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跨物种/跨模态基于生理学的生物药剂学:在人体中 89Zr 标记的白蛋白结合结构域抗体 GSK3128349。

Cross-species/cross-modality physiologically based pharmacokinetics for biologics: 89Zr-labelled albumin-binding domain antibody GSK3128349 in humans.

机构信息

IVIVT Modeling and Simulation, GlaxoSmithKline Plc , Stevenage, UK.

Cell Therapy RU, GlaxoSmithKline Plc , Stevenage, UK.

出版信息

MAbs. 2020 Jan-Dec;12(1):1832861. doi: 10.1080/19420862.2020.1832861.

DOI:10.1080/19420862.2020.1832861
PMID:33073698
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7577242/
Abstract

Two-pore physiologically-based pharmacokinetics (PBPK) for biologics describes the tissue distribution and elimination kinetics of soluble proteins as a function of their hydrodynamic radius and the physiological properties of the organs. Whilst many studies have been performed in rodents to parameterize the PBPK framework in terms of organ-specific lymph flow rates, similar validation in humans has been limited. This is mainly due to the paucity of the tissue distribution time course data for biologics that is not distorted by target-related binding. Here, we demonstrate that a PBPK model based on rodent data provided good to satisfactory extrapolation to the tissue distribution time course of Zr-labeled albumin-binding domain antibody (AlbudAb™) GSK3128349 in healthy human volunteers, including correct prediction of albumin-like plasma half-life, volume of distribution, and extravasation half-life. The AlbudAb™ used only binds albumin, and hence it also provides information about the tissue distribution kinetics and turnover of that ubiquitous and multifunctional plasma protein.

摘要

双孔生理药代动力学(PBPK)模型用于描述可溶性蛋白的组织分布和消除动力学,其参数是蛋白的流体力学半径和器官的生理特性。虽然已有许多在啮齿动物中进行的研究,以便根据器官特异性淋巴流量来对 PBPK 框架进行参数化,但在人类中进行类似的验证却受到限制。这主要是由于缺乏未受靶相关结合影响的生物制剂的组织分布时间过程数据。在这里,我们证明了基于啮齿动物数据的 PBPK 模型能够很好地(在某些情况下甚至是令人满意地)外推至健康人类志愿者中 Zr 标记的白蛋白结合结构域抗体(AlbudAb™)GSK3128349 的组织分布时间过程,包括对白蛋白样血浆半衰期、分布容积和外渗半衰期的正确预测。所使用的 AlbudAb™ 仅与白蛋白结合,因此它还提供了有关这种普遍存在且多功能的血浆蛋白的组织分布动力学和周转率的信息。

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