Development of an HPLC-MS/MS Method for Chiral Separation and Quantitation of (R)- and (S)-Salbutamol and Their Sulfoconjugated Metabolites in Urine to Investigate Stereoselective Sulfonation

The aim of this study was to develop and optimize a chiral HPLC-MS/MS method for quantitative analysis of (R)-/(S)-salbutamol and (R)-/(S)-salbutamol-4′-O-sulfate in human urine to allow for bioanalytical quantitation of the targeted analytes and investigations of stereoselectivity in the sulfonatio...

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Published in:Molecules (Basel, Switzerland) Switzerland), 2023-10, Vol.28 (20), p.7206
Main Authors: Harps, Lukas Corbinian, Jendretzki, Annika Lisa, Wolf, Clemens Alexander, Girreser, Ulrich, Wolber, Gerhard, Parr, Maria Kristina
Format: Article
Language:English
Subjects:
Albuterol
Analysis
Asthma
bioanalysis
Chromatography
Design of experiments
enzymatic stereoselectivity
Gas flow
High performance liquid chromatography
Instrument industry
Investigations
Ionization
Metabolites
Methods
molecular docking
Optimization
Phenols
Physiological aspects
Plasma
quality-by-design
Retention
Sulfates
Urine
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container_title Molecules (Basel, Switzerland)
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Jendretzki, Annika Lisa
Wolf, Clemens Alexander
Girreser, Ulrich
Wolber, Gerhard
Parr, Maria Kristina
description The aim of this study was to develop and optimize a chiral HPLC-MS/MS method for quantitative analysis of (R)-/(S)-salbutamol and (R)-/(S)-salbutamol-4′-O-sulfate in human urine to allow for bioanalytical quantitation of the targeted analytes and investigations of stereoselectivity in the sulfonation pathway of human phase Ⅱ metabolism. For analytical method development, a systematic screening of columns and mobile phases to develop a separation via enantiomerically selective high performance liquid chromatography was performed. Electrospray ionization settings were optimized via multiple-step screening and a full factorial design-of-experiment. Both approaches were performed matrix-assisted and the predicted values were compared. The full factorial design was superior in terms of prediction power and knowledge generation. Performing a longitudinal excretion study in one healthy volunteer allowed for the calculation of excretion rates for all four targeted analytes. For this proof-of-concept, either racemic salbutamol or enantiopure levosalbutamol was administered perorally or via inhalation, respectively. A strong preference for sulfonation of (R)-salbutamol for inhalation and peroral application was found in in vivo experiments. In previous studies phenol sulfotransferase 1A3 was described to be mainly responsible for salbutamol sulfonation in humans. Thus, in vitro and in silico investigations of the stereoselectivity of sulfotransferase 1A3 complemented the study and confirmed these findings.
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For analytical method development, a systematic screening of columns and mobile phases to develop a separation via enantiomerically selective high performance liquid chromatography was performed. Electrospray ionization settings were optimized via multiple-step screening and a full factorial design-of-experiment. Both approaches were performed matrix-assisted and the predicted values were compared. The full factorial design was superior in terms of prediction power and knowledge generation. Performing a longitudinal excretion study in one healthy volunteer allowed for the calculation of excretion rates for all four targeted analytes. For this proof-of-concept, either racemic salbutamol or enantiopure levosalbutamol was administered perorally or via inhalation, respectively. A strong preference for sulfonation of (R)-salbutamol for inhalation and peroral application was found in in vivo experiments. 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subjects Albuterol
Analysis
Asthma
bioanalysis
Chromatography
Design of experiments
enzymatic stereoselectivity
Gas flow
High performance liquid chromatography
Instrument industry
Investigations
Ionization
Metabolites
Methods
molecular docking
Optimization
Phenols
Physiological aspects
Plasma
quality-by-design
Retention
Sulfates
Urine
title Development of an HPLC-MS/MS Method for Chiral Separation and Quantitation of (R)- and (S)-Salbutamol and Their Sulfoconjugated Metabolites in Urine to Investigate Stereoselective Sulfonation
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