The endocannabinoid system has a well-documented pivotal role in the control of mammalian feeding response; nevertheless, some evidence is available regarding a similar role in nonmammalian vertebrates and invertebrates. As in the bonyfish Carassius auratus, CB1 cannabinoid receptors are abundant in brain regions involved in the control of food intake, and fasting affects endocannabinoid levels, in this study the effects of food deprivation and anandamide administration on CB1 expression were evaluated. Fasting led to a time-dependent increase of CB1 mRNA levels in the forebrain, an effect reversed by refeeding. Furthermore, the administration of exogenous anandamide reduced CB1 expression in food-deprived goldfish. Our results support the involvement of CB1 receptors in the control of energy intake in nonmammalian vertebrates.

Following the discovery of two CB1 genes in the fish Fugu rubripes, investigations on the phylogeny of endocannabinoids have indicated that this system is highly conserved. Our study demonstrated that CB1 receptors are expressed in the CNS and gonads of two teleosts, Carassius auratus and Pelvicachromis pulcher, and they show a high percentage of sequence identity with Fugu rubripes CB(1A) and Danio rerio CB1. By means of immunohistochemistry for CB1, sGnRH, and TH, we found a codistribution of these signaling molecules in the basal telencephalon/preoptic area, which are key centers for gonadotropic regulation. We therefore suggest that endocannabinoids are possibly involved in modulating fish reproduction at both the central and peripheral levels.

Following the discovery of two CB1 genes in the fish Fugu rubripes, investigations on the phylogeny of endocannabinoids have indicated that this system is highly conserved. Our study demonstrated that CB1 receptors are expressed in the CNS and gonads of two teleosts, Carassius auratus and Pelvicachromis pulcher, and they show a high percentage of sequence identity with Fugu rubripes CB(1A) and Danio rerio CB1. By means of immunohistochemistry for CB1, sGnRH, and TH, we found a codistribution of these signaling molecules in the basal telencephalon/preoptic area, which are key centers for gonadotropic regulation. We therefore suggest that endocannabinoids are possibly involved in modulating fish reproduction at both the central and peripheral levels.

The endocannabinoid system has a well-documented pivotal role in the control of mammalian feeding response; nevertheless, some evidence is available regarding a similar role in nonmammalian vertebrates and invertebrates. As in the bonyfish Carassius auratus, CB1 cannabinoid receptors are abundant in brain regions involved in the control of food intake, and fasting affects endocannabinoid levels, in this study the effects of food deprivation and anandamide administration on CB1 expression were evaluated. Fasting led to a time-dependent increase of CB1 mRNA levels in the forebrain, an effect reversed by refeeding. Furthermore, the administration of exogenous anandamide reduced CB1 expression in food-deprived goldfish. Our results support the involvement of CB1 receptors in the control of energy intake in nonmammalian vertebrates.