Vector privileged chemical structures of therapeutic activities

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PHA1007 V2 Article

Vector privileged chemical structures of therapeutic activities

Author : Pascal COUDERT

Publication date: March 10, 2024 | Lire en français

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Overview

ABSTRACT

Very numerous classes of drugs arise from chemical families having a common structural pattern. According to the substitutions made on this basic skeleton, the synthesized molecule will have an affinity for such or such receptor or enzyme. The sequential analysis of these privileged structures (sulfonamides, azole derivatives, steroids, polycyclic systems, purine and pyrimidine bases…) allows to approach on this article most of the armamentarium at the disposal of the medical profession: antalgics, antibiotics, antihypertensive drugs, psychotropic drugs, antineoplastic agents, hormonal treatments….

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AUTHOR

  • Pascal COUDERT : Professor of Therapeutic Chemistry, Faculty of Pharmacy – UMR 990/INSERM – Clermont-Ferrand – France

 INTRODUCTION

Certain functional groups are biologically active and confer this activity with a highly significant frequency on the molecules to which they can be grafted. For example, alcohols and phenols have sedative and antiseptic effects respectively, while the bis-(2-chloroethylamine) motif, found in several anticancer agents such as chlorambucil, is responsible for their alkylating properties. Similarly, cyclic skeletons, such as the cyclopentanoperhydrophenantric linkage, are a common motif in steroids with hormonal, anti-inflammatory, diuretic and cardiostimulant activity.

Thus, specific structural elements, grouped together under the term pharmacophore, are recognized by a target, receptor or enzyme, and are responsible for biological activity. The substituents attached to these pharmacophores only act to modulate the activity and/or modify the pharmacokinetics of the active ingredients: increased duration of action, reduced toxicity, improved bioavailability, increased stability, etc.

Qualitative structure-activity relationships, originally established empirically on the basis of analysis of active ingredient formulas, have been consolidated and developed through molecular modeling studies, to become indispensable in the design of new medicines (drug design).

The aim of this article is firstly to teach how to recognize the main structural motifs responsible for pharmacological activity, based on active ingredients characteristic of the main drug families currently on the market. Secondly, the fundamental mechanisms of action of each therapeutic class are discussed in relation to the skeletons of the active substances.

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KEYWORDS

pharmacophores   |   structure activity relationships   |   classes of the drugs

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