Nils Wellhausen, Joanne Baek, Saar I. Gill, Carl H. June
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We further explore the utility of engineering healthy haematopoietic stem cells to confer resistance to antigen-directed immunotherapies and small-molecule targeted therapies to expand the therapeutic index of said targeted anticancer agents as well as to facilitate in vivo selection of gene-edited haematopoietic stem cells for non-malignant applications. Lastly, we discuss approaches to evade immune rejection, which may be required in the setting of allogeneic cell therapies. Increasing confidence in the tools and outcomes of genetically modified cell therapy now paves the way for rational combinations that will open new therapeutic horizons. Adoptive cell therapies have emerged as promising approaches for the treatment of patients with cancer. Engineering cell therapies to confer resistance to small-molecule therapies, chemotherapies and antibody-based therapies will improve their utility and success. 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引用次数: 0
摘要
表达嵌合抗原受体(CAR)或转基因 T 细胞受体(TCR)以识别和消灭癌细胞的适应性细胞疗法已成为癌症患者实现长期缓解的一种很有前景的方法。要做到有效,工程细胞必须维持在治疗相关的水平,同时避免瘤外毒性,而这在 B 细胞和浆细胞恶性肿瘤之外的领域一直难以实现。本综述讨论了通过赋予细胞对小分子药物或抗体疗法的选择性抵抗力来提高细胞免疫疗法的疗效、安全性和可及性的概念,从而促进与其他会干扰效应细胞功能的物质的联合疗法。我们进一步探讨了健康造血干细胞工程的效用,即赋予细胞对抗原导向免疫疗法和小分子靶向疗法的抗性,以扩大上述靶向抗癌药物的治疗指数,并促进体内基因编辑造血干细胞的选择,用于非恶性应用。最后,我们讨论了在异体细胞疗法中可能需要的规避免疫排斥反应的方法。现在,人们对转基因细胞疗法的工具和结果越来越有信心,这为合理组合开辟了新的治疗领域。
Enhancing cellular immunotherapies in cancer by engineering selective therapeutic resistance
Adoptive cell therapies engineered to express chimeric antigen receptors (CARs) or transgenic T cell receptors (TCRs) to recognize and eliminate cancer cells have emerged as a promising approach for achieving long-term remissions in patients with cancer. To be effective, the engineered cells must persist at therapeutically relevant levels while avoiding off-tumour toxicities, which has been challenging to realize outside of B cell and plasma cell malignancies. This Review discusses concepts to enhance the efficacy, safety and accessibility of cellular immunotherapies by endowing cells with selective resistance to small-molecule drugs or antibody-based therapies to facilitate combination therapies with substances that would otherwise interfere with the functionality of the effector cells. We further explore the utility of engineering healthy haematopoietic stem cells to confer resistance to antigen-directed immunotherapies and small-molecule targeted therapies to expand the therapeutic index of said targeted anticancer agents as well as to facilitate in vivo selection of gene-edited haematopoietic stem cells for non-malignant applications. Lastly, we discuss approaches to evade immune rejection, which may be required in the setting of allogeneic cell therapies. Increasing confidence in the tools and outcomes of genetically modified cell therapy now paves the way for rational combinations that will open new therapeutic horizons. Adoptive cell therapies have emerged as promising approaches for the treatment of patients with cancer. Engineering cell therapies to confer resistance to small-molecule therapies, chemotherapies and antibody-based therapies will improve their utility and success. Here, Wellhausen, Baek and colleagues outline the key principles of engineering resistance and potential applications for haematopoietic stem cell transplantation and allogeneic immune cell therapies.
期刊介绍:
Nature Reviews Cancer, a part of the Nature Reviews portfolio of journals, aims to be the premier source of reviews and commentaries for the scientific communities it serves. The correct abbreviation for abstracting and indexing purposes is Nat. Rev. Cancer. The international standard serial numbers (ISSN) for Nature Reviews Cancer are 1474-175X (print) and 1474-1768 (online). Unlike other journals, Nature Reviews Cancer does not have an external editorial board. Instead, all editorial decisions are made by a team of full-time professional editors who are PhD-level scientists. The journal publishes Research Highlights, Comments, Reviews, and Perspectives relevant to cancer researchers, ensuring that the articles reach the widest possible audience due to their broad scope.