AI Article Synopsis
- Cannabinoid receptors interact with Gs and Gi proteins, affecting cAMP levels either by stimulating or inhibiting its formation.
- A study found that different cannabinoid receptor agonists have distinct potencies in either activating or inhibiting cAMP accumulation, with HU-210 being the most potent and anandamide the least in stimulating cAMP.
- Findings highlight unique activation patterns in cellular responses for each agonist, suggesting potential pathways for creating improved therapeutic drugs targeting these receptors.
Article Abstract
Cannabinoid receptors couple to both Gs and Gi proteins and can consequently stimulate or inhibit the formation of cAMP. To test whether there is specificity among cannabinoid receptor agonists in activating Gs- or Gi-coupled pathways, the potency and intrinsic activity of various cannabinoid receptor ligands in stimulating or inhibiting cAMP accumulation were quantified. The rank order of potencies of cannabinoid receptor agonists in increasing or inhibiting forskolin-stimulated cAMP accumulation, in CHO cells expressing hCB1 receptors, was identical (HU-210 > CP-55,940 > THC > WIN-55212-2 > anandamide). However, the activities of these agonists were different in the two assays with anandamide and CP-55,940 being markedly less efficacious in stimulating the accumulation of cAMP than in inhibiting its formation. Studies examining the effects of forskolin on cannabinoid receptor mediated stimulation of adenyly cyclase also revealed differences among agonists in as much as forskolin enhanced the potency of HU-210 and CP-55,940 by approximately 100-fold but, by contrast, had no effect on the potency of WIN-55212-2 or anandamide. Taken together these findings demonstrate marked differences among cannabinoid receptor agonists in their activation of intracellular transduction pathways. This provides support for the emerging concept of agonist-specific trafficking of cellular responses and further suggests strategies for developing receptor agonists with increased therapeutic utility.
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