多发性硬化症治疗的免疫特征揭示了早期 B 细胞的共同改变。
Immunologic profiles of multiple sclerosis treatments reveal shared early B cell alterations.
机构信息
Department of Immunology and Microbiology (J.D., D.F., J.E.G.-P., D.D.-A., A.T.L.N., A.L.), Laboratory for Neuroimmunology, Department of Neurosciences (I.P., I.S., K.H., B. Dubois, A.G.), Laboratory for Neurobiology, Department of Neurosciences (L.D.M.), Laboratory for Clinical and Experimental Endocrinology, Department of Clinical and Experimental Medicine (B. Decallonne), and Department of Neurology, University Hospitals Leuven (I.S., J.T., B. Dubois), KU Leuven-University of Leuven; and Center for the Biology of Disease (J.D., D.F., J.E.G.-P., D.D.-A., A.T.L.N., A.L.), VIB (L.D.M.), Leuven, Belgium.
出版信息
Neurol Neuroimmunol Neuroinflamm. 2016 May 10;3(4):e240. doi: 10.1212/NXI.0000000000000240. eCollection 2016 Aug.
OBJECTIVE
We undertook a systems immunology approach of the adaptive immune system in multiple sclerosis (MS), overcoming tradeoffs between scale and level of detail, in order to identify the immunologic signature of MS and the changes wrought by current immunomodulatory treatments.
METHODS
We developed a comprehensive flow cytometry platform measuring 38 immunologic cell types in the peripheral blood of 245 individuals in a routine clinical setting. These include patients with MS, untreated or receiving any of 4 current immunomodulatory treatments (interferon-β, glatiramer acetate, natalizumab, or fingolimod), patients with autoimmune thyroid disease, and healthy controls.
RESULTS
An increase in memory CD8(+) T cells and B cells was observed in untreated patients with MS. Interferon-β and fingolimod induce significant changes upon multiple aspects of the peripheral immune system, with an unexpectedly prominent alteration of B cells. Overall, both treatments push the immune system in different directions, with only 2 significant effects shared across these treatments-an increase in transitional B cells and a decrease in class-switched B cells. We further identified heightened B cell-activating factor (BAFF) levels as regulating this shared B cell pathway.
CONCLUSIONS
A systems immunology approach established different immunologic profiles induced by current immunomodulatory MS treatments, offering perspectives for personalized medicine. Pathways shared between the immunologic architecture of existing efficacious treatments identify targets for future treatment design.
目的
我们采用系统免疫学方法研究多发性硬化症(MS)中的适应性免疫系统,克服了规模和细节水平之间的权衡,以确定 MS 的免疫学特征以及当前免疫调节治疗所带来的变化。
方法
我们开发了一种全面的流式细胞术平台,可在常规临床环境中测量 245 个人的外周血中的 38 种免疫细胞类型。这些包括 MS 患者、未经治疗或接受 4 种当前免疫调节治疗(干扰素-β、聚乙二醇干扰素、那他珠单抗或芬戈莫德)、自身免疫性甲状腺疾病患者和健康对照者。
结果
未治疗的 MS 患者中观察到记忆 CD8(+)T 细胞和 B 细胞增加。干扰素-β和芬戈莫德在多个方面诱导外周免疫系统发生显著变化,B 细胞发生了出乎意料的显著改变。总体而言,两种治疗方法均使免疫系统朝不同方向发展,仅有 2 种治疗方法具有共同的显著效果——过渡性 B 细胞增加和类别转换 B 细胞减少。我们进一步确定升高的 B 细胞激活因子(BAFF)水平调节这种共同的 B 细胞途径。
结论
系统免疫学方法确定了当前免疫调节 MS 治疗所诱导的不同免疫学特征,为个性化医学提供了新视角。现有有效治疗的免疫学结构之间的共享途径确定了未来治疗设计的靶标。
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