6.11:

Adrenergic Antagonists: Chemistry and Classification of ɑ-Receptor Blockers

JoVE Core
Pharmacology
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JoVE Core Pharmacology
Adrenergic Antagonists: Chemistry and Classification of ɑ-Receptor Blockers

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01:17 min

September 22, 2023

Adrenergic antagonists, or sympatholytics, inhibit adrenoceptor activation driven by catecholamines or agonists. Based on their adrenoceptor specificity, adrenergic blockers can be categorized into two primary groups: α-adrenergic blockers (α-blockers) and β-adrenergic blockers (β-blockers). α-blockers interact with α1 and α2 subtypes of α-adrenoceptors.

Nonselective α-blockers: Nonselective α-blockers contain haloalkylamine or imidazoline moieties. Phenoxybenzamine, with a haloalkylamine structure, and phentolamine, featuring an imidazoline ring, are nonselective α-blockers.

Selective α1 blockers: Selective α1 blockers possess quinazoline and piperazine rings with an acyl group. Prazosin, a highly selective α1 blocker, exhibits optimal efficacy due to the presence of the 4-amino group and the specific characteristics of the acyl group. Various analogs with alternative heterocyclic rings can substitute the piperazine ring in selective α1 blockers while maintaining comparable pharmacological properties.

Selective α2 blockers: Selective α2 blockers, such as yohimbine, have an indole alkylamine structure. Yohimbine is found in the bark of Pausinystalia yohimbe and Rauwolfia roots. It selectively targets α2 receptors predominantly located on presynaptic nerve terminals, modulating norepinephrine release and amplifying sympathetic outflow.

Overall, α-adrenergic blockers encompass a diverse range of molecules that differ structurally from adrenergic agonists. Through α-adrenoceptor inhibition, they modulate the sympathetic nervous system.