Advances in dendritic cell-based therapeutic tumor vaccines

IF 3.2 3区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecular immunology Pub Date : 2025-03-21 DOI:10.1016/j.molimm.2025.03.005

Simin Qin , Jintong Na , Qun Yang , Jing Tang , Yamin Deng , Liping Zhong

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Abstract

Dendritic cell-based therapeutic tumor vaccines are an active immunotherapy that has been commonly tried in the clinic,traditional treatment modalities for malignant tumors, such as surgery, radiotherapy and chemotherapy, have the disadvantages of high recurrence rates and side effects. The dendritic cell vaccination destroys cells from tumors by means of the patient's own system of immunity, a very promising treatment. However, due to the suppression of the tumor immune microenvironment, the difficulty of screening for optimal specific antigens, and the high technical difficulty of vaccine production. Most tumor vaccines currently available in the clinic have failed to produce significant clinical therapeutic effects. In this review, the fundamentals of therapeutic dendritic cells vaccine therapy are briefly outlined, with a focus on the progress of therapeutic Dendritic cells vaccine research in the clinic and the initiatives undertaken to enhance dendritic cell vaccinations' anti-tumor effectiveness. It is believed that through the continuous exploration of novel therapeutic strategies, therapeutic dendritic cells vaccines can play a greater role in improving tumor treatment for tumor patients.

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树突状细胞治疗性肿瘤疫苗的研究进展

基于树突状细胞的治疗性肿瘤疫苗是临床普遍尝试的一种主动免疫疗法，恶性肿瘤的传统治疗方式，如手术、放疗和化疗，存在复发率高、副作用大的缺点。树突状细胞疫苗通过患者自身的免疫系统破坏肿瘤细胞，这是一种非常有前途的治疗方法。然而，由于肿瘤免疫微环境受到抑制，筛选最佳特异性抗原困难，疫苗生产技术难度高。目前临床上可获得的肿瘤疫苗大多未能产生显著的临床治疗效果。在这篇综述中，简要概述了治疗性树突状细胞疫苗治疗的基本原理，重点介绍了治疗性树突状细胞疫苗在临床研究中的进展以及为提高树突状细胞疫苗的抗肿瘤效果所采取的措施。相信通过不断探索新的治疗策略，治疗性树突状细胞疫苗可以在改善肿瘤患者的肿瘤治疗中发挥更大的作用。

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

Molecular immunology 医学-免疫学

CiteScore

6.90

自引率

2.80%

发文量

324

审稿时长

50 days

期刊介绍： Molecular Immunology publishes original articles, reviews and commentaries on all areas of immunology, with a particular focus on description of cellular, biochemical or genetic mechanisms underlying immunological phenomena. Studies on all model organisms, from invertebrates to humans, are suitable. Examples include, but are not restricted to: Infection, autoimmunity, transplantation, immunodeficiencies, inflammation and tumor immunology Mechanisms of induction, regulation and termination of innate and adaptive immunity Intercellular communication, cooperation and regulation Intracellular mechanisms of immunity (endocytosis, protein trafficking, pathogen recognition, antigen presentation, etc) Mechanisms of action of the cells and molecules of the immune system Structural analysis Development of the immune system Comparative immunology and evolution of the immune system "Omics" studies and bioinformatics Vaccines, biotechnology and therapeutic manipulation of the immune system (therapeutic antibodies, cytokines, cellular therapies, etc) Technical developments.