Gonzalez Nancy Mize, Zou Dawei, Zeng Zihua, Feng Frances Xiuyan, Zhang Xiaolong, Sannes Caitlin, Gu Andy, Zu Youli, Chen Wenhao
Immunobiology & Transplant Science Center, Department of Surgery, Houston Methodist Research Institute, Houston Methodist Hospital, Houston, Texas, USA.
College of Medicine, Texas A&M University, College Station, Texas, USA.
Immunology. 2025 Feb;174(2):239-246. doi: 10.1111/imm.13881. Epub 2024 Dec 8.
T cells play a critical role in the pathogenesis of systemic lupus erythematosus (SLE). Chronic T cell receptor (TCR) signalling induces T cell exhaustion, characterised by reduced capacity to induce tissue damage. Here, we investigated the therapeutic potential of the anti-TCRβ (H57-597) monoclonal antibody (mAb) in a mouse model of SLE. Four-month-old MRL/lpr mice exhibiting SLE phenotypes received 5 weekly doses of anti-TCRβ mAb or phosphate-buffered saline (PBS) vehicle control. Subsequently, mouse survival was monitored daily. On day 1 post the final dose of treatment, SLE pathogenesis was determined using histological staining and spot urine test. T and B cell states in the brain, kidney, and secondary lymphoid organs were determined by flow cytometry. Transient treatment of anti-TCRβ mAb significantly prolonged the survival of MRL/lpr mice. Accordingly, MRL/lpr mice in the anti-TCRβ mAb group exhibited decreased proteinuria scores and minimal renal pathological damage compared to the PBS control group. Flow cytometric analysis revealed that anti-TCRβ mAb treatment resulted in a reduction in the frequencies of CD4 T cells and CD138B220 plasma cells, plus an increase in Foxp3 regulatory T cell frequency. Furthermore, CD4 T cells from anti-TCRβ mAb treated mice exhibited elevated expression levels of PD-1 and TIM-3, with reduced IFN-γ production, indicative of an exhaustion-like phenotype. Therefore, transient administration of anti-TCRβ mAb treatment induces an exhaustion-like phenotype in CD4 T cells, resulting in prolonged survival of MRL/lpr mice. Inducing autoreactive T-cell exhaustion holds promise as an attractive therapeutic approach for SLE.
T细胞在系统性红斑狼疮(SLE)的发病机制中起关键作用。慢性T细胞受体(TCR)信号传导诱导T细胞耗竭,其特征是诱导组织损伤的能力降低。在此,我们在SLE小鼠模型中研究了抗TCRβ(H57-597)单克隆抗体(mAb)的治疗潜力。表现出SLE表型的4月龄MRL/lpr小鼠接受每周5次剂量的抗TCRβ mAb或磷酸盐缓冲盐水(PBS)载体对照。随后,每天监测小鼠存活情况。在最后一剂治疗后的第1天,使用组织学染色和斑点尿试验确定SLE发病机制。通过流式细胞术确定脑、肾和二级淋巴器官中的T和B细胞状态。抗TCRβ mAb的短暂治疗显著延长了MRL/lpr小鼠的存活时间。因此,与PBS对照组相比,抗TCRβ mAb组中的MRL/lpr小鼠蛋白尿评分降低且肾脏病理损伤最小。流式细胞术分析显示,抗TCRβ mAb治疗导致CD4 T细胞和CD138B220浆细胞频率降低,同时Foxp3调节性T细胞频率增加。此外,来自抗TCRβ mAb治疗小鼠的CD4 T细胞表现出PD-1和TIM-3表达水平升高,同时IFN-γ产生减少,表明存在耗竭样表型。因此,抗TCRβ mAb治疗的短暂给药在CD4 T细胞中诱导出耗竭样表型,从而延长了MRL/lpr小鼠的存活时间。诱导自身反应性T细胞耗竭有望成为一种有吸引力的SLE治疗方法。
