Exploration of chiral drugs as references for chiral discrimination of valsartan and voriconazole by tandem mass spectrometry

Yang, Xue; Li, Wei; Liu, Jie; He, Lan; Liu, Yang; Zhang, Caiyu

doi:10.1002/jms.4968

J Mass Spectrom

2023

DOI: 10.1002/jms.4968

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Exploration of chiral drugs as references for chiral discrimination of valsartan and voriconazole by tandem mass spectrometry

Xue Yang,

Wei Li,

Jie Liu

et al.

Abstract: The use of mass spectrometry for chiral recognition and quantification has attracted great interest owing to its speed, sensitivity, specificity, and tolerance. However, searching for chiral selectors in chiral analyses using mass spectrometry is still problematic. In this study, chiral drugs could be applied as references for the chiral recognition and enantiomeric quantification of valsartan and voriconazole. Two novel pairs of metal‐bound diastereomeric complex ions were detected by mass spectrometry, namel… Show more

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2024

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Tandem Mass Spectrometry Approaches for Differentiation and Quantification Pidotimod and Its Three Isomers in the Gas Phase

Zhang,

Liu,

et al. 2024

Chirality

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Pidotimod is a chiral drug that possesses two chiral centers, resulting in three isomeric impurities (analytes, A). This study employs electrospray ionization ion trap mass spectrometry (ESI‐MS) through collision‐induced dissociation (CID) to investigate the chiral recognition of pidotimod and its three isomers to eliminate chromatographic separation. Three approaches were explored: (1) Protonated molecules in CID exhibited discriminative potential for diastereomers, with the ability to distinguish between S,S and R,R configurations, albeit with an Rchiral value of ~1.8. However, differentiation between R,S and S,R configurations was not achievable. (2) Alkali adductions (lithium and sodium) only discerned diastereomers. The Rchiral values of the diastereomers obtained from alkali adduct ions were significantly lower than those obtained from protonated ions. (3) Therefore, a third approach was used to address the challenge of distinguishing between R,S and S,R configurations, including the introduction of chiral references (ref) and transition metals (MII) to form metal‐bound complexes [MII(A)(ref)‐H]+. Additionally, we synthesized a novel ligand, 4‐(N‐tert‐butoxycarbonyl [Boc]‐L‐prolinamido)phenol (denoted as ligand A), by modifying N‐t‐Boc‐L‐Pro with 2‐aminophenol, which, in combination with CuII and NiII, enabled simultaneous differentiation of all four isomers. CuII complexes exhibited significant chiral selectivity between R,S and S,R configurations. Density functional theory calculations were performed to further elucidate the stereodynamic behavior and stoichiometry of these ions in the gas phase. These calculations revealed the interaction energy and coordination sites of the precursor ions in the gas phase, correlating well with MS/MS experiment results. Additionally, the logarithm of the CuII complexes' characteristic fragment ion abundance ratio demonstrated a strong linear relationship with enantiomeric excess (ee). This study presents a novel strategy for chiral drug quality control that eliminates chromatographic separation.

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Tandem Mass Spectrometry Approaches for Differentiation and Quantification Pidotimod and Its Three Isomers in the Gas Phase

Zhang,

Liu,

et al. 2024

Chirality

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Exploration of chiral drugs as references for chiral discrimination of valsartan and voriconazole by tandem mass spectrometry

Cited by 1 publication

References 41 publications

Tandem Mass Spectrometry Approaches for Differentiation and Quantification Pidotimod and Its Three Isomers in the Gas Phase

Tandem Mass Spectrometry Approaches for Differentiation and Quantification Pidotimod and Its Three Isomers in the Gas Phase

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