Acetylenes: cytochrome P450 oxidation and mechanism-based enzyme inactivation.

Acetylenes: cytochrome P450 oxidation and mechanism-based enzyme inactivation. Drug Metab Rev. 2019 Jun 16;:1-36 Authors: Ortiz de Montellano PR Abstract The oxidation of carbon-carbon triple bonds by cytochrome P450 produces ketene metabolites that are hydrolyzed to acetic acid derivatives or are trapped by nucleophiles. In the special case of 17α-ethynyl sterols, D-ring expansion and de-ethynylation have been observed as competing pathways. The oxidation of acetylenic groups is also associated with mechanism-based inactivation of cytochrome P450 enzymes. One mechanism for this inactivation is reaction of the ketene metabolite with cytochrome P450 residues essential for substrate binding or catalysis. However, in the case of monosubstituted acetylenes, inactivation can also occur by addition of the oxidized acetylenic function to a nitrogen of the heme prosthetic group. This addition reaction is not mediated by the ketene metabolite, but rather occurs during oxygen transfer to the triple bond. In some instances, a detectable intermediate is formed that is most consistent with a ketocarbene-iron heme complex. This complex can progress to the N-alkylated heme or revert back to the unmodified enzyme. The ketocarbene complex may intervene in the formation of all the N-alkyl heme adducts, but is normally too unstable to be detected. PMID: 31203694 [PubMed - as supplied by publisher]
Source: Drug Metabolism Reviews - Category: Drugs & Pharmacology Tags: Drug Metab Rev Source Type: research