Epimerization and hydrolysis of dalvastatin, a new hydroxymethylglutaryl coenzyme A (HMG-CoA) reductase inhibitor

In aqueous solutions, dalvastatin (1) undergoes epimerization as well as hydrolysis. The transformation of the drug was studied as a function of pH at 25 degrees C in aqueous solutions containing 20% acetonitrile. At all pH values, first-order plots for the conversion are biphasic, indicating rapid...

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Veröffentlicht in:	Pharmaceutical research 1994-01, Vol.11 (1), p.165-170
1. Verfasser:	Won, C M
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetonitriles Anticholesteremic Agents - chemistry Catalysis Chromatography, High Pressure Liquid Cyclohexanes - chemistry Hydrogen-Ion Concentration Hydrolysis Hydroxymethylglutaryl-CoA Reductase Inhibitors Isomerism Kinetics Lactones - chemistry
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creator	Won, C M
description	In aqueous solutions, dalvastatin (1) undergoes epimerization as well as hydrolysis. The transformation of the drug was studied as a function of pH at 25 degrees C in aqueous solutions containing 20% acetonitrile. At all pH values, first-order plots for the conversion are biphasic, indicating rapid equilibration of 1 with its epimer (2) and slower hydrolysis of 1 to the corresponding beta-hydroxy acid (3). Apparent first-order rate constants for the biexponential equation are given as a function of pH. The alkyl-oxygen cleavage of the lactone ring results in the epimerization of 1 to 2, whereas the acyl-oxygen cleavage results in the hydrolysis of 1 to 3. The epimerization is an SN1 reaction reaching an equilibrium of [1]eq/[2]eq = 1.27. The epimerization rate is increased with an increase in the water content of the solvent. The hydrolysis of 1 to 3 is acid and base catalyzed. The hydrolysis is reversible in acidic media and irreversible in neutral and basic media. At pH values greater than 9, the hydrolysis reaction proceeds more rapidly than the epimerization.
doi_str_mv	10.1023/A:1018978602141
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The transformation of the drug was studied as a function of pH at 25 degrees C in aqueous solutions containing 20% acetonitrile. At all pH values, first-order plots for the conversion are biphasic, indicating rapid equilibration of 1 with its epimer (2) and slower hydrolysis of 1 to the corresponding beta-hydroxy acid (3). Apparent first-order rate constants for the biexponential equation are given as a function of pH. The alkyl-oxygen cleavage of the lactone ring results in the epimerization of 1 to 2, whereas the acyl-oxygen cleavage results in the hydrolysis of 1 to 3. The epimerization is an SN1 reaction reaching an equilibrium of [1]eq/[2]eq = 1.27. The epimerization rate is increased with an increase in the water content of the solvent. The hydrolysis of 1 to 3 is acid and base catalyzed. The hydrolysis is reversible in acidic media and irreversible in neutral and basic media. 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The transformation of the drug was studied as a function of pH at 25 degrees C in aqueous solutions containing 20% acetonitrile. At all pH values, first-order plots for the conversion are biphasic, indicating rapid equilibration of 1 with its epimer (2) and slower hydrolysis of 1 to the corresponding beta-hydroxy acid (3). Apparent first-order rate constants for the biexponential equation are given as a function of pH. The alkyl-oxygen cleavage of the lactone ring results in the epimerization of 1 to 2, whereas the acyl-oxygen cleavage results in the hydrolysis of 1 to 3. The epimerization is an SN1 reaction reaching an equilibrium of [1]eq/[2]eq = 1.27. The epimerization rate is increased with an increase in the water content of the solvent. The hydrolysis of 1 to 3 is acid and base catalyzed. The hydrolysis is reversible in acidic media and irreversible in neutral and basic media. 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The transformation of the drug was studied as a function of pH at 25 degrees C in aqueous solutions containing 20% acetonitrile. At all pH values, first-order plots for the conversion are biphasic, indicating rapid equilibration of 1 with its epimer (2) and slower hydrolysis of 1 to the corresponding beta-hydroxy acid (3). Apparent first-order rate constants for the biexponential equation are given as a function of pH. The alkyl-oxygen cleavage of the lactone ring results in the epimerization of 1 to 2, whereas the acyl-oxygen cleavage results in the hydrolysis of 1 to 3. The epimerization is an SN1 reaction reaching an equilibrium of [1]eq/[2]eq = 1.27. The epimerization rate is increased with an increase in the water content of the solvent. The hydrolysis of 1 to 3 is acid and base catalyzed. The hydrolysis is reversible in acidic media and irreversible in neutral and basic media. 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subjects	Acetonitriles Anticholesteremic Agents - chemistry Catalysis Chromatography, High Pressure Liquid Cyclohexanes - chemistry Hydrogen-Ion Concentration Hydrolysis Hydroxymethylglutaryl-CoA Reductase Inhibitors Isomerism Kinetics Lactones - chemistry
title	Epimerization and hydrolysis of dalvastatin, a new hydroxymethylglutaryl coenzyme A (HMG-CoA) reductase inhibitor
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