Dose Optimization of rhIL-7-hyFc for Patients With Lymphopenia Using a Neonatal Fc Receptor-Mediated Recycling-Based and Target-Mediated Drug Disposition Pharmacokinetic Model

IF 2.8 3区医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL

Cts-Clinical and Translational Science Pub Date : 2025-05-21 DOI:10.1111/cts.70252

Hye Seon Jeon, Sang Won Lee, Woojin Jung, Heeyoon Jung, Donghoon Choi, Mi-Sun Byun, Hwi-yeol Yun, Soyoung Lee, Anhye Kim, Jung-woo Chae, Howard Lee

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Abstract

Recombinant human interleukin-7 hybrid Fc (rhIL-7-hyFc) is a homodimer of rhIL-7 fused to a hyFc. Exogenous IL-7 promotes T cell proliferation and increases lymphocyte count, making it a potential treatment option for lymphopenia and cancer. To improve therapeutic efficacy, rhIL-7-hyFc was developed as a long-acting IL-7. This study aimed to create a pharmacokinetic model for rhIL-7-hyFc by incorporating neonatal Fc receptor (FcRn)-mediated recycling and target-mediated drug disposition (TMDD) of the IL-7 receptor. Data were collected from a randomized, double-blind, placebo-controlled phase 1 trial involving 30 healthy volunteers who received single doses of rhIL-7-hyFc. Volunteers received 20 or 60 mg/kg subcutaneously, 60 mg/kg intramuscularly (IM), or a placebo. Clinical data were provided by Genexine Inc. (Seoul, Republic of Korea). A TMDD-FcRn–mediated recycling pharmacokinetic model was developed using NONMEM 7.5 software, assisted by PsN 5.3.1 software. A quasi-steady-state approximation was used to describe drug-receptor and drug-FcRn interactions. The model evaluation included goodness of fit, visual predictive checks, and bootstrap analysis. Based on the pharmacokinetic parameters of the final model, a simulation was conducted to select the dosage regimen, ensuring a probability of at least 0.8 for meeting both safety and efficacy criteria. The model successfully described the pharmacokinetic profiles of 24 patients administered rhIL-7-hyFc. Based on the simulation results, 670–800 μg/kg every 3 weeks, 1010–1530 μg/kg every 6 weeks, and 1510–2190 μg/kg every 9 weeks IM were proposed. These results may help further understand rhIL-7-hyFc characteristics and, moreover, provide guidance for selecting the appropriate dosing regimen in future clinical trials.

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利用新生儿Fc受体介导的基于循环和靶标介导的药物处置药代动力学模型优化rhIL-7-hyFc对淋巴细胞减少症患者的剂量

重组人白细胞介素-7杂种Fc （rhIL-7-hyFc）是由rhIL-7与hyFc融合而成的同二聚体。外源性IL-7促进T细胞增殖，增加淋巴细胞计数，使其成为淋巴细胞减少和癌症的潜在治疗选择。为了提高疗效，rhIL-7-hyFc被开发为长效IL-7。本研究旨在结合新生儿Fc受体（FcRn）介导的循环和IL-7受体靶向介导的药物处置（TMDD），建立rhIL-7-hyFc的药代动力学模型。数据来自一项随机、双盲、安慰剂对照的1期试验，涉及30名健康志愿者，他们接受了单剂量的rhIL-7-hyFc。志愿者接受20或60毫克/公斤皮下注射，60毫克/公斤肌肉注射（IM）或安慰剂。临床数据由Genexine Inc. （Seoul, Republic of Korea）提供。采用NONMEM 7.5软件，PsN 5.3.1软件辅助，建立tmdd - fcrn介导的再循环药代动力学模型。准稳态近似用于描述药物-受体和药物- fcrn相互作用。模型评估包括拟合优度、视觉预测检查和自举分析。根据最终模型的药代动力学参数进行模拟，选择给药方案，确保同时满足安全性和有效性标准的概率至少为0.8。该模型成功地描述了24例给予rhIL-7-hyFc的患者的药代动力学特征。根据模拟结果，提出每3周670 ~ 800 μg/kg、每6周1010 ~ 1530 μg/kg、每9周1510 ~ 2190 μg/kg的IM。这些结果可能有助于进一步了解rhIL-7-hyFc的特性，并为今后临床试验中选择合适的给药方案提供指导。

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来源期刊

Cts-Clinical and Translational Science 医学-医学：研究与实验

CiteScore

6.70

自引率

2.60%

发文量

234

审稿时长

6-12 weeks

期刊介绍： Clinical and Translational Science (CTS), an official journal of the American Society for Clinical Pharmacology and Therapeutics, highlights original translational medicine research that helps bridge laboratory discoveries with the diagnosis and treatment of human disease. Translational medicine is a multi-faceted discipline with a focus on translational therapeutics. In a broad sense, translational medicine bridges across the discovery, development, regulation, and utilization spectrum. Research may appear as Full Articles, Brief Reports, Commentaries, Phase Forwards (clinical trials), Reviews, or Tutorials. CTS also includes invited didactic content that covers the connections between clinical pharmacology and translational medicine. Best-in-class methodologies and best practices are also welcomed as Tutorials. These additional features provide context for research articles and facilitate understanding for a wide array of individuals interested in clinical and translational science. CTS welcomes high quality, scientifically sound, original manuscripts focused on clinical pharmacology and translational science, including animal, in vitro, in silico, and clinical studies supporting the breadth of drug discovery, development, regulation and clinical use of both traditional drugs and innovative modalities.