Dopamine Receptors: From Structure to Function

Abstract

Missale, Cristina, S. Russel Nash, Susan W. Robinson, Mohamed Jaber, and Marc G. Caron. Dopamine Receptors: From Structure to Function. Physiol. Rev. 78: 189–225, 1998. — The diverse physiological actions of dopamine are mediated by at least five distinct G protein-coupled receptor subtypes. Two D₁-like receptor subtypes (D₁and D₅) couple to the G protein G_sand activate adenylyl cyclase. The other receptor subtypes belong to the D₂-like subfamily (D₂, D₃, and D₄) and are prototypic of G protein-coupled receptors that inhibit adenylyl cyclase and activate K⁺channels. The genes for the D₁and D₅receptors are intronless, but pseudogenes of the D₅exist. The D₂and D₃receptors vary in certain tissues and species as a result of alternative splicing, and the human D₄receptor gene exhibits extensive polymorphic variation. In the central nervous system, dopamine receptors are widely expressed because they are involved in the control of locomotion, cognition, emotion, and affect as well as neuroendocrine secretion. In the periphery, dopamine receptors are present more prominently in kidney, vasculature, and pituitary, where they affect mainly sodium homeostasis, vascular tone, and hormone secretion. Numerous genetic linkage analysis studies have failed so far to reveal unequivocal evidence for the involvement of one of these receptors in the etiology of various central nervous system disorders. However, targeted deletion of several of these dopamine receptor genes in mice should provide valuable information about their physiological functions.