New Dopamine D2 Receptor Agonist, [3H]MCL-536, for Detecting Dopamine D2high Receptors in Vivo

Increases in the D2 receptor high affinity state are associated with certain neurological disorders. We synthesized and characterized the high-affinity D2high ligand [H-3]MCL-536 in competition binding against the D2/3 agonist (R-(-)-N-n-propylnorapomorphine (NPA) and the D2/3 antagonist raclopride. The total binding of [H-3]MCL-536 (minus that in presence of 100nM NPA) was measured by saturation binding in CHO cells expressing human D2long; the data yielded separable, non-saturable non-specific, and saturable specific, components. The former represents an aporphine site common to NPA and [H-3]MCL-536. The latter indicated specific binding to the total D2 receptors (both high and low-affinity states). [H-3]MCL-536 had a K-d of 0.8nM. In competition binding, NPA had a K-1 of 0.16nM, and a K-1 of 0.9nM for raclopride. Co-incubation with guanylylimidodiphosphate abolished binding to D2high. This unique profile makes radiolabeled MCL-536 a versatile tool for diagnostics and therapeutics, and may quantify D2high sites in schizophrenia and PD patients in vivo.