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在大分子的全身 PBPK 模型中,FcRn 结合在血浆和内体中的机制性纳入。

Mechanistic incorporation of FcRn binding in plasma and endosomes in a whole body PBPK model for large molecules.

机构信息

Sanofi R&D, Ghent, Belgium.

esqLABS GmbH, Saterland, Germany.

出版信息

J Pharmacokinet Pharmacodyn. 2023 Jun;50(3):229-241. doi: 10.1007/s10928-023-09849-9. Epub 2023 Mar 6.

DOI:10.1007/s10928-023-09849-9
PMID:36877385
Abstract

Monoclonal antibodies, endogenous IgG, and serum albumin bind to FcRn in the endosome for salvaging and recycling after pinocytotic uptake, which prolongs their half-life. This mechanism has been broadly recognized and is incorporated in currently available PBPK models. Newer types of large molecules have been designed and developed, which also bind to FcRn in the plasma space for various mechanistic reasons. To incorporate FcRn binding affinity in PBPK models, binding in the plasma space and subsequent internalisation into the endosome needs to be explicitly represented. This study investigates the large molecules model in PK-Sim and its applicability to molecules with FcRn binding affinity in plasma. With this purpose, simulations of biologicals with and without plasma binding to FcRn were performed with the large molecule model in PK-Sim. Subsequently, this model was extended to ensure a more mechanistic description of the internalisation of FcRn and the FcRn-drug complexes. Finally, the newly developed model was used in simulations to explore the sensitivity for FcRn binding in the plasma space, and it was fitted to an in vivo dataset of wild-type IgG and FcRn inhibitor plasma concentrations in Tg32 mice. The extended model demonstrated a strongly increased sensitivity of the terminal half-life towards the plasma FcRn binding affinity and could successfully fit the in vivo dataset in Tg32 mice with meaningful parameter estimates.

摘要

单克隆抗体、内源性 IgG 和血清白蛋白在胞饮摄取后与内体中的 FcRn 结合,以进行回收和再循环,从而延长其半衰期。该机制已被广泛认可,并被纳入现有的 PBPK 模型中。为了各种机制原因,新型的大分子也被设计和开发出来,它们也与血浆空间中的 FcRn 结合。为了在 PBPK 模型中纳入 FcRn 结合亲和力,需要明确表示血浆空间中的结合及其随后内化到内体中。本研究调查了 PK-Sim 中的大分子模型及其在具有 FcRn 结合亲和力的分子中的适用性。为此,使用 PK-Sim 中的大分子模型对具有和不具有与 FcRn 结合的生物制剂进行了模拟。随后,扩展了该模型以确保更详细地描述 FcRn 和 FcRn-药物复合物的内化过程。最后,使用新开发的模型进行模拟以探索血浆空间中 FcRn 结合的敏感性,并将其拟合到 Tg32 小鼠野生型 IgG 和 FcRn 抑制剂血浆浓度的体内数据集。扩展模型显示出对血浆 FcRn 结合亲和力的终端半衰期的敏感性大大增加,并且可以使用有意义的参数估计值成功拟合 Tg32 小鼠的体内数据集。

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