Nitric oxide modulates μ‐opioid receptor function in vitro

Painful diabetic neuropathy (PDN) is a type of peripheral neuropathic pain that develops as a consequence of prolonged hyperglycaemia-induced injury to the long nerves. Apart from pain, PDN is also characterized by morphine hyposensitivity. Intriguingly, in streptozotocin (STZ)-induced diabetic rats exhibiting marked morphine hyposensitivity, dietary administration of the nitric oxide (NO) precursor, L-arginine at 1 g/d, progressively rescued morphine efficacy and potency over an 8-week treatment period. In earlier work, single bolus doses of the furoxan nitric oxide (NO) donor, PRG150 (3-methylfuroxan-4-carbaldehyde), evoked dose-dependent pain relief in STZ-diabetic rats but the efficacious doses were 3-4 orders of magnitude higher in advanced diabetes than that required in early STZ diabetes. Together, these findings suggested a role for NO in the modulation of μ-opioid (MOP) receptor signalling. Therefore, the present study was designed to assess a role for NO released from PRG150, in modulating MOP receptor function in vitro. Here, we show an absolute requirement for the MOP receptor, but not the δ-opioid (DOP) or the κ-opioid (KOP) receptor, to transduce the cellular effects of PRG150 on forskolin-stimulated cAMP responses in vitro. PRG150 did not interact with the classical naloxone-sensitive binding site of the MOP receptor, and its effects on cAMP responses in HEK-MOP cells were also naloxone-insensitive. Nevertheless, the inhibitory effects of PRG150 on forskolin-stimulated cAMP responses in HEK-MOP cells were dependent upon pertussis toxin (PTX)-sensitive G proteins as well as membrane lipid rafts and src kinase. Together, our findings implicate a role for NO in modulating MOP receptor function in vivo.