enhanced sensitivity to endogenous dopamine. A limitation of available agonist radioligands is that they incorporate the short-lived radioisotope (11)C. In the current study, we developed the (18)F-labeled D2/D3 receptor agonist (R)-(-)-2-(18)F-fluoroethoxy-N-n-propylnorapomorphine ((18)F-MCL-524). In total, 10 PET measurements were conducted on 5 cynomolgus monkeys. Initially, the binding of (18)F-MCL
-propylnorapomorphine ([C]MNPA), while total density of D and D (DRs) can be measured with [C]raclopride using positron emission tomography (PET). Thus, the ratio of the binding potential (BP) of [C]MNPA to that of [C]raclopride ([C]MNPA/[C]raclopride) may reflect the proportion of the density of D to that of DRs. In the caudate and putamen, [C]MNPA/[C]raclopride reflects the proportion of the density of D
Dopamine agonist treatment of schizophrenia with N-propylnorapomorphine. We administered N-propylnorapomorphine, a potent aporphine-family dopamine (DA) agonist, to schizophrenic patients with active psychotic symptoms. After acute administration a significant antipsychotic action of N-propylnorapomorphine, maximal at an oral dose of 19 mg, was noted. The antipsychotic action predominated in subjects with neuroleptic-responsive symptoms, not in neuroleptic-nonresponders. However, when N-propylnorapomorphine was administered on a subchronic dosage schedule, no antipsychotic effect occurred. These observations suggest a rapid-onset tolerance phenomenon of psychosis to N-propylnorapomorphine and are consistent with results from preclinical experiments. These data support the idea that the acute
enhanced the binding of [3H] N-propylnorapomorphine to dopamine receptors indicating that a type VI beta-turn is a possible bioactive conformation of the homochiral Pro-Leu-Pro-NH2 and Pro-Pro-Pro-NH 2 analogues of Pro-Leu-Gly-NH2 at the dopamine receptor allosteric regulatory site.