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The journal of physical chemistry. B

Complete reaction mechanism of indoleamine 2,3-dioxygenase as revealed by QM/MM simulations.


PMID 22196056

Abstract

Indoleamine 2,3-dioxygenase (IDO) and tryptophan dioxygenase (TDO) are two heme proteins that catalyze the oxidation reaction of tryptophan (Trp) to N-formylkynurenine (NFK). Human IDO (hIDO) has recently been recognized as a potent anticancer drug target, a fact that triggered intense research on the reaction and inhibition mechanisms of hIDO. Our recent studies revealed that the dioxygenase reaction catalyzed by hIDO and TDO is initiated by addition of the ferric iron-bound superoxide to the C(2)═C(3) bond of Trp to form a ferryl and Trp-epoxide intermediate, via a 2-indolenylperoxo radical transition state. The data demonstrate that the two atoms of dioxygen are inserted into the substrate in a stepwise fashion, challenging the paradigm of heme-based dioxygenase chemistry. In the current study, we used QM/MM methods to decipher the mechanism by which the second ferryl oxygen is inserted into the Trp-epoxide to form the NFK product in hIDO. Our results show that the most energetically favored pathway involves proton transfer from Trp-NH(3)(+) to the epoxide oxygen, triggering epoxide ring opening and a concerted nucleophilic attack of the ferryl oxygen to the C(2) of Trp that leads to a metastable reaction intermediate. This intermediate subsequently converts to NFK, following C(2)-C(3) bond cleavage and the associated back proton transfer from the oxygen to the amino group of Trp. A comparative study with Xantomonas campestris TDO (xcTDO) indicates that the reaction follows a similar pathway, although subtle differences distinguishing the two enzyme reactions are evident. The results underscore the importance of the NH(3)(+) group of Trp in the two-step ferryl-based mechanism of hIDO and xcTDO, by acting as an acid catalyst to facilitate the epoxide ring-opening reaction and ferryl oxygen addition to the indole ring.

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