Ahmed Rishiq, Reem Bsoul, Ophir Pick, Ofer Mandelboim
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引用次数: 0
摘要
使用抗体阻断抑制性受体,主要是抗PD1和CTLA4(称为检查点疗法),彻底改变了癌症治疗。然而,尽管取得了这些成功,大多数癌症患者对检查点疗法并无反应,这就强调了开发基于其他抑制受体的其他疗法的必要性。人类 TIGIT 是一种由自然杀伤细胞(NK)和 T 细胞表达的抑制性受体,主要与 PVR、Nectin-2、Nectin-3 和 Nectin-4 相互作用。小鼠 TIGIT 是否与所有这些配体都有相互作用,目前还不清楚。此外,TIGIT 在体内抗肿瘤的功能也不完全清楚。在这里,我们证明了小鼠 TIGIT 仅与 mPVR 相互作用并受其抑制。利用 CRISPR-Cas9 技术,我们产生了 TIGIT 缺陷小鼠,并证明与 TIGIT KO 小鼠相比,WT 小鼠的 NK 细胞对两种肿瘤类型的细胞毒性和脱颗粒性更低。此外,与 WT 小鼠相比,TIGIT KO 小鼠体内肿瘤进展更慢。综上所述,我们的数据证实了 mTIGIT 只有一种配体,即 PVR,而且在没有 TIGIT 的情况下,肿瘤在体外和体内都能被更好地杀死。
Studying TIGIT activity against tumors through the generation of knockout mice.
The use of antibodies to block inhibitory receptors, primarily anti-PD1 and CTLA4 (known as checkpoint therapy) revolutionized cancer treatment. However, despite these successes, the majority of cancer patients do not respond to the checkpoint treatment, emphasizing the need for development of additional therapies, which are based on other inhibitory receptors. Human TIGIT is an inhibitory receptor expressed by Natural Killer (NK) and T cells and is mainly known to interact with PVR, Nectin-2, Nectin-3, and Nectin-4. Whether mouse TIGIT interacts with all of these ligands is still unclear. Additionally, the in vivo function of TIGIT against tumors is not completely understood. Here, we demonstrate that mouse TIGIT interacts with and is inhibited by mPVR only. Using CRISPR-Cas9 technology, we generated TIGIT-deficient mice and demonstrated that NK cell cytotoxicity and degranulation against two tumor types were lower in WT mice when compared to the TIGIT KO mice. Moreover, in vivo tumor progression was slower in TIGIT KO than in WT mice. Taken together, our data established that mTIGIT has only one ligand, PVR, and that in the absence of TIGIT tumors are killed better both in vitro and in vivo.
期刊介绍:
Tumor immunology explores the natural and therapy-induced recognition of cancers, along with the complex interplay between oncogenesis, inflammation, and immunosurveillance. In response to recent advancements, a new journal, OncoImmunology, is being launched to specifically address tumor immunology. The field has seen significant progress with the clinical demonstration and FDA approval of anticancer immunotherapies. There's also growing evidence suggesting that many current chemotherapeutic agents rely on immune effectors for their efficacy.
While oncologists have historically utilized chemotherapeutic and radiotherapeutic regimens successfully, they may have unwittingly leveraged the immune system's ability to recognize tumor-specific antigens and control cancer growth. Consequently, immunological biomarkers are increasingly crucial for cancer prognosis and predicting chemotherapy efficacy. There's strong support for combining conventional anticancer therapies with immunotherapies. OncoImmunology will welcome high-profile submissions spanning fundamental, translational, and clinical aspects of tumor immunology, including solid and hematological cancers, inflammation, and both innate and acquired immune responses.
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