Laura J. Sim scite author profile

Agonists stimulate guanylyl 5'-[y-[35S] (23,24). More recently, this technique has been used in isolated membranes to measure the activation of G proteins by specific receptors (25,26). These results demonstrated that significant agonist stimulation of GTP [.y-35S] binding occurred in membranes only in the presence of relatively large concentrations (3-10 ,uM) of GDP. Such concentrations of GDP were necessary to inactivate G proteins, so that stimulation of GTP[_y-35S] binding over basal levels could be observed when agonists were added to membrane preparations. We now report the development of an in vitro anatomical technique by which receptor-activated G proteins can be identified autoradiographically by using GTP[y-35S] binding to tissue sections. The present study compares the autoradiographic distribution of GTP[y35S] binding after stimulation by agonists for three different receptors, which numerous studies have identified as typical members of the G-protein-coupled receptor superfamily: ,u opioid (27), cannabinoid (28), and type B y-aminobutyric acid receptor (GABAB) (29).

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Effects of Chronic Treatment with Δ⁹-Tetrahydrocannabinol on Cannabinoid-Stimulated [³⁵S]GTPγS Autoradiography in Rat Brain

Sim

et al. 1996

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Chronic Delta9-tetrahydrocannabinol (Delta9-THC) administration produces tolerance to cannabinoid effects, but alterations in signal transduction that mediate these changes are not yet known. The present study uses in vitro autoradiography of agonist-stimulated [35S]GTPgammaS binding to localize cannabinoid receptor-activated G-proteins after chronic Delta9-THC treatment. Cannabinoid (WIN 55212-2)-stimulated [35S]GTPgammaS binding was performed in brain sections from rats treated chronically with 10 mg/kg Delta9-THC for 21 d. Control animals received saline or an acute injection of Delta9-THC. Acute Delta9-THC treatment had no effect on basal or WIN 55212-2-stimulated [35S]GTPgammaS binding. After chronic Delta9-THC treatment, net WIN 55212-2-stimulated [35S]GTPgammaS binding was reduced significantly (up to 70%) in most brain regions, including the hippocampus, caudate-putamen, perirhinal and entorhinal cortex, globus pallidus, substantia nigra, and cerebellum. In contrast, chronic Delta9-THC treatment had no effect on GABAB-stimulated [35S]GTPgammaS binding. In membranes and brain sections, Delta9-THC was a partial agonist, stimulating [35S]GTPgammaS by only 20% of the level stimulated by WIN 55212-2 and inhibiting WIN 55212-2-stimulated [35S]GTPgammaS at high concentrations. Because the EC50 of WIN 55212-2-stimulated [35S]GTPgammaS binding and the KD of cannabinoid receptor binding were unchanged by chronic Delta9-THC treatment, the partial agonist actions of Delta9-THC did not produce the decrease in cannabinoid-stimulated [35S]GTPgammaS binding. These results suggest that profound desensitization of cannabinoid-activated signal transduction mechanisms occurs after chronic Delta9-THC treatment.

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μ-Opioid Receptor-Stimulated Guanosine-5′-O-(γ-thio)-triphosphate Binding in Rat Thalamus and Cultured Cell Lines: Signal Transduction Mechanisms Underlying Agonist Efficacy

et al. 1997

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G protein activation by different mu-selective opioid agonists was examined in rat thalamus, SK-N-SH cells, and mu-opioid receptor-transfected mMOR-CHO cells using agonist-stimulated guanosine-5'-O-(gamma-thio)-triphosphate ([35S]GTP gamma S) binding to membranes in the presence of excess GDP. [D-Ala2, N-MePhe4, Gly5-ol]Enkephalin (DAMGO) was the most efficacious agonist in rat thalamus and SK-N-SH cells, followed by (in rank order) fentanyl = morphine > > buprenorphine. In mMOR-CHO cells expressing a high density of mu receptors, no differences were observed among DAMGO, morphine or fentanyl, but these agonists were more efficacious than buprenorphine, which was more efficacious than levallorphan. In all three systems, efficacy differences were magnified by increasing GDP concentrations, indicating that the activity state of G proteins can affect agonist efficacy. Scatchard analysis of net agon stimulated [35S]GTP gamma S binding revealed two major components responsible for agonist efficacy differences. First, differences in the KD values of agonist-stimulated [35S]GTP gamma S binding between high efficacy agonists (DAMGO, fentanyl, and morphine) and classic partial agonists (buprenorphine and levallorphan) were observed in all three systems. Second, differences in the Bmax value of agonist-stimulated [35S]GTP gamma S binding were observed between DAMGO and morphine or fentanyl in rat thalamus and SK-N-SH cells and between the high efficacy agonists and buprenorphine or levallorphan in all three systems. These results suggest that mu-opioid agonist efficacy is determined by the magnitude of the receptor-mediated affinity shift in the binding of GTP (or[35S]GTP gamma S) versus GDP to the G protein and by the number of G proteins activated per occupied receptor.

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Laura J. Sim

In vitro autoradiography of receptor-activated G proteins in rat brain by agonist-stimulated guanylyl 5'-[gamma-[35S]thio]-triphosphate binding.

Effects of Chronic Treatment with Δ⁹-Tetrahydrocannabinol on Cannabinoid-Stimulated [³⁵S]GTPγS Autoradiography in Rat Brain

μ-Opioid Receptor-Stimulated Guanosine-5′-O-(γ-thio)-triphosphate Binding in Rat Thalamus and Cultured Cell Lines: Signal Transduction Mechanisms Underlying Agonist Efficacy

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Laura J. Sim

In vitro autoradiography of receptor-activated G proteins in rat brain by agonist-stimulated guanylyl 5'-[gamma-[35S]thio]-triphosphate binding.

Effects of Chronic Treatment with Δ9-Tetrahydrocannabinol on Cannabinoid-Stimulated [35S]GTPγS Autoradiography in Rat Brain

μ-Opioid Receptor-Stimulated Guanosine-5′-O-(γ-thio)-triphosphate Binding in Rat Thalamus and Cultured Cell Lines: Signal Transduction Mechanisms Underlying Agonist Efficacy

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Effects of Chronic Treatment with Δ⁹-Tetrahydrocannabinol on Cannabinoid-Stimulated [³⁵S]GTPγS Autoradiography in Rat Brain