Nonshrinkable Thermosensitive Hydrogels Combined with Bispecific Anti-PSMA/CD3 T-Cell Engager for Effective Against Tumors in Mice Model.

IF 6.6 2区医学 Q1 NANOSCIENCE & NANOTECHNOLOGY

International Journal of Nanomedicine Pub Date : 2025-03-12 eCollection Date: 2025-01-01 DOI:10.2147/IJN.S496746

Pu-Sheng Wei, Po-Yu Chou, Hao-Yi Hsu, Michael Chen, Yi-Jou Chen, Tung-Han Tsai, Bang-Yu Wen, Ming-Thau Sheu, Kuo-Hsiang Chuang, Hong-Liang Lin

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引用次数: 0

Abstract

Purpose: CD3-based Bispecific T-cell engagers (BiTEs) are effective for solid tumors due to their tumor specificity and tissue penetration, but they face challenges like short half-lives and narrow therapeutic windows. Innovative delivery systems, like thermosensitive hydrogels, show the potential to enhance stability, sustained release, and therapeutic efficacy.

Methods: We developed PEGylated PLGA (PEG-PLGA) thermosensitive hydrogels with a nonshrinkable property (nsTPPgels) for effective controlled release and loaded them with bispecific anti-prostate surface membrane antigen (PSMA) F_ab /anti-CD3 _scF_v T-cell engager (BiPTE) to form in situ drug deposits with a sustained-release profile after subcutaneous injection. Each group of hydrogels was first tested for differences in properties through rheological and in vitro drug release profiles. Meanwhile, in vivo pharmacokinetics, anti-tumor efficacy studies, and T-cell tracking studies were conducted to analyze the advantages of nsTPPgels included D₂gel and DTgels.

Results: The cytotoxicity of BiPTE against PSMA-overexpressing tumor cells and the drug release functionality of nsTPPgels were validated in vitro. Rheological studies showed that both D₂gel and DTgels remained in solution below 27 °C for easy injection and solidified at physiological temperatures to form localized depots for sustained BiPTE release. All nsTPPgels demonstrated a 5-day in vitro sustained release, prolonged elimination half-life, steady plasma BiPTE levels, and extended mean residence time. In an LNCaP-xenograft mouse model, tumor growth inhibition rates for BiPTE/DTgel-2, BiPTE/DTgel-2S, and BiPTE/D2gel were 74.3%, 96.1%, and 113.1%, respectively, compared to 35.6% for intravenous and 46% for subcutaneous BiPTE administration. Furthermore, all nsTPPgels effectively achieved T-cell recruitment to lymph nodes and tumor sites in tracking studies.

Conclusion: In conclusion, we developed relatively convenient injectable thermosensitive D₂gel with a desirable gelation temperature window, which have the potential to be used for antibody drug delivery in several biomedical applications.

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非收缩热敏水凝胶联合双特异性抗psma /CD3 t细胞接合剂有效抗肿瘤小鼠模型

目的：基于cd3的双特异性t细胞参与物（Bispecific T-cell engagers, bite）由于其肿瘤特异性和组织穿透性而对实体肿瘤有效，但它们面临半衰期短和治疗窗口窄等挑战。创新的给药系统，如热敏水凝胶，显示出增强稳定性、持续释放和治疗效果的潜力。方法：制备具有不收缩特性的聚乙二醇化PLGA （PEG-PLGA）热敏水凝胶（nstppgel），有效控释，并在其上负载双特异性抗前列腺表面膜抗原（PSMA） Fab /抗cd3 scFv t细胞参与剂（BiPTE），皮下注射后形成具有缓释特征的原位药物沉积。每组水凝胶首先通过流变学和体外药物释放谱测试其特性的差异。同时，通过体内药代动力学、抗肿瘤功效、t细胞跟踪等研究，分析了D2gel、DTgels等nstppgel的优势。结果：体外验证了BiPTE对过表达psma的肿瘤细胞的细胞毒性和nstppgel的药物释放功能。流变学研究表明，D2gel和DTgels在27°C以下的溶液中保持易于注射，并在生理温度下固化，形成局部仓库，持续释放BiPTE。所有nstppgel均表现出5天的体外缓释，较长的消除半衰期，稳定的血浆BiPTE水平和较长的平均停留时间。在lncap异种移植小鼠模型中，BiPTE/DTgel-2、BiPTE/DTgel-2S和BiPTE/D2gel的肿瘤生长抑制率分别为74.3%、96.1%和113.1%，而静脉注射和皮下注射BiPTE的肿瘤生长抑制率分别为35.6%和46%。此外，在跟踪研究中，所有nstppgel都有效地将t细胞募集到淋巴结和肿瘤部位。结论：本研究开发了一种相对方便的可注射热敏D2gel，具有理想的凝胶温度窗，具有在多种生物医学应用中用于抗体药物递送的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Nanomedicine NANOSCIENCE & NANOTECHNOLOGY-PHARMACOLOGY & PHARMACY

CiteScore

14.40

自引率

3.80%

发文量

511

审稿时长

1.4 months

期刊介绍： The International Journal of Nanomedicine is a globally recognized journal that focuses on the applications of nanotechnology in the biomedical field. It is a peer-reviewed and open-access publication that covers diverse aspects of this rapidly evolving research area. With its strong emphasis on the clinical potential of nanoparticles in disease diagnostics, prevention, and treatment, the journal aims to showcase cutting-edge research and development in the field. Starting from now, the International Journal of Nanomedicine will not accept meta-analyses for publication.