Journal of Chromatography Open (Nov 2024)

Enantiomeric profile of promethazine in metabolic studies in liver microsomes

  • Maria Miguel Coelho,
  • Bárbara Silva,
  • Carla Fernandes,
  • Fernando Remião,
  • Maria Elizabeth Tiritan

Journal volume & issue
Vol. 6
p. 100145

Abstract

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Promethazine (PMZ) is metabolized in the liver giving rise to chiral metabolites, including promethazine sulfoxide (PMZSO) and desmonomethyl promethazine (DMPMZ). Other metabolites, such as dioxopromethazine (DOPMZ), hydroxy promethazine (PMZOH), N-desmethyl-promethazine sulfoxide, and promethazine N-oxide (PMZNO) can also be formed, but information about them is limited. In this work, the enantiomeric metabolic profile of PMZ in ultra-pool human liver microsomes (HLM) was evaluated. For that, a novel enantioselective analytical method, by liquid chromatography coupled with high-resolution mass spectrometry was established and employed to monitor the enantiomers of PMZ and the formation of its main metabolites PMZSO and DMPMZ in two-hours assay with HLM. The enantioseparation optimized conditions were achieved with two immobilized carbamate amylose-based (3‑chloro-5-methylphenylcarbamate) columns: Lux® 3 µm i-Amylose-3 and Chiralpak® IG-U 1.6 µm. The optimized mobile phase for enantioseparation used buffer and ethanol, a green organic solvent, in a low flow rate. The sample preparation was based only in liquid-liquid extraction. (R)-PMZ consistently exhibited higher concentrations than (S)-PMZ, indicating less extension in metabolization. Regarding the metabolites, PMZSO exhibited higher concentrations compared to DMPMZ. A higher concentration for (S)-PMZSO was found when compared to the (R)-PMZSO and (R)-DMPMZ showing higher concentration compared to (S)-DMPMZ, indicating enantioselectivity in the metabolization process. The metabolites, PMZOH or PMZNO and DOPMZ were also identified. The second enantiomer of DOPMZ also showed a higher proportion than the first eluted enantiomer. These results demonstrated enantioselectivity of liver metabolism of PMZ, as well as confirmed PMZOH, PMZNO, and DOPMZ metabolites formation.

Keywords