UNLABELLED: We have investigated the opioid receptor (OR) agonist (20R)-4,5-α-epoxy-6-(2-(18)F-fluoroethoxy)-3-hydroxy-α,17-dimethyl-α-(2-phenyleth-1-yl)-6,14-ethenomorphinan-7-methanol ((18)F-FE-PEO) as a candidate OR PET ligand. This tracer is attractive because it combines (18)F labeling, is suited to the slow kinetics of high-affinity ligands, and has agonist binding, which has been shown to be more sensitive to changes in OR occupation than is antagonist binding. METHODS: Agonist potency and off-target binding were investigated in vitro, and autoradiographic studies on rat brain sections were used to assess binding patterns. Quantification of the tracer in vivo was investigated using small-animal PET in rats with blood sampling. RESULTS: (18)F-FE-PEO was obtained by direct nucleophilic radiofluorination and subsequent deprotection with a yield of 28% ± 15%, a specific activity of 52-224 MBq/nmol, and a radiochemical purity of more than 97% (90 min from end of bombardment). In vitro studies showed it to be a full agonist ligand, which selectively binds to OR with high affinity, although it is not selective to a single OR subtype (inhibition constant, 0.4-1.6 nM across OR subtypes). Autoradiography binding patterns were consistent with the known distribution of OR, although nondisplaceable signal typically constituted one third of the signal in OR-dense regions. Although metabolites were present in blood (∼40% of plasma radioactivity was nonparent 3 h after injection), no significant metabolite fraction was found in brain tissue, aiding PET quantification. A plasma input 2-tissue-compartment model provided good fits to the PET data, and regional distribution volumes from the latter correlated well with those from Logan plot analysis (r(2) = 0.98). The cerebellum had the lowest distribution volume, but the time-activity curve data could not be adequately fitted with a 1-tissue-compartment model. Reference tissue models using the cerebellum as the reference region did not provide good fits to the data, so blood-based kinetic analysis is recommended. CONCLUSION: As the first (18)F-labeled OR agonist ligand, (18)F-FE-PEO is a useful addition to the existing OR ligand portfolio.
UNLABELLED: We have investigated the opioid receptor (OR) agonist (20R)-4,5-α-epoxy-6-(2-(18)F-fluoroethoxy)-3-hydroxy-α,17-dimethyl-α-(2-phenyleth-1-yl)-6,14-ethenomorphinan-7-methanol ((18)F-FE-PEO) as a candidate OR PET ligand. This tracer is attractive because it combines (18)F labeling, is suited to the slow kinetics of high-affinity ligands, and has agonist binding, which has been shown to be more sensitive to changes in OR occupation than is antagonist binding. METHODS: Agonist potency and off-target binding were investigated in vitro, and autoradiographic studies on rat brain sections were used to assess binding patterns. Quantification of the tracer in vivo was investigated using small-animal PET in rats with blood sampling. RESULTS: (18)F-FE-PEO was obtained by direct nucleophilic radiofluorination and subsequent deprotection with a yield of 28% ± 15%, a specific activity of 52-224 MBq/nmol, and a radiochemical purity of more than 97% (90 min from end of bombardment). In vitro studies showed it to be a full agonist ligand, which selectively binds to OR with high affinity, although it is not selective to a single OR subtype (inhibition constant, 0.4-1.6 nM across OR subtypes). Autoradiography binding patterns were consistent with the known distribution of OR, although nondisplaceable signal typically constituted one third of the signal in OR-dense regions. Although metabolites were present in blood (∼40% of plasma radioactivity was nonparent 3 h after injection), no significant metabolite fraction was found in brain tissue, aiding PET quantification. A plasma input 2-tissue-compartment model provided good fits to the PET data, and regional distribution volumes from the latter correlated well with those from Logan plot analysis (r(2) = 0.98). The cerebellum had the lowest distribution volume, but the time-activity curve data could not be adequately fitted with a 1-tissue-compartment model. Reference tissue models using the cerebellum as the reference region did not provide good fits to the data, so blood-based kinetic analysis is recommended. CONCLUSION: As the first (18)F-labeled OR agonist ligand, (18)F-FE-PEO is a useful addition to the existing OR ligand portfolio.
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