Tsaktanis Thanos, Ammon Leander, Lößlein Lena, Peter Anne, Vandrey Oliver, Naumann Ulrike J, Behne Megan, Cook Lawrence J, Levy Michael, Yeaman Michael R, Bennett Jeffrey L, Rothhammer Veit
Department of Neurology, University Hospital Erlangen, Friedrich-Alexander University Erlangen-Nürnberg, Germany.
The Guthy-Jackson Charitable Foundation, Beverly Hills, CA.
Neurol Neuroimmunol Neuroinflamm. 2025 Sep;12(5):e200457. doi: 10.1212/NXI.0000000000200457. Epub 2025 Aug 5.
Neuromyelitis optica spectrum disorders (NMOSDs) are severe autoimmune diseases characterized by recurrent CNS inflammation and high risk of persistent disability. Effective disease monitoring is essential for timely intervention and relapse prevention. While biomarkers such as soluble glial fibrillary acidic protein and neurofilament light chain indicate astrocytic and neuronal damage, additional markers are needed to improve disease monitoring and treatment strategies. The ligand-activated transcription factor aryl hydrocarbon receptor (AHR) is a key immune regulator in autoimmune diseases such as multiple sclerosis, where its ligands correlate with disease activity. Given overlapping immunologic pathways, AHR signaling may also influence NMOSD pathophysiology. In this context, this study examines serum levels of AHR ligand in NMOSD, assessing their regulation and association with disease activity. Elucidating the role of AHR signaling may pave the way to explore novel markers of disease activity and therapeutic intervention in NMOSD.
AHR agonistic activity was assessed in the serum of 102 patients with aquaporin-4 antibody-positive NMOSD across various stages of the disease. As control, serum samples from 36 patients with noninflammatory diseases were evaluated for AHR agonistic activity. In addition, we measured AHR activity longitudinally in 10 individuals at 3 distinct time points-during a quiescent phase preceding relapse, at relapse, and during a postrelapse quiescent phase-to evaluate the dynamic changes in AHR activity over time.
Serum AHR agonistic activity was globally decreased in the NMOSD cohort compared with the control group. AHR agonistic activity was further reduced during or near relapses. Finally, we conducted longitudinal analyses on individual serum samples obtained from patients with NMOSD. Our findings reveal that AHR activity significantly decreases during the relapse phase compared with the quiescent phase, with a subsequent recovery after relapse.
Serum AHR agonistic activity is reduced in patients with NMOSD compared with controls and further modulated in temporal vicinity to a relapse. Furthermore, our longitudinal analysis confirmed that AHR activity is markedly reduced during relapse, underscoring its dynamic modulation in relation to disease activity. AHR agonist activity might represent a potential tool to monitor disease activity and develop novel therapeutic strategies.
This study provides Class III evidence that serum levels of AHR agonistic activity are reduced in patients with NMOSD compared with noninflammatory controls, and that these levels are further modulated across different stages of the disease.
视神经脊髓炎谱系障碍(NMOSDs)是严重的自身免疫性疾病,其特征为中枢神经系统反复炎症发作以及持续残疾的高风险。有效的疾病监测对于及时干预和预防复发至关重要。虽然诸如可溶性胶质纤维酸性蛋白和神经丝轻链等生物标志物可表明星形胶质细胞和神经元损伤,但仍需要其他标志物来改善疾病监测和治疗策略。配体激活转录因子芳烃受体(AHR)是自身免疫性疾病(如多发性硬化症)中的关键免疫调节因子,其配体与疾病活动相关。鉴于免疫途径存在重叠,AHR信号传导可能也会影响NMOSD的病理生理过程。在此背景下,本研究检测了NMOSD患者血清中AHR配体的水平,评估其调节情况以及与疾病活动的相关性。阐明AHR信号传导的作用可能为探索NMOSD疾病活动的新标志物和治疗干预铺平道路。
对102例水通道蛋白4抗体阳性的NMOSD患者在疾病不同阶段的血清进行AHR激动活性评估。作为对照,对36例非炎性疾病患者的血清样本进行AHR激动活性评估。此外,我们在10名个体的3个不同时间点(复发前的静止期、复发时以及复发后的静止期)纵向测量AHR活性,以评估AHR活性随时间的动态变化。
与对照组相比,NMOSD队列中的血清AHR激动活性整体降低。在复发期间或复发前后,AHR激动活性进一步降低。最后,我们对从NMOSD患者获得的个体血清样本进行了纵向分析。我们的研究结果显示,与静止期相比,复发期AHR活性显著降低,复发后随后恢复。
与对照组相比,NMOSD患者的血清AHR激动活性降低,且在复发前后受到进一步调节。此外,我们的纵向分析证实复发期间AHR活性显著降低,突出了其与疾病活动的动态调节关系。AHR激动剂活性可能是监测疾病活动和制定新治疗策略的潜在工具。
本研究提供了III级证据,表明与非炎性对照组相比,NMOSD患者血清中AHR激动活性水平降低,且这些水平在疾病的不同阶段受到进一步调节。
