Brooks David J, Papapetropoulos Spyridon, Vandenhende Francois, Tomic Davorka, He Ping, Coppell Alex, O'Neill Gilmore
Division of Neuroscience and Mental Health, Faculty of Medicine, Imperial College London, London, UK.
Clin Neuropharmacol. 2010 Mar-Apr;33(2):55-60. doi: 10.1097/WNF.0b013e3181d137d2.
Adenosine A2A receptor antagonists are potential new treatments for Parkinson disease. We used positron emission tomography (PET) of the A2A receptor radiotracer, [C]SCH442416, to assess binding of the novel A2A antagonist, vipadenant (previously known as BIIB014), to human brain A2A receptors and to investigate the relationship among dose, steady-state plasma levels, and receptor occupancy.
We used PET to compare [C]SCH442416 uptake before and after blockade with daily oral vipadenant (2.5-100 mg/d for 10 or 11 days) in healthy volunteers (n = 15). We estimated receptor occupancy in brain regions of interest, particularly the putamen, by kinetic modeling of PET data. We estimated the dose, minimal plasma concentration at steady state (Cmin), and area under the plasma concentration curve (AUC0-tau) at the steady state required for saturation (> or =90% receptor occupancy) using Bayesian Emax and logistic regression models.
The estimated receptor occupancy of vipadenant in the brain regions of interest varied from 74% to 94% at the lowest daily dose (2.5 mg) and reached saturation in all regions at 100 mg. In the putamen, the estimated minimal daily dose, steady-state Cmin, and steady-state AUC0-tau required for receptor saturation were 10.2 mg (interquartile range, 28%), 0.097 microg/mL (27%), and 6 microg h/mL (21%), respectively.
This study provides the first evidence that vipadenant occupies A2A receptors in the human brain. Receptor occupancy was related to both dose and plasma levels of vipadenant. These results, coupled with previous efficacy results in animals, justify continued development of vipadenant as a potential treatment for Parkinson disease.
腺苷A2A受体拮抗剂是帕金森病潜在的新治疗方法。我们使用A2A受体放射性示踪剂[C]SCH442416的正电子发射断层扫描(PET)来评估新型A2A拮抗剂维帕他啶(先前称为BIIB014)与人脑A2A受体的结合,并研究剂量、稳态血浆水平和受体占有率之间的关系。
我们使用PET比较了健康志愿者(n = 15)每日口服维帕他啶(2.5 - 100 mg/d,持续10或11天)前后[C]SCH442416的摄取情况。我们通过PET数据的动力学建模估计感兴趣脑区,特别是壳核的受体占有率。我们使用贝叶斯Emax和逻辑回归模型估计饱和(≥90%受体占有率)所需的剂量、稳态最小血浆浓度(Cmin)和稳态血浆浓度曲线下面积(AUC0 - tau)。
在最低日剂量(2.5 mg)时,维帕他啶在感兴趣脑区的估计受体占有率从74%到94%不等,在100 mg时所有区域均达到饱和。在壳核中,受体饱和所需的估计最小日剂量、稳态Cmin和稳态AUC0 - tau分别为10.2 mg(四分位间距,28%)、0.097 μg/mL(27%)和6 μg·h/mL(21%)。
本研究提供了首个证据,证明维帕他啶可占据人脑A2A受体。受体占有率与维帕他啶的剂量和血浆水平均相关。这些结果,再加上先前在动物中的疗效结果,证明维帕他啶作为帕金森病潜在治疗方法的持续研发是合理的。
