Active metabolites resulting from decarboxylation, reduction and ester hydrolysis of parent drugs

I. Hartyánszky; H. Kalász; E. Adeghate; Zs Gulyás; M. Y. Hasan; K. Tekes; A. Adem; P. Sótonyi

doi:10.2174/138920012800840437

Active metabolites resulting from decarboxylation, reduction and ester hydrolysis of parent drugs

I. Hartyánszky, H. Kalász, E. Adeghate, Zs Gulyás, M. Y. Hasan, K. Tekes, A. Adem, P. Sótonyi

Research output: Contribution to journal › Review article › peer-review

2 Citations (Scopus)

Abstract

Decarboxylation, reduction and hydrolysis can yield active metabolites from the parent drug. Major therapeutic indications and metabolic routes of these drugs are reviewed. Changes in the logP values (determined and calculated) from the parent drug to the active metabolite show certain characteristics in comparison to other phase I metabolic alterations. Metabolic decarboxylation of parent drug is commonly associated with increase in lipophilicity. However, in some cases, decarboxylation may cause a reduction in lipophilicity. Ester hydrolysis generally unmasks either the polar carboxylic or hydroxyl group with the outcome of an increase in hydrophilicity. On the contrary, hydrolysis of phosphate ester means a huge increase in the lipophilic character of the drug, as the highly polar phosphate group is removed.

Original language	English
Pages (from-to)	835-862
Number of pages	28
Journal	Current Drug Metabolism
Volume	13
Issue number	6
DOIs	https://doi.org/10.2174/138920012800840437
Publication status	Published - Jul 2012

Keywords

Active metabolites
Metabolic decarboxylation
Metabolic reduction and metabolic hydrolysis

ASJC Scopus subject areas

Medicine(all)

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10.2174/138920012800840437

Cite this

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title = "Active metabolites resulting from decarboxylation, reduction and ester hydrolysis of parent drugs",

abstract = "Decarboxylation, reduction and hydrolysis can yield active metabolites from the parent drug. Major therapeutic indications and metabolic routes of these drugs are reviewed. Changes in the logP values (determined and calculated) from the parent drug to the active metabolite show certain characteristics in comparison to other phase I metabolic alterations. Metabolic decarboxylation of parent drug is commonly associated with increase in lipophilicity. However, in some cases, decarboxylation may cause a reduction in lipophilicity. Ester hydrolysis generally unmasks either the polar carboxylic or hydroxyl group with the outcome of an increase in hydrophilicity. On the contrary, hydrolysis of phosphate ester means a huge increase in the lipophilic character of the drug, as the highly polar phosphate group is removed.",

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TY - JOUR

T1 - Active metabolites resulting from decarboxylation, reduction and ester hydrolysis of parent drugs

AU - Hartyánszky, I.

AU - Kalász, H.

AU - Adeghate, E.

AU - Gulyás, Zs

AU - Hasan, M. Y.

AU - Tekes, K.

AU - Adem, A.

AU - Sótonyi, P.

PY - 2012/7

Y1 - 2012/7

N2 - Decarboxylation, reduction and hydrolysis can yield active metabolites from the parent drug. Major therapeutic indications and metabolic routes of these drugs are reviewed. Changes in the logP values (determined and calculated) from the parent drug to the active metabolite show certain characteristics in comparison to other phase I metabolic alterations. Metabolic decarboxylation of parent drug is commonly associated with increase in lipophilicity. However, in some cases, decarboxylation may cause a reduction in lipophilicity. Ester hydrolysis generally unmasks either the polar carboxylic or hydroxyl group with the outcome of an increase in hydrophilicity. On the contrary, hydrolysis of phosphate ester means a huge increase in the lipophilic character of the drug, as the highly polar phosphate group is removed.

AB - Decarboxylation, reduction and hydrolysis can yield active metabolites from the parent drug. Major therapeutic indications and metabolic routes of these drugs are reviewed. Changes in the logP values (determined and calculated) from the parent drug to the active metabolite show certain characteristics in comparison to other phase I metabolic alterations. Metabolic decarboxylation of parent drug is commonly associated with increase in lipophilicity. However, in some cases, decarboxylation may cause a reduction in lipophilicity. Ester hydrolysis generally unmasks either the polar carboxylic or hydroxyl group with the outcome of an increase in hydrophilicity. On the contrary, hydrolysis of phosphate ester means a huge increase in the lipophilic character of the drug, as the highly polar phosphate group is removed.

KW - Active metabolites

KW - Metabolic decarboxylation

KW - Metabolic reduction and metabolic hydrolysis

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Active metabolites resulting from decarboxylation, reduction and ester hydrolysis of parent drugs

Abstract

Keywords

ASJC Scopus subject areas

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