endothelin-1 and 4-(3-3-4-p-menthadien-(1-8)-yl)olivetol

Cannabinoids have been reported to mediate changes in vascular resistance through endothelial receptor targets. We examined involvement of the endothelium in cannabinoid-mediated vasoactive responses in resistance arterioles of the retina.. Vascular responses to both intraluminal (IL) and extraluminal (EL) administration of the atypical cannabinoid, abnormal cannabidiol (abn-CBD), a prototypical agonist at the non-CB1/CB2 endothelial cannabinoid receptor (CBeR), were studied in endothelial intact and endothelial denuded, isolated perfused porcine retinal arterioles with and without endothelin-1 (ET-1) precontraction. The effects of AM251, a CB1 receptor antagonist, and O-1918, an analog of CBD reported to antagonize CBeR, were also studied.. Dose-dependent vasocontractile responses were induced by both IL and EL administration of abn-CBD in the absence of precontraction. Significantly greater vasoconstriction was induced by IL administration of abn-CBD than with EL administration. In contrast, only vasodilation to abn-CBD was observed in ET-1 precontracted retinal arterioles. Endothelium removal significantly reduced abn-CBD-induced vasoactivity when abn-CBD was used IL but not when applied EL. IL abn-CBD-induced vasoactivity was antagonized by O-1918 and AM251.. Cannabinoids show complex vasoactive actions in isolated perfused retinal arterioles. The fact that abn-CBD-mediated vasorelaxation was seen only in precontracted retinal vessels indicates that the abn-CBD-induced vasoactive response is highly dependent on vascular tone. Furthermore, IL and EL administration produced differential responses, and removal of endothelium blunted abn-CBD vasoactivity, highlighting the critical role of endothelium in abn-CBD vasoactivity. AM251 and O-1918 inhibition of abn-CBD-induced vasoactivity suggests the possibility of modulating abn-CBD-induced vasoactivity.

Topics: Animals; Arterioles; Cannabidiol; Dose-Response Relationship, Drug; Endothelin-1; Endothelium, Vascular; Piperidines; Pyrazoles; Receptor, Cannabinoid, CB1; Receptor, Cannabinoid, CB2; Resorcinols; Retinal Vessels; Swine; Vasodilation

The endocannabinoid system plays a role in regulation of vasoactivity in the peripheral vasculature; however, little is known about its role in regulation of the CNS microvasculature. This study investigated the pharmacology of cannabinoids and cannabimimetic lipids in the retinal microvasculature, a CNS vascular bed that is autoregulated. Vessel diameter (edge detector) and calcium transients (fura-2) were recorded from segments of retinal microvasculature isolated from adult, male Fischer 344 rats. Results showed that abnormal cannabidiol (Abn-CBD), an agonist at the putative endothelial cannabinoid receptor, CBe, inhibited endothelin 1 (ET-1) induced vasoconstriction in retinal arterioles. These actions of Abn-CBD were independent of CB1/CB2 receptors and were not mediated by agonists for GPR55 or affected by nitric oxide synthase (NOS) inhibition. However, the vasorelaxant effects of Abn-CBD were abolished when the endothelium was removed and were inhibited by the small Ca(2+)-sensitive K channel (SKCa) blocker, apamin. The effects of the endogenous endocannabinoid metabolite, N-arachidonyl glycine (NAGly), a putative agonist for GPR18, were virtually identical to those of Abn-CBD. GPR18 mRNA and protein were present in the retina, and immunohistochemistry demonstrated that GPR18 was localized to the endothelium of retinal vessels. These findings demonstrate that Abn-CBD and NAGly inhibit ET-1 induced vasoconstriction in retinal arterioles by an endothelium-dependent signaling mechanism that involves SKCa channels. The endothelial localization of GPR18 suggests that GPR18 could contribute to cannabinoid and lipid-mediated retinal vasoactivity.

Topics: Animals; Arachidonic Acids; Cannabinoids; Endothelin-1; Frontal Lobe; Glycine; Lipids; Male; Microvessels; Rats, Inbred F344; Receptors, Cannabinoid; Receptors, G-Protein-Coupled; Resorcinols; Retina; Retinal Vessels; RNA, Messenger; Vasodilation