Er-Ning Su1, Melanie E Kelly2, Stephen J Cringle1, Dao-Yi Yu1. 1. Centre for Ophthalmology and Visual Science, University of Western Australia, Perth, Australia 2Lions Eye Institute, University of Western Australia, Perth, Australia. 2. Laboratory for Retina and Optic Nerve Research, Department of Pharmacology, Dalhousie University, Halifax, Nova Scotia, Canada.
Abstract
PURPOSE: 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. METHODS: 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. RESULTS: 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. CONCLUSIONS: 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.
PURPOSE: 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. METHODS: 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. RESULTS: 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. CONCLUSIONS: 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.
Authors: Regina M Krohn; Sean A Parsons; Jakub Fichna; Kamala D Patel; Robin M Yates; Keith A Sharkey; Martin A Storr Journal: J Inflamm (Lond) Date: 2016-07-14 Impact factor: 4.981
Authors: Nikolaus Hommer; Martin Kallab; Stephan Szegedi; Stefan Puchner; Kristina Stjepanek; Martin Bauer; René M Werkmeister; Leopold Schmetterer; Marihan Abensperg-Traun; Gerhard Garhöfer; Doreen Schmidl Journal: Clin Pharmacol Ther Date: 2020-02-23 Impact factor: 6.875