Nanomedicines modulate the tumor immune microenvironment for cancer therapy.

Po-Han Chao, Vanessa Chan, Shyh-Dar Li
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Abstract

Introduction: In recent years, the evolution of immunotherapy as a means to trigger a robust antitumor immune response has revolutionized cancer treatment. Despite its potential, the effectiveness of cancer immunotherapy is hindered by low response rates and significant systemic side effects. Nanotechnology emerges as a promising frontier in shaping the future of cancer immunotherapy.

Areas covered: This review elucidates the pivotal role of nanomedicine in reshaping the immune tumor microenvironment and explores innovative strategies pursued by diverse research groups to enhance the therapeutic efficacy of cancer immunotherapy. It discusses the hurdles encountered in cancer immunotherapy and the application of nanomedicine for small molecule immune modulators and nucleic acid therapeutics. It also highlights the advancements in DNA and mRNA vaccines facilitated by nanotechnology and outlines future trajectories in this evolving field.

Expert opinion: Collectively, the integration of nanomedicine into cancer immunotherapy stands as a promising avenue to tackle the intricacies of the immune tumor microenvironment. Innovations such as immune checkpoint inhibitors and cancer vaccines have shown promise. Future developments will likely optimize nanoparticle design through artificial intelligence and create biocompatible, multifunctional nanoparticles, promising more effective, personalized, and durable cancer treatments, potentially transforming the field in the foreseeable future.

纳米药物调节肿瘤免疫微环境以治疗癌症。
前言近年来,免疫疗法作为引发强大抗肿瘤免疫反应的一种手段,其发展给癌症治疗带来了革命性的变化。尽管癌症免疫疗法潜力巨大,但其有效性却因反应率低和严重的全身副作用而受到阻碍。纳米技术是塑造未来癌症免疫疗法的一个前景广阔的前沿领域:本综述阐明了纳米医学在重塑免疫肿瘤微环境中的关键作用,并探讨了不同研究小组为提高癌症免疫疗法的疗效而采取的创新策略。报告讨论了癌症免疫疗法中遇到的障碍以及纳米医学在小分子免疫调节剂和核酸疗法中的应用。报告还强调了纳米技术在 DNA 和 mRNA 疫苗方面取得的进展,并概述了这一不断发展的领域的未来轨迹:总的来说,将纳米医学融入癌症免疫疗法是解决错综复杂的肿瘤免疫微环境的一条大有可为的途径。免疫检查点抑制剂和癌症疫苗等创新技术已显示出良好的前景。未来的发展可能会通过人工智能优化纳米粒子的设计,并创造出生物兼容的多功能纳米粒子,有望实现更有效、个性化和持久的癌症治疗,从而在可预见的未来改变这一领域。
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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