Yan Zhang, Xinyu Shi, Yifan Shen, Xiulin Dong, Ruiqing He, Guo Chen, Yan Zhang, Honghong Tan, Kun Zhang
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引用次数: 0
Abstract
Oncolytic viruses (OVs) have emerged as a powerful tool in cancer therapy. Characterized with the unique abilities to selectively target and lyse tumor cells, OVs can expedite the induction of cell death, thereby facilitating effective tumor eradication. Nanoengineering-derived OVs overcome traditional OV therapy limitations by enhancing the stability of viral circulation, and tumor targeting, promising improved clinical safety and efficacy and so on. This review provides a comprehensive analysis of the multifaceted mechanisms through which engineered OVs can suppress tumor progression. It initiates with a concise delineation on the fundamental attributes of existing OVs, followed by the exploration of their mechanisms of the antitumor response. Amid rapid advancements in nanomedicine, this review presents an extensive overview of the latest developments in the synergy between nanomaterials, nanotechnologies, and OVs, highlighting the unique characteristics and properties of the nanomaterials employed and their potential to spur innovation in novel virus design. Additionally, it delves into the current challenges in this emerging field and proposes strategies to overcome these obstacles, aiming to spur innovation in the design and application of next-generation OVs.
肿瘤溶解病毒(OV)已成为癌症治疗的有力工具。肿瘤溶解病毒具有选择性靶向和裂解肿瘤细胞的独特能力,可加速诱导细胞死亡,从而促进有效根除肿瘤。纳米工程衍生 OV 克服了传统 OV 治疗的局限性,增强了病毒循环的稳定性和肿瘤靶向性,有望提高临床安全性和有效性。本综述全面分析了工程OV抑制肿瘤进展的多方面机制。文章首先简明扼要地描述了现有 OV 的基本属性,然后探讨了它们的抗肿瘤反应机制。在纳米医学突飞猛进的今天,这篇综述广泛概述了纳米材料、纳米技术和 OV 之间协同作用的最新进展,强调了所采用的纳米材料的独特特征和性能,以及它们在促进新型病毒设计创新方面的潜力。此外,报告还深入探讨了这一新兴领域当前面临的挑战,并提出了克服这些障碍的策略,旨在促进下一代 OV 的设计和应用创新。
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