Cytochrome P450nor (Cyt P450nor) is a heme-containing enzyme that performs NO reduction to N 2 O in fungal denitrification. The reactive intermediate in this enzyme, termed “Intermediate I ”, is proposed to be an Fe-NHO/Fe-NHOH type species, but it is difficult to study its electronic structure and exact protonation state due to its instability. Here, we utilize a bulky bis-picket fence porphyrin to obtain the first stable heme-HNO model complex, [Fe(3,5-Me-BAFP)(MI)(NHO)], as a model for Intermediate I, and more generally HNO adducts of heme proteins. Due to the steric hindrance of the bis-picket fence porphyrin, [Fe(3,5-Me-BAFP)(MI)(NHO)] is stable (τ 1/2 = 56 min at −30 °C), can be isolated as a solid, and is available for thorough spectroscopic characterization. In particular, we were able to solve a conundrum in the literature and provide the first full vibrational characterization of a heme-HNO complex using IR and nuclear resonance vibrational spectroscopy (NRVS). Reactivity studies of [Fe(3,5-Me-BAFP)(MI)(NHO)] with NO gas show a 91 ± 10% yield for N 2 O formation, demonstrating that heme-HNO complexes are catalytically competent intermediates for NO reduction to N 2 O in Cyt P450nor. The implications of these results for the mechanism of Cyt P450nor are further discussed.

Topics & Concepts

ChemistryPorphyrinHemeProtonationSteric effectsPhotochemistryReactivity (psychology)Reaction intermediateAdductReactive intermediateStereochemistryEnzymeCatalysisOrganic chemistryPathologyMedicineAlternative medicineIonHemoglobin structure and functionPorphyrin and Phthalocyanine ChemistryHeme Oxygenase-1 and Carbon Monoxide