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对NKTR-214的受体药理学、药代动力学和药效学进行建模,NKTR-214是一种用于癌症免疫治疗的动力学控制的白细胞介素-2(IL2)受体激动剂。

Modeling the receptor pharmacology, pharmacokinetics, and pharmacodynamics of NKTR-214, a kinetically-controlled interleukin-2 (IL2) receptor agonist for cancer immunotherapy.

作者信息

Charych Deborah, Khalili Samira, Dixit Vidula, Kirk Peter, Chang Thomas, Langowski John, Rubas Werner, Doberstein Stephen K, Eldon Michael, Hoch Ute, Zalevsky Jonathan

机构信息

Nektar Therapeutics, San Francisco, California, United States of America.

出版信息

PLoS One. 2017 Jul 5;12(7):e0179431. doi: 10.1371/journal.pone.0179431. eCollection 2017.

DOI:10.1371/journal.pone.0179431
PMID:28678791
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5497954/
Abstract

Cytokines are potent immune modulating agents but are not ideal medicines in their natural form due to their short half-life and pleiotropic systemic effects. NKTR-214 is a clinical-stage biologic that comprises interleukin-2 (IL2) protein bound by multiple releasable polyethylene glycol (PEG) chains. In this highly PEG-bound form, the IL2 is inactive; therefore, NKTR-214 is a biologic prodrug. When administered in vivo, the PEG chains slowly release, creating a cascade of increasingly active IL2 protein conjugates bound by fewer PEG chains. The 1-PEG-IL2 and 2-PEG-IL2 species derived from NKTR-214 are the most active conjugated-IL2 species. Free-IL2 protein is undetectable in vivo as it is eliminated faster than formed. The PEG chains on NKTR-214 are located at the region of IL2 that contacts the alpha (α) subunit of the heterotrimeric IL2 receptor complex, IL2Rαβγ, reducing its ability to bind and activate the heterotrimer. The IL2Rαβγ complex is constitutively expressed on regulatory T cells (Tregs). Therefore, without the use of mutations, PEGylation reduces the affinity for IL2Rαβγ to a greater extent than for IL2Rβγ, the receptor complex predominant on CD8 T cells. NKTR-214 treatment in vivo favors activation of CD8 T cells over Tregs in the tumor microenvironment to provide anti-tumor efficacy in multiple syngeneic models. Mechanistic modeling based on in vitro and in vivo kinetic data provides insight into the mechanism of NKTR-214 pharmacology. The model reveals that conjugated-IL2 protein derived from NKTR-214 occupy IL-2Rβγ to a greater extent compared to free-IL2 protein. The model accurately describes the sustained in vivo signaling observed after a single dose of NKTR-214 and explains how the properties of NKTR-214 impart a unique kinetically-controlled immunological mechanism of action.

摘要

细胞因子是强效的免疫调节剂,但由于其半衰期短和多效性的全身效应,其天然形式并非理想的药物。NKTR-214是一种临床阶段的生物制剂,它由与多个可释放的聚乙二醇(PEG)链结合的白细胞介素-2(IL2)蛋白组成。在这种高度PEG结合的形式下,IL2是无活性的;因此,NKTR-214是一种生物前药。当在体内给药时,PEG链会缓慢释放,产生一系列由越来越少的PEG链结合的活性逐渐增加的IL2蛋白缀合物。源自NKTR-214的1-PEG-IL2和2-PEG-IL2物种是活性最高的缀合IL2物种。体内无法检测到游离的IL2蛋白,因为它的消除速度比形成速度快。NKTR-214上的PEG链位于IL2与异源三聚体IL2受体复合物IL2Rαβγ的α(α)亚基接触的区域,降低了其结合和激活异源三聚体的能力。IL2Rαβγ复合物在调节性T细胞(Tregs)上组成性表达。因此,在不使用突变的情况下,聚乙二醇化对IL2Rαβγ的亲和力降低程度大于对CD8 T细胞上占主导地位的受体复合物IL2Rβγ的亲和力。在肿瘤微环境中,体内NKTR-214治疗比Tregs更有利于激活CD8 T细胞,从而在多个同基因模型中提供抗肿瘤疗效。基于体外和体内动力学数据的机制建模为NKTR-214药理学机制提供了深入了解。该模型表明,与游离IL2蛋白相比,源自NKTR-214的缀合IL2蛋白在更大程度上占据IL-2Rβγ。该模型准确描述了单次给药NKTR-214后观察到的体内持续信号传导,并解释了NKTR-214的特性如何赋予独特的动力学控制免疫作用机制。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1d7f/5497954/eb745178f28c/pone.0179431.g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1d7f/5497954/cdff69c72218/pone.0179431.g010.jpg
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