Imaging apomorphine stimulation of brain arachidonic acid signaling via D2-like receptors in unanesthetized rats

Rationale and objective Because of the important role of dopamine in neurotransmission, it would be useful to be able to image brain dopamine receptor-mediated signal transduction in animals and humans. Administering the D₁–D₂ receptor agonist apomorphine may allow us to do this, as the D₂-like receptor is reported to be coupled to cytosolic phospholipase A₂ activation and arachidonic acid (AA) release from membrane phospholipid. Methods Unanesthetized adult rats were given intraperitoneally apomorphine (0.5 mg/kg) or saline, with or without pretreatment with 6 mg/kg intravenous raclopride, a D₂/D₃ receptor antagonist. [1–¹⁴C]AA was injected intravenously, then AA incorporation coefficients k*—brain radioactivity divided by integrated plasma radioactivity—markers of AA signaling, were measured using quantitative autoradiography in 62 brain regions. Results Apomorphine significantly elevated k* in 26 brain regions, including the frontal cortex, motor and somatosensory cortex, caudate-putamen, thalamic nuclei, and nucleus accumbens. Raclopride alone did not change baseline values of k*, but raclopride pretreatment prevented the apomorphine-induced increments in k*. Conclusions A mixed D₁–D₂ receptor agonist, apomorphine, increased the AA signal by activating only D₂-like receptors in brain circuits containing regions with high D₂-like receptor densities. Thus, apomorphine might be used with positron emission tomography to image brain D₂-like receptor-mediated AA signaling in humans in health and disease.