Neurobiology Research Unit, Rigshospitalet and University of Copenhagen, Copenhagen, Denmark.
Nucl Med Biol. 2010 Oct;37(7):837-43. doi: 10.1016/j.nucmedbio.2010.04.193.
R-[(11)C]-SKF 82957 is a high-affinity and potent dopamine D(1) receptor agonist radioligand, which gives rise to a brain-penetrant lipophilic metabolite. In this study, we demonstrate that systemic administration of catechol-O-methyl transferase (COMT) inhibitors blocks this metabolic pathway, facilitating the use of R-[(11)C]-SKF 82957 to image the high-affinity state of the dopamine D(1) receptor with PET.
R-[(11)C]SKF 82957 was administered to untreated and COMT inhibitor-treated conscious rats, and the radioactive metabolites present in the brain and plasma were quantified by HPLC. Under optimal conditions, cerebral uptake and dopamine D(1) binding of R-[(11)C]SKF 82957 were measured ex vivo. In addition, pharmacological challenges with the receptor antagonist SCH 23390, amphetamine, the dopamine reuptake inhibitor RTI-32 and the dopamine hydroxylase inhibitor α-methyl-p-tyrosine were performed to study the specificity and sensitivity of R-[(11)C]-SKF 82957 dopamine D(1) binding in COMT-inhibited animals.
Treatment with the COMT inhibitor tolcapone was associated with a dose-dependent (EC(90) 5.3 ± 4.3 mg/kg) reduction in the lipophilic metabolite. Tolcapone treatment (20 mg/kg) also resulted in a significant increase in the striatum/cerebellum ratio of R-[(11)C]SKF 82957, from 15 (controls) to 24. Treatment with the dopamine D(1) antagonist SCH 23390 reduced the striatal binding to the levels of the cerebellum, demonstrating a high specificity and selectivity of R-[(11)C]SKF 82957 binding.
Pre-treatment with the COMT inhibitor tolcapone inhibits formation of an interfering metabolite of R-[(11)C]SKF 82957. Under such conditions, R-[(11)C]SKF 82957 demonstrates high potential as the first agonist radiotracer for imaging the dopamine D(1) receptor by PET.
R-[(11)C]-SKF 82957 是一种高亲和力和强效的多巴胺 D(1)受体激动剂放射性配体,可产生具有脑穿透性的亲脂性代谢物。在这项研究中,我们证明了系统给予儿茶酚-O-甲基转移酶 (COMT) 抑制剂可阻断这种代谢途径,从而促进使用 R-[(11)C]-SKF 82957 通过 PET 成像多巴胺 D(1)受体的高亲和力状态。
将未经处理和 COMT 抑制剂处理的清醒大鼠给予 R-[(11)C]SKF 82957,并通过 HPLC 定量测定脑和血浆中存在的放射性代谢物。在最佳条件下,测量 R-[(11)C]SKF 82957 的脑摄取和多巴胺 D(1)结合。此外,还进行了受体拮抗剂 SCH 23390、安非他命、多巴胺再摄取抑制剂 RTI-32 和多巴胺羟化酶抑制剂α-甲基-p-酪氨酸的药理学挑战,以研究 COMT 抑制动物中 R-[(11)C]-SKF 82957 多巴胺 D(1)结合的特异性和敏感性。
托卡朋治疗与脂溶性代谢物的剂量依赖性降低相关(EC(90)5.3±4.3mg/kg)。托卡朋治疗(20mg/kg)还导致 R-[(11)C]SKF 82957 的纹状体/小脑比率显著增加,从 15(对照)增加到 24。多巴胺 D(1)拮抗剂 SCH 23390 的处理将纹状体的结合降低至小脑水平,证明了 R-[(11)C]SKF 82957 结合的高特异性和选择性。
预先给予 COMT 抑制剂托卡朋可抑制 R-[(11)C]SKF 82957 形成干扰代谢物。在这种情况下,R-[(11)C]SKF 82957 具有成为通过 PET 成像多巴胺 D(1)受体的第一个激动剂放射性示踪剂的巨大潜力。
