Natalizumab Treatment Induces Proinflammatory CD4 T Cells Preferentially in the Integrin β7+ Compartment.

IF 7.8 1区 医学 Q1 CLINICAL NEUROLOGY Neurology® Neuroimmunology & Neuroinflammation Pub Date : 2023-09-22 Print Date: 2023-11-01 DOI:10.1212/NXI.0000000000200166
Mélanie Nguyen Ky, Adrien Duran, Iris Hasantari, Agnès Bru, Mathilde Deloire, Bruno Brochet, Aurélie Ruet, Nathalie Schmitt
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Abstract

Background and objectives: Natalizumab, a monoclonal humanized antibody targeting integrin α4, inhibits the transmigration of lymphocytes into the CNS by preventing the interaction of integrin α4β1 with V-CAM expressed on brain vascular endothelial cells. Although natalizumab treatment reduces the clinical relapse rate in patients with relapsing-remitting MS, its discontinuation after reactivation of the JC virus is associated with a rebound of the disease in 20% of patients. The mechanisms of this rebound are not elucidated, but natalizumab increases the frequencies of circulating CD4 T cells expressing proinflammatory cytokines as well as the proportion of circulating Th17/Th1 cells (Th1-like Th17 cells). Gut-derived memory CD4 T cells are a population of growing interest in the pathogenesis of MS, but whether and how their properties are affected by natalizumab is not known. Here, we studied the phenotype and cytokine expression profile of circulating gut-derived memory CD4 T cells in patients with relapsing-remitting MS under natalizumab.

Methods: We identified gut-derived memory CD4 T cells by their expression of integrin β7 and compared their properties and those of integrin β7- memory CD4 T cells across healthy donors and patients with relapsing-remitting MS treated or not with natalizumab. We also compared the capacity of integrin β7- and integrin β7+ CD4 T-cell subsets to transmigrate in vitro across a model of blood-brain barrier.

Results: The proportions of proinflammatory Th17/Th1 cells as well as of IL-17A+IFNγ+ and IL-17A+GM-CSF+ cells were higher in memory CD4 T cells expressing integrin β7 in patients receiving natalizumab compared with healthy donors and patients with relapsing-remitting MS not receiving natalizumab. By contrast, integrin β7 negative memory CD4 T cells only presented a modest increased in their proportion of Th17/Th1 cells under natalizumab. We further observed that integrin β7+ Th17/Th1 cells migrated as efficiently as integrin β7- Th17/Th1 across a monolayer of brain microvascular endothelial cells.

Discussion: Our study shows that circulating integrin β7+ memory CD4 T cells of patients with relapsing-remitting MS under natalizumab are enriched in proinflammatory cells supporting the hypothesis that integrin β7+ memory CD4 T cells could play a pathogenic role in the disease rebound observed at natalizumab discontinuation.

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纳塔利珠单抗治疗优选在整合素β7+区室诱导促炎性CD4 T细胞。
背景和目的:纳塔利珠单抗是一种靶向整合素α4的单克隆人源化抗体,通过阻止整合素α4β1与脑血管内皮细胞上表达的V-CAM的相互作用来抑制淋巴细胞向中枢神经系统的迁移。尽管那他珠单抗治疗降低了复发-缓解型多发性硬化症患者的临床复发率,但在20%的患者中,JC病毒重新激活后停止治疗与疾病反弹有关。这种反弹的机制尚未阐明,但那他珠单抗增加了循环CD4 T细胞表达促炎细胞因子的频率以及循环Th17/Th1细胞(Th1样Th17细胞)的比例。肠道来源的记忆性CD4 T细胞是一个对多发性硬化症发病机制越来越感兴趣的群体,但其特性是否以及如何受到那他珠单抗的影响尚不清楚。在这里,我们研究了那他珠单抗治疗复发缓解型多发性硬化症患者的循环肠道来源记忆CD4 T细胞的表型和细胞因子表达谱。方法:我们通过整合素β7的表达鉴定了肠道来源的记忆性CD4 T细胞,并比较了健康供体和接受那他珠单抗治疗或未接受那他单抗治疗的复发-缓解型多发性硬化症患者的整合素β7-记忆性CD4T细胞的特性。我们还比较了整合素β7-和整合素β7+CD4 T细胞亚群在体外跨血脑屏障模型迁移的能力。结果:与健康供体和未接受那他珠单抗治疗的复发缓解型多发性硬化症患者相比,接受那他单抗治疗的患者的促炎Th17/Th1细胞以及IL-17A+IFNγ+和IL-17A+GM-CSF+细胞在表达整合素β7的记忆性CD4 T细胞中的比例更高。相反,整合素β7阴性记忆CD4 T细胞在那他珠单抗作用下其Th17/Th1细胞比例仅适度增加。我们进一步观察到整合素β7+Th17/Th1细胞在单层脑微血管内皮细胞中的迁移效率与整合素β7-Th17/Th1。讨论:我们的研究表明,在那他珠单抗治疗下,复发缓解型多发性硬化症患者的循环整合素β7+记忆性CD4 T细胞富含促炎细胞,这支持了整合素β7~记忆性CD4 T细胞可能在停药时观察到的疾病反弹中起致病作用的假设。
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来源期刊
CiteScore
15.60
自引率
2.30%
发文量
219
审稿时长
8 weeks
期刊介绍: Neurology Neuroimmunology & Neuroinflammation is an official journal of the American Academy of Neurology. Neurology: Neuroimmunology & Neuroinflammation will be the premier peer-reviewed journal in neuroimmunology and neuroinflammation. This journal publishes rigorously peer-reviewed open-access reports of original research and in-depth reviews of topics in neuroimmunology & neuroinflammation, affecting the full range of neurologic diseases including (but not limited to) Alzheimer's disease, Parkinson's disease, ALS, tauopathy, and stroke; multiple sclerosis and NMO; inflammatory peripheral nerve and muscle disease, Guillain-Barré and myasthenia gravis; nervous system infection; paraneoplastic syndromes, noninfectious encephalitides and other antibody-mediated disorders; and psychiatric and neurodevelopmental disorders. Clinical trials, instructive case reports, and small case series will also be featured.
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