Dai Yile, Aizenbud Lilach, Qin Kai, Austin Matthew, Jaycox Jillian R, Cunningham Joseph, Wang Eric Y, Zhang Lin, Fischer Suzanne, Carroll Sean M, van Aggelen Helen, Kluger Yuval, Herold Kevan C, Furchtgott Leon, Kluger Harriet M, Ring Aaron M
Department of Immunobiology, Yale School of Medicine, New Haven, CT, USA.
Yale Cancer Center, New Haven, CT, USA.
Nature. 2025 Jul 23. doi: 10.1038/s41586-025-09188-4.
Although the role of cellular immunity in checkpoint immunotherapy (CPI) for cancer is well established, the effect of antibody-mediated humoral immunity is comparably underexplored. Here we used rapid extracellular antigen profiling to map the autoantibody reactome within a cohort of 374 patients with cancer treated with CPIs and 131 healthy control participants for autoantibodies to 6,172 extracellular and secreted proteins (the 'exoproteome'). Globally, patients with cancer treated with CPIs had diverse autoreactivities that were elevated relative to control individuals but changed minimally with treatment. Autoantibody signatures in patients treated with CPI strikingly distinguished them from healthy individuals. Although associations of specific autoantibodies with immune-related adverse events were sparse, we detected numerous individual autoantibodies that were associated with greatly altered odds ratios for response to therapy. These included autoantibodies to immunomodulatory proteins, such as cytokines, growth factors and immunoreceptors, as well as tumour surface proteins. Functional evaluation of several autoantibody responses indicated that they neutralized the activity of their target proteins, which included type I interferons (IFN-I), IL-6, OSM, TL1A, and BMPR1A and BMPR2. Modelling the effects of autoantibodies to IFN-I and TL1A in preclinical mouse tumour models resulted in enhanced CPI efficacy, consistent with their effects in patients. In conclusion, these findings indicate that autoantibodies to the exoproteome modify CPI responses and highlight therapeutically actionable pathways that can be exploited to augment immunotherapy.
尽管细胞免疫在癌症检查点免疫疗法(CPI)中的作用已得到充分确立,但抗体介导的体液免疫的作用却相对未得到充分研究。在此,我们使用快速细胞外抗原分析来绘制374例接受CPI治疗的癌症患者和131名健康对照参与者队列中针对6172种细胞外和分泌蛋白(“外蛋白质组”)的自身抗体反应组。总体而言,接受CPI治疗的癌症患者具有多样的自身反应性,相对于对照个体有所升高,但治疗后变化极小。接受CPI治疗的患者的自身抗体特征显著将他们与健康个体区分开来。尽管特定自身抗体与免疫相关不良事件的关联较少,但我们检测到许多个体自身抗体与治疗反应的比值比有很大改变有关。这些包括针对免疫调节蛋白的自身抗体,如细胞因子、生长因子和免疫受体,以及肿瘤表面蛋白。对几种自身抗体反应的功能评估表明,它们中和了其靶蛋白的活性,这些靶蛋白包括I型干扰素(IFN-I)、IL-6、OSM、TL1A以及BMPR1A和BMPR2。在临床前小鼠肿瘤模型中模拟针对IFN-I和TL1A的自身抗体的作用导致CPI疗效增强,这与它们在患者中的作用一致。总之,这些发现表明对外蛋白质组的自身抗体可改变CPI反应,并突出了可用于增强免疫疗法的具有治疗可操作性的途径。
