利用多功能HBc病毒样颗粒在癌症治疗中安全有效地递送蜂毒素。

Nanomedicine (London, England) Pub Date : 2025-07-01 Epub Date: 2025-07-05 DOI:10.1080/17435889.2025.2528591

Chufan Wang, Fengrui Zhang, Haobo Tang, Zhengchan Su, Yufei Duan, Wei Feng, Xiaoning Lin, E Chen, Xiumin Wang, Lei Ren

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引用次数: 0

摘要

目的：通过开发一种基于病毒样颗粒（VLP）的多功能传递系统来克服蜂毒素（一种有效的抗癌宿主防御肽）的临床局限性，提高肿瘤靶向性、免疫激活性和治疗安全性。方法：以乙型肝炎核心病毒样颗粒（HBc VLPs）为基础，设计了一种包封蜂毒素的纳米平台。该设计采用RGD肽提高肿瘤特异性，Tuftsin促进吞噬作用，M2pep选择性靶向免疫抑制的M2巨噬细胞。一种mmp -2可切割的连接物使肿瘤特异性激活，允许RGD-melittin和免疫刺激肽的可控释放。在皮下黑色素瘤和肺转移小鼠模型中评估抗肿瘤疗效。结果：多功能HBc VLP平台有效保护蜂毒素免受酶降解，降低脱靶细胞毒性，提高肿瘤选择性。它在黑色素瘤和肺转移模型中均表现出显著的肿瘤抑制和免疫调节作用，优于游离蜂毒素治疗。结论：本研究提出了一种多功能的基于vlp的纳米平台，用于安全有效地递送蜂毒素，增强肿瘤靶向性和免疫激活。这些发现支持其作为一种新的癌症免疫治疗策略的临床转化潜力。

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Harnessing multifunctional HBc virus-like particles for safe and effective delivery of melittin in cancer therapy.

Aim: To overcome the clinical limitations of melittin, a potent anticancer host defense peptide, by developing a multifunctional, virus-like particle (VLP)-based delivery system that enhances tumor targeting, immune activation, and therapeutic safety.

Methods: A nanoplatform based on hepatitis B core virus-like particles (HBc VLPs) was engineered to encapsulate melittin. The design incorporated RGD peptides for improved tumor specificity, Tuftsin to promote phagocytosis, and M2pep to selectively target immunosuppressive M2 macrophages. An MMP-2-cleavable linker enabled tumor-specific activation, allowing controlled release of RGD-melittin and immune-stimulating peptides. Antitumor efficacy was evaluated in subcutaneous melanoma and lung metastasis mouse models.

Results: The multifunctional HBc VLP platform effectively protected melittin from enzymatic degradation, reduced off-target cytotoxicity, and improved tumor selectivity. It demonstrated significant tumor suppression and immune modulation in both melanoma and lung metastasis models, outperforming free melittin treatment.

Conclusion: This study presents a versatile, multifunctional VLP-based nanoplatform for the safe and effective delivery of melittin, offering enhanced tumor targeting and immune activation. The findings support its potential for clinical translation as a novel cancer immunotherapy strategy.

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Nanomedicine (London, England)

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