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Linking aromatic hydroxy metabolic functionalization of drug molecules to structure and pharmacologic activity
, S.B.M. Ahmed, , H.S. Ali
Published in MDPI
2018
PMID: 30142909
Volume: 23
   
Issue: 9
Abstract
Drug functionalization through the formation of hydrophilic groups is the norm in the phase I metabolism of drugs for the modification of drug action. The reactions involved are mainly oxidative, catalyzed mostly by cytochrome P450 (CYP) isoenzymes. The benzene ring, whether phenyl or fused with other rings, is the most common hydrophobic pharmacophoric moiety in drug molecules. On the other hand, the alkoxy group (mainly methoxy) bonded to the benzene ring assumes an important and sometimes essential pharmacophoric status in some drug classes. Upon metabolic oxidation, both moieties, i.e., the benzene ring and the alkoxy group, produce hydroxy groups; the products are arenolic in nature. Through a pharmacokinetic effect, the hydroxy group enhances the water solubility and elimination of the metabolite with the consequent termination of drug action. However, through hydrogen bonding, the hydroxy group may modify the pharmacodynamics of the interaction of the metabolite with the site of parent drug action (i.e., the receptor). Accordingly, the expected pharmacologic outcome will be enhancement, retention, attenuation, or loss of activity of the metabolite relative to the parent drug. All the above issues are presented and discussed in this review using selected members of different classes of drugs with inferences regarding mechanisms, drug design, and drug development. © 2018 by the authors.
About the journal
JournalMolecules
PublisherMDPI
ISSN14203049
Open AccessNo
Concepts (7)
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    Aromatic hydroxy metabolites
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    Arenolic drug metabolites
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    Metabolic o-dealkylation
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    Metabolic aromatic-ring hydroxylation
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    Primary and auxiliary pharmacophores
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    Auxophores
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    Metabolic modification of drug activity