Reciprocal inhibition of voltage-gated potassium currents (IK(V)) by activation of cannabinoid CB1and dopamine D1receptors in ON bipolar cells of goldfish retina

Abstract

Cannabinoid CB₁receptor (viaG_s) and dopamine D₂receptor (viaG_i/o) antagonistically modulate goldfish cone membrane currents. As ON bipolar cells have CB₁and D₁receptors, but not D₂receptors, we focused on whether CB₁receptor agonist and dopamine interact to modulate voltage-dependent outward membrane K⁺currentsI_K(V)of the ON mixed rod/cone (Mb) bipolar cells. Whole-cell currents were recorded from Mb bipolar cells in goldfish retinal slices. Mb bipolar cells were identified by intracellular filling with Lucifer yellow. The bath solution was calcium-free and contained 1 mM cobalt to block indirect calcium-dependent effects. Dopamine (10 μM) consistently increasedI_K(V)by a factor of 1.57 ± 0.12 (S.E.M.,n= 15). A CB receptor agonist, WIN 55212-2 (0.25–1 μM), had no effect, but 4 μM WIN 55212-2 suppressedI_K(V)by 60%. IfI_K(V)was first increased by 10 μM dopamine, application of WIN 55212-2 (0.25–1 μM) reversibly blocked the effect of dopamine even though these concentrations of WIN 55212-2 had no effect of their own. If WIN 55212-2 was applied first and dopamine (10 μM) was added to the WIN-containing solution, 0.1 μM WIN 55212-2 blocked the effect of dopamine. All effects of WIN 55212-2 were blocked by coapplication of SR 141716A (CB₁antagonist) and pretreatment with pertussis toxin (blocker of G_i/o) indicating actionviaCB₁receptor activation of G protein G_i/o. Coactivation of CB₁and D₁receptors on Mb bipolar cells produces reciprocal effects onI_K(V). The CB₁-evoked suppression ofI_K(V)is mediated by G protein G_i/o, whereas the D₁-evoked enhancement is mediated by G protein G_s. As dopamine is a retinal “light” signal, these data support our notion that endocannabinoids function as a “dark” signal, interacting with dopamine to set retinal sensitivity.