The I1-imidazoline-binding site is a functional receptor mediating vasodepression via the ventral medulla

Abstract

I₁-imidazoline-binding sites fulfill all essential criteria for identification as receptors, including specificity of binding, association with physiological functions, appropriate anatomic and cellular and subcellular localization, and specific cell signaling pathways. Moreover, binding affinities correlate with functional drug responses. The evidence linking I₁ receptors to vasodepression includes expression in RVLM and consistent correlations between vasodepressor potency in humans and animals and I₁ binding affinity. Some I₁ agonists are antagonists at α₂-adrenergic receptors (α₂AR), and these elicit vasodepression in RVLM. Potent α₂-agonists with phenylethylamine or guanidine structures are inactive in RVLM, yet highly effective in nucleus of the solitary tract, a region with well-defined α₂-mediated vasodepressor responses. Selective I₁ agonists are used clinically to lower blood pressure with minimal α₂-mediated sedation. Moreover, when microinjected into the RVLM only antagonists active at I₁ receptors can block the vasodepressor action of either local or systemic imidazolines. RVLM α₂-blockade has no effect. Some reports appear to conflict with the I₁ receptor hypothesis; but these reports often make incorrect assumptions regarding drug specificity, overlook systemic effects of α₂-antagonists, or inappropriately analyze data. Blockade of γ-aminobutyric acid (GABA) receptors blocks the vasodepressor action of imidazolines, implying a multisynaptic pathway. Thus imidazolines act via I₁receptors in RVLM to lower blood pressure, although α₂AR are also important, especially in NTS.