Abstract
Agonists at the µ-opioid receptor are known to produce potent analgesic responses in the clinical setting, therefore, an increased understanding of the molecular interactions of ligands at this receptor could lead to improved analgesics. As historically morphine has been shown to be a poor recruiter of β-arrestin in recombinant cell systems and this can be overcome by the co-expression of GRK2, we investigated the effects of GRK2 co-expression, in a recombinant µ-opioid receptor cell line, on ligand affinity and intrinsic activity in both β-arrestin recruitment and [35S]GTPγS binding assays. We also investigated the effect of receptor depletion in the β-arrestin assay. GRK2 co-expression increased both agonist Emax and potency in the β-arrestin assay. The increase in agonist potency could not be reversed using receptor depletion, supporting that the effects were due to a novel receptor conformation not system amplification. We also observed a small but significant effect on agonist KL values. Potency values in the [35S]GTPγS assay were unchanged; however, inverse agonist activity became evident with GRK2 co-expression. We conclude that this is direct evidence that the µ-opioid receptor is an allosteric protein and the co-expression of signalling molecules elicits changes in its conformation and thus ligand affinity. This has implications when describing how ligands interact with the receptor and how efficacy is determined.
Highlights
Morphine is a potent analgesic of great clinical utility
We used BacmanH transduction to express GRK2 in a DiscoveRx U2OS- m-opioid receptor b-arrestin stable cell line, and performed concentration effect curves using the DiscoveRx b-arrestin assay for a variety of agonists, which had previously been shown to give responses ranging from partial to full agonism in untransduced U2OS- m-opioid receptor b-arrestin cells
The decrease in the maximal luminescence observed with GFP was not as great as that observed with GRK2, which was approximately 40%
Summary
Morphine is a potent analgesic of great clinical utility. It exerts both its analgesic effects and its dose limiting adverse events through the m-opioid receptor, a G protein coupled receptor (GPCR). Like other GPCRs, the m-opioid receptor can couple to more than one signalling pathway and exhibits a phenomena known as biased agonism, where different agonists differ in their ability to activate different signalling pathways. Agonist efficacies were shown to differ in rank order at the b-adrenergic receptor when fused to different Ga subunits [2] and at the D2 receptor when co-expressed with different G proteins in Sf9 cells [3]
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