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Engineered E. coli OMVs Carrying the Membrane-Binding hGC33 Fragment Precisely Target Liver Cancer and Effectively Treat Tumor.

IF 6.6 2区医学 Q1 NANOSCIENCE & NANOTECHNOLOGY

International Journal of Nanomedicine Pub Date : 2025-05-22 eCollection Date: 2025-01-01 DOI:10.2147/IJN.S513508

Yufei Deng, Bangya Yang, Zelan Yang, Hanyu Xiao, Yan Zou, Cheng Zou, Song Yang, Xi Sun, Yiting Wang, Jin Bai, Liaoqiong Fang, Zhibiao Wang

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引用次数: 0

Abstract

Background: Glypican-3 (GPC3), which is a membrane-associated antigen that is overexpressed in hepatocellular carcinoma (HCC). hGC33, a humanized anti-GPC3 antibody, has been validated as a potential antibody drug with good antitumor activity by preclinical studies and the Phase II clinical trial. However, free drug usually lack good tumor penetration. Outer membrane vesicles (OMVs) that are secreted by Escherichia coli function as natural vectors for molecule delivery and mediators of biological signals across tissues. Our study aimed to engineer E. coli for use as a platform to precisely deliver the hGC33 single-chain variable fragment (hGC33-scFv) for the targeted treatment of HCC.

Methods: In this study, we utilized E. coli BL21(DE3) to express Hbp-hGC33-scFv fusion protein and generated E. coli hGC33-OMVs. After isolation and characterization, we assessed their chemotaxis toward HepG2 cells by Transwell, coimmunoprecipitation (co-IP) to confirm hGC33-GPC3 binding, and immunofluorescence (IF) to evaluate the localization of hGC33 on OMV membranes. The in vivo efficacy was assessed in BALB/c nude mice harboring HepG2 cell-derived xenografts, and tumor targeting was analyzed with Cy7-labeled OMVs and live imaging. Proliferation assays, cell cycle analysis, and Wnt pathway expression analysis were performed to elucidate the underlying mechanisms.

Results: hGC33-OMVs exhibited spherical bilayered nanostructures and displayed hGC33-scFv on their surface. hGC33-OMVs preferentially accumulated in tumors, significantly reducing tumor volume compared with controls and downregulating the proliferation markers Ki67 and PCNA. Transwell assays revealed increased tropism of hGC33-OMVs toward HepG2 cells, while Co-IP confirmed the direct interaction between hGC33 and GPC3. Meanwhile, hGC33-OMVs suppressed HepG2 cell proliferation, induced G1-phase arrest, and reduced Wnt3a, β-catenin, Cyclin D1, and C-myc expression.

Conclusion: Engineered E. coli hGC33-OMVs effectively target HCC via the hGC33-GPC3 interaction, inhibit tumor growth by suppressing Wnt signaling, and demonstrate potential for use as a versatile platform for antibody delivery.

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携带hGC33膜结合片段的工程大肠杆菌omv精确靶向肝癌并有效治疗肿瘤

背景：Glypican-3 （GPC3）是一种在肝细胞癌（HCC）中过表达的膜相关抗原。hGC33是一种人源抗gpc3抗体，经临床前研究和II期临床试验验证，是一种具有良好抗肿瘤活性的潜在抗体药物。然而，游离药物通常缺乏良好的肿瘤穿透性。大肠杆菌分泌的外膜囊泡（omv）是分子传递的天然载体和跨组织生物信号的介质。我们的研究旨在设计大肠杆菌作为精确递送hGC33单链可变片段（hGC33- scfv）的平台，用于靶向治疗HCC。方法：本研究利用大肠杆菌BL21（DE3）表达Hbp-hGC33-scFv融合蛋白，生成大肠杆菌hgc33 - omv。分离和鉴定后，我们通过Transwell、共免疫沉淀（co-IP）和免疫荧光（IF）评估它们对HepG2细胞的趋化性，以确定hGC33- gpc3的结合，并评估hGC33在OMV膜上的定位。在携带HepG2细胞来源的异种移植物的BALB/c裸鼠中评估其体内疗效，并使用cy7标记的omv和实时成像分析肿瘤靶向性。通过增殖试验、细胞周期分析和Wnt通路表达分析来阐明潜在的机制。结果：hgc33 - omv呈现球形双层纳米结构，表面显示hGC33-scFv。与对照组相比，hgc33 - omv优先在肿瘤中积累，显著降低肿瘤体积，下调增殖标志物Ki67和PCNA。Transwell实验显示hGC33- omv对HepG2细胞的趋向性增加，而Co-IP证实hGC33与GPC3之间存在直接相互作用。同时，hGC33-OMVs抑制HepG2细胞增殖，诱导g1期阻滞，降低Wnt3a、β-catenin、Cyclin D1和C-myc的表达。结论：工程大肠杆菌hgc33 - omv通过hGC33-GPC3相互作用有效靶向HCC，通过抑制Wnt信号抑制肿瘤生长，并显示出作为抗体传递的多功能平台的潜力。

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

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.

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