Specific binding of μ-and Γ-ligands by rat brain opiate receptors in the presence of reaferon

Fentanyl and its derivatives are considered among the most potent opiate analgesicleuphoriants. The pharmacological literature generally supports a p opiate receptor site of action for the fentanyl derivatives, but some observations suggest that other sites of action may be involved in producing the

Cultures of aggregating fetal rat brain cells express p, 6, and K opioid receptors. The potent and longlasting opioid antagonist naltrexone was used to investigate whether different regulatory mechanisms are involved in the expression of the three receptor subtypes. In cultures treated for seven day

Previous data obtained with the cloned rat µ opioid receptor demonstrated that the ''super-potent'' opiates, ohmefentanyl (RTI-4614-4) and its four enantiomers, differ in binding affinity, potency, efficacy, and intrinsic efficacy. Molecular modeling (Tang et al., 1996) of fentanyl derivatives bindi

There is increasing evidence that alterations of glutamatergic function are implicated in the pathogenesis of central nervous system consequences of acute liver failure. The aim of the study was to assess the integrity of glutamate receptors in the brain in experimental ischemic liver failure using