Pope Harriet C, Chiodetti Ana L, Newey Alice, Rieunier Guillaume, Overton David X, Mateos-Diaz Eduardo, Mahon Tara M, Bossi Giovanna, Al-Mossawi Hussein, Viant Charlotte
Immunocore Ltd., Abingdon, United Kingdom.
Bath University, Bath, United Kingdom.
Front Immunol. 2025 Aug 22;16:1640509. doi: 10.3389/fimmu.2025.1640509. eCollection 2025.
The programmed cell death protein 1 (PDCD1 or PD-1) is a key regulatory immune checkpoint and a major target for therapeutic intervention. In oncology, antibodies blocking the PD-1 pathway are used to activate immune cells to promote anti tumour immunity while in immune-mediated inflammatory diseases, PD-1 agonist molecules have the potential to achieve immune suppression. NK cells are a specialised population of innate lymphocytes able to recognize a large range of distressed cells including damaged tissues in autoimmune and inflammatory conditions. Of note, NK cells can upregulate PD-1 expression upon activation and their effector functions can be modulated by the PD-1 signalling pathway.
We have generated a novel bispecific inhibitory molecule, comprised of a targeting domain highly specific for a pre-pro-insulin peptide presented by the HLA-A*02 molecules on the cell surface of pancreatic β-cells and a PD-1 agonist effector domain. Suppressive effects of the β-cell tethered bispecific PD-1 agonist molecule on NK cells and NK92-PD-1 cell line activation were assessed through gene expression, cell surface expression of the CD107a degranulation marker, intracellular IFNγ production and Granzyme B secretion. EndoC-b cells proliferation and insulin production were also measured.
We observed that the bispecific PD-1 agonist molecules tethered to pancreatic b-cells accumulate at the immunological synapse, modify NK cell gene expression and decrease their inflammatory and cytotoxic functions.
Targeted PD-1 agonist molecules, inhibiting T cells and NK cells in a tissue-specific manner offer a new promising treatment for autoimmune and inflammatory diseases.
程序性细胞死亡蛋白1(PDCD1或PD-1)是关键的免疫调节检查点,也是治疗干预的主要靶点。在肿瘤学中,阻断PD-1通路的抗体用于激活免疫细胞以促进抗肿瘤免疫,而在免疫介导的炎症性疾病中,PD-1激动剂分子具有实现免疫抑制的潜力。自然杀伤细胞(NK细胞)是先天性淋巴细胞的一个特殊群体,能够识别多种受损细胞,包括自身免疫和炎症状态下的受损组织。值得注意的是,NK细胞在激活后可上调PD-1表达,其效应功能可被PD-1信号通路调节。
我们构建了一种新型双特异性抑制分子,它由一个对胰腺β细胞表面HLA-A*02分子呈递的前胰岛素原肽具有高度特异性的靶向结构域和一个PD-1激动剂效应结构域组成。通过基因表达、脱颗粒标志物CD107a的细胞表面表达、细胞内IFNγ产生和颗粒酶B分泌,评估与β细胞相连的双特异性PD-1激动剂分子对NK细胞和NK92-PD-1细胞系激活的抑制作用。还测量了EndoC-b细胞的增殖和胰岛素分泌。
我们观察到,与胰腺β细胞相连的双特异性PD-1激动剂分子在免疫突触处聚集,改变NK细胞基因表达,并降低其炎症和细胞毒性功能。
以组织特异性方式抑制T细胞和NK细胞的靶向PD-1激动剂分子为自身免疫和炎症性疾病提供了一种新的有前景的治疗方法。
