School of Medical Sciences, Institute of Medical Sciences, University of Aberdeen, Aberdeen, United Kingdom.
Mol Pharmacol. 2013 Feb;83(2):322-38. doi: 10.1124/mol.112.080879. Epub 2012 Nov 15.
We have previously identified allosteric modulators of the cannabinoid CB(1) receptor (Org 27569, PSNCBAM-1) that display a contradictory pharmacological profile: increasing the specific binding of the CB(1) receptor agonist [(3)H]CP55940 but producing a decrease in CB(1) receptor agonist efficacy. Here we investigated the effect one or both compounds in a broad range of signaling endpoints linked to CB(1) receptor activation. We assessed the effect of these compounds on CB(1) receptor agonist-induced [(35)S]GTPγS binding, inhibition, and stimulation of forskolin-stimulated cAMP production, phosphorylation of extracellular signal-regulated kinases (ERK), and β-arrestin recruitment. We also investigated the effect of these allosteric modulators on CB(1) agonist binding kinetics. Both compounds display ligand dependence, being significantly more potent as modulators of CP55940 signaling as compared with WIN55212 and having little effect on [(3)H]WIN55212 binding. Org 27569 displays biased antagonism whereby it inhibits: agonist-induced guanosine 5'-O-(3-[(35)S]thio)triphosphate ([(35)S]GTPγS) binding, simulation (Gα(s)-mediated), and inhibition (Gα(i)-mediated) of cAMP production and β-arrestin recruitment. In contrast, it acts as an enhancer of agonist-induced ERK phosphorylation. Alone, the compound can act also as an allosteric agonist, increasing cAMP production and ERK phosphorylation. We find that in both saturation and kinetic-binding experiments, the Org 27569 and PSNCBAM-1 appeared to influence only orthosteric ligand maximum occupancy rather than affinity. The data indicate that the allosteric modulators share a common mechanism whereby they increase available high-affinity CB(1) agonist binding sites. The receptor conformation stabilized by the allosterics appears to induce signaling and also selectively traffics orthosteric agonist signaling via the ERK phosphorylation pathway.
我们先前已经鉴定出大麻素 CB(1) 受体的别构调节剂(Org 27569,PSNCBAM-1),它们具有相反的药理学特征:增加大麻素 CB(1) 受体激动剂 [(3)H]CP55940 的特异性结合,但降低 CB(1) 受体激动剂的效力。在这里,我们研究了一种或两种化合物在与 CB(1) 受体激活相关的广泛信号终点中的作用。我们评估了这些化合物对 CB(1) 受体激动剂诱导的 [(35)S]GTPγS 结合、抑制和刺激 forskolin 刺激的 cAMP 产生、细胞外信号调节激酶 (ERK) 的磷酸化和β-arrestin 募集的影响。我们还研究了这些别构调节剂对 CB(1) 激动剂结合动力学的影响。两种化合物都显示出配体依赖性,作为 CP55940 信号的调节剂,其效力明显比 WIN55212 更强,并且对 [(3)H]WIN55212 结合几乎没有影响。Org 27569 表现出偏向性拮抗作用,即它抑制:激动剂诱导的鸟苷 5'-O-(3-[(35)S] 硫代三磷酸 ([(35)S]GTPγS) 结合、模拟 (Gα(s) 介导) 和抑制 (Gα(i) 介导) cAMP 产生和β-arrestin 募集。相比之下,它作为激动剂诱导的 ERK 磷酸化的增强剂。单独,该化合物也可以作为别构激动剂,增加 cAMP 产生和 ERK 磷酸化。我们发现,在饱和和动力学结合实验中,Org 27569 和 PSNCBAM-1 似乎都只影响 orthosteric 配体的最大占有率,而不影响亲和力。数据表明,别构调节剂具有共同的机制,通过该机制增加了可用的高亲和力 CB(1) 激动剂结合位点。由别构剂稳定的受体构象似乎诱导信号传导,并且还选择性地通过 ERK 磷酸化途径运输 orthosteric 激动剂信号。
