中枢神经系统内给药后脑内抗体药代动力学的研究,以及为描述数据而开发的 PBPK 模型。

IF 5 3区 医学 Q1 PHARMACOLOGY & PHARMACY AAPS Journal Pub Date : 2024-03-05 DOI:10.1208/s12248-024-00898-7
Shengjia Wu, Hsueh-Yuan Chang, Ekram Ahmed Chowdhury, Hsien Wei Huang, Dhaval K Shah
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引用次数: 0

摘要

尽管中枢神经系统(CNS)抗体直接给药有望增加脑暴露,但在了解中枢神经系统内不同注射途径后抗体的处置方面仍存在巨大差距。为了弥补这一知识空白,本研究定量研究了中枢神经系统内给药后抗体的脑药代动力学(PK)。该研究收集了纹状体(ST)微透析样本、通过蝶窦(CM)穿刺采集的脑脊液(CSF)样本、血浆和脑匀浆样本,以描述非靶向抗体曲妥珠单抗在脑室内(ICV)、蝶窦内(ICM)和椎管内(IST)给药后的药代动力学(PK)特征。为了进行全面分析,我们将这些中枢神经系统内注射数据集与之前在类似实验条件下获得的静脉注射数据进行了对比。我们的研究结果表明,通过 ICV 或 ICM 直接注射脑脊液会导致间质(ISF)药物暴露量比静脉注射高出约 5-6 倍。此外,IST 给药后观察到的低生物利用度表明,在脑部 ISF 中存在一个局部降解过程,与 ISF 的大量流动一起消除抗体。该研究根据新的观察结果进一步完善了基于生理学的药代动力学(PBPK)模型,增加了血管周围区、CSF振荡流动以及脑实质细胞对抗体的非特异性吸收和降解。更新后的模型能很好地描述全身和中枢神经系统内给药后的抗体 PK。因此,我们的研究提供了对抗体脑处置途径的定量洞察,为确定针对中枢神经系统疾病的抗体的最佳剂量和给药策略铺平了道路。
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Investigation of Antibody Pharmacokinetics in the Brain Following Intra-CNS Administration and Development of PBPK Model to Characterize the Data.

Despite the promising potential of direct central nervous system (CNS) antibody administration to enhance brain exposure, there remains a significant gap in understanding the disposition of antibodies following different intra-CNS injection routes. To bridge this knowledge gap, this study quantitatively investigated the brain pharmacokinetics (PK) of antibodies following intra-CNS administration. The microdialysis samples from the striatum (ST), cerebrospinal fluid (CSF) samples through cisterna magna (CM) puncture, plasma, and brain homogenate samples were collected to characterize the pharmacokinetics (PK) profiles of a non-targeting antibody, trastuzumab, following intracerebroventricular (ICV), intracisternal (ICM), and intrastriatal (IST) administration. For a comprehensive analysis, these intra-CNS injection datasets were juxtaposed against our previously acquired intravenous (IV) injection data obtained under analogous experimental conditions. Our findings highlighted that direct CSF injections, either through ICV or ICM, resulted in ~ 5-6-fold higher interstitial fluid (ISF) drug exposure than IV administration. Additionally, the low bioavailability observed following IST administration indicates the existence of a local degradation process for antibody elimination in the brain ISF along with the ISF bulk flow. The study further refined a physiologically based pharmacokinetic (PBPK) model based on new observations by adding the perivascular compartments, oscillated CSF flow, and the nonspecific uptake and degradation of antibodies by brain parenchymal cells. The updated model can well characterize the antibody PK following systemic and intra-CNS administration. Thus, our research offers quantitative insight into antibody brain disposition pathways and paves the way for determining optimal dosing and administration strategies for antibodies targeting CNS disorders.

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来源期刊
AAPS Journal
AAPS Journal 医学-药学
CiteScore
7.80
自引率
4.40%
发文量
109
审稿时长
1 months
期刊介绍: The AAPS Journal, an official journal of the American Association of Pharmaceutical Scientists (AAPS), publishes novel and significant findings in the various areas of pharmaceutical sciences impacting human and veterinary therapeutics, including: · Drug Design and Discovery · Pharmaceutical Biotechnology · Biopharmaceutics, Formulation, and Drug Delivery · Metabolism and Transport · Pharmacokinetics, Pharmacodynamics, and Pharmacometrics · Translational Research · Clinical Evaluations and Therapeutic Outcomes · Regulatory Science We invite submissions under the following article types: · Original Research Articles · Reviews and Mini-reviews · White Papers, Commentaries, and Editorials · Meeting Reports · Brief/Technical Reports and Rapid Communications · Regulatory Notes · Tutorials · Protocols in the Pharmaceutical Sciences In addition, The AAPS Journal publishes themes, organized by guest editors, which are focused on particular areas of current interest to our field.
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