SCI
20 October 2024
Cancer immunotherapy by γδ T cells
(Science; IF:44.7)
Hayday A, Dechanet-Merville J, Rossjohn J, Silva-Santos B: Cancer immunotherapy by γδ T cells. Science 2024, 386(6717):eabq7248.
Correspondence to: adrian.hayday@crick.ac.uk
This century has seen game-changing progress in the delivery of ab T cell–centric cancer immunotherapies, including immune checkpoint blockade, chimeric antigen receptor (CAR) T cells, tumor-infiltrating lymphocytes, and affinity-enhanced T cell receptors (TCRs) in soluble and membrane-bound forms. Empowered by years of research elucidating key aspects of ab T cell biology, clinicians have achieved notable rates of remission in patients with hitherto deadly diseases such as metastatic melanoma and multiple myeloma. However, there is much more to do. In particular, successful immunotherapy needs to reach increased numbers of patients of diverse ethnicities with a much broader range of tumor types. It needs to do so while incurring fewer adverse events and with the goal being complete cure. An emerging approach to achieving this ambition is to exploit γδ T cells, which first came to light about 40 years ago and comprise a distinct lymphocyte lineage that is mostly conserved across jawed vertebrates. Fundamental research has highlighted many aspects of γδ T cell biology that seem very well suited to cancer immunotherapy, including the cells’tropism for tissues in which solid tumors form, their very broad recognition potentials, their high tolerance of normal tissues, and their functional pleiotropy. In particular, γδ T cells seem able to combine highly specific adaptive responses with the rapidity and polyclonality of innate immunity, including a capacity to harness a battery of so-called natural killer receptors that target transformed cells. In this review, we consider these signature properties, their ongoing clinical application, and the emerging efficacy and safety readouts.
在以T细胞为中心的癌症免疫疗法(包括免疫检查点阻断、嵌合抗原受体(CAR) T细胞、肿瘤浸润淋巴细胞以及可溶性和膜结合形式的亲和力增强T细胞受体(TCR))的递送方面,本世纪已经取得了突破性的进展。经过多年的研究,阐明了γδ T细胞生物学的关键方面,临床医师已经在转移性黑色素瘤和多发性骨髓瘤等迄今为止致命的疾病患者中取得了显著的缓解率。然而,还有很多事情要做。特别是,成功的免疫疗法需要覆盖更多的不同种族、更广泛的肿瘤类型患者。在这样做的同时,需要减少不良事件,并以完全治愈为目标。实现这一目标的一种新兴方法是利用γδ T细胞。γδ T细胞在大约40年前首次被发现,由一个独特的淋巴细胞谱系组成,在下颌脊椎动物中大部分是保守的。基础研究突出了γδ T细胞生物学的许多方面,似乎非常适合癌症免疫治疗,包括细胞对实体肿瘤形成的组织的趋向性,它们非常广泛的识别潜能,它们对正常组织的高耐受性,以及它们的功能多效性。特别是,γδ T细胞似乎能够将高度特异性的适应性反应与固有免疫的快速和多克隆性相结合,包括利用一系列自然杀伤受体靶向转化细胞的能力。在这篇综述中,我们考虑了这些特征性质、它们正在进行的临床应用以及新出现的疗效和安全性结果。