评估两种多巴胺转运体抑制剂[(11)C]CIT 和靶控输注的受体占有率随时间的变化。

Assessment of receptor occupancy-over-time of two dopamine transporter inhibitors by [(11)C]CIT and target controlled infusion.

机构信息

Department of Radiology, Oncology and Radiation Sciences, Division of Radiology, Uppsala University, Uppsala, Sweden.

出版信息

Ups J Med Sci. 2011 May;116(2):100-6. doi: 10.3109/03009734.2011.563878. Epub 2011 Mar 28.

DOI:10.3109/03009734.2011.563878

PMID:21443419

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3078538/

Abstract

INTRODUCTION

Occupancy-over-time was determined for two dopamine transporter (DAT) inhibitors through modeling of their ability to displace the PET ligand [(11)C]CIT. The tracer was held at a pseudo steady state in a reference tissue by target controlled infusion.

METHODS

Rhesus monkeys (n = 5) were given [(11)C]CIT and studied with a PET scanner. Tracer uptake in the reference tissue cerebellum was held at a pseudo steady state by use of target controlled infusion. The pharmacokinetics/pharmacodynamics(PK/PD) of [(11)C]CIT was assessed through the simplified reference tissue model (SRTM). Bupropion (n = 2) and GBR-12909 (n = 2) receptor occupancies were estimated through modeling of their effects on [(11)C]CIT displacement.

RESULTS

There was a high uptake of [(11)C]CIT in striatum, which contains a high DAT density. The reference tissue cerebellum had a comparatively low uptake. The modeling of [(11)C]CIT PK/PD properties in striatum showed high binding potential (BP = 5.34 ± 0.78). Both DAT inhibitors caused immediate displacement of [(11)C]CIT after administration. The occupancy-over-time was modeled as a mono-exponential function, describing initial maximal occupancy (Occ(0)) and rate of ligand-receptor dissociation (k(off)). GBR-12909 showed irreversible binding (k(off) = 0) after an initial occupancy of 76.1%. Bupropion had a higher initial occupancy (84.5%) followed by a release half-life of 33 minutes (k(off) = 0.021).

CONCLUSIONS

The proposed model can be used for assessment of in-vivo occupancy-over-time of DAT ligands by use of target controlled infusion of [(11)C]CIT. The concept of assessing drug-receptor interactions by studying perturbations of a PET tracer from a pseudo steady state can be transferred to other CNS systems.

摘要

简介

通过建模两种多巴胺转运体（DAT）抑制剂的能力来确定其占据时间，以研究其对 PET 配体[11C]CIT 的置换作用。通过靶控输注将示踪剂在参考组织中保持在准稳定状态。

方法

对恒河猴（n=5）进行[11C]CIT 给药，并使用 PET 扫描仪进行研究。通过使用靶控输注，使参考组织小脑的示踪剂摄取达到准稳定状态。通过简化参考组织模型（SRTM）评估[11C]CIT 的药代动力学/药效学（PK/PD）。通过建模其对[11C]CIT 置换的影响来估算丁丙诺啡（n=2）和 GBR-12909（n=2）的受体占有率。

结果

纹状体摄取了大量的[11C]CIT，纹状体含有高密度的 DAT。参考组织小脑的摄取相对较低。纹状体中[11C]CIT PK/PD 特性的建模显示高结合潜能（BP=5.34±0.78）。两种 DAT 抑制剂在给药后均立即引起[11C]CIT 的置换。占有率随时间的变化被建模为单指数函数，描述初始最大占有率（Occ（0））和配体-受体解离率（k（off））。GBR-12909 在初始占有率为 76.1%后显示出不可逆结合（k（off）=0）。丁丙诺啡的初始占有率更高（84.5%），随后释放半衰期为 33 分钟（k（off）=0.021）。

结论

所提出的模型可用于通过靶控输注[11C]CIT 评估 DAT 配体的体内占有率随时间的变化。通过研究 PET 示踪剂从准稳定状态的波动来评估药物-受体相互作用的概念，可以转移到其他中枢神经系统系统。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5880/3078538/c0613b9b5a45/UPS-0300-9734-116-100_g001.jpg

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评估两种多巴胺转运体抑制剂[(11)C]CIT 和靶控输注的受体占有率随时间的变化。

Assessment of receptor occupancy-over-time of two dopamine transporter inhibitors by [(11)C]CIT and target controlled infusion.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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