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Insights into next-generation immunotherapy designs and tools: molecular mechanisms and therapeutic prospects

Hongzhuo Qin, Zhaokai Zhou, Run Shi, Yumiao Mai, Yudi Xu, Peng Fu, Guangyang Cheng, Zhenfa Zhang, Wenjie Chen, Yun Chen, Yajun Chen, Ran Xu, Qiong Lu

2025Journal of Hematology & Oncology23 citationsDOIOpen Access PDF

Abstract

Immunotherapy has revolutionized the oncology treatment paradigm, and CAR-T cell therapy in particular represents a significant milestone in treating hematological malignancies. Nevertheless, tumor resistance due to target heterogeneity or mutation remains a Gordian knot for immunotherapy. This review elucidates molecular mechanisms and therapeutic potential of next-generation immunotherapeutic tools spanning genetically engineered immune cells, multi-specific antibodies, and cell engagers, emphasizing multi-targeting strategies to enhance personalized immunotherapy efficacy. Development of logic gate modulation-based circuits, adapter-mediated CARs, multi-specific antibodies, and cell engagers could minimize adverse effects while recognizing tumor signals. Ultimately, we highlight gene delivery, gene editing, and other technologies facilitating tailored immunotherapy, and discuss the promising prospects of artificial intelligence in gene-edited immune cells.

Topics & Concepts

HematologyImmunotherapyMedicineMedical physicsInternal medicineComputational biologyOncologyIntensive care medicineBiologyCancerCAR-T cell therapy researchImmune Cell Function and InteractionImmunotherapy and Immune Responses
Insights into next-generation immunotherapy designs and tools: molecular mechanisms and therapeutic prospects | Litcius