抗 CD20 破坏实验性多发性硬化继发进展模型中的脑膜 B 细胞聚集。

Anti-CD20 Disrupts Meningeal B-Cell Aggregates in a Model of Secondary Progressive Multiple Sclerosis.

机构信息

From the Department of Pharmacology (J.R., Y.Z.), University of Oxford; University of Basel (D.L.), Switzerland; Deutsches Rheumaforschungszentrum (DRFZ) and Department of Rheumatology and Clinical Immunology, Charité Universitätsmedizin Berlin (J.R., A.E.H.), Germany; Roche Innovation Center (E.U.), Basel, Switzerland; and Department of Pharmacology (D.C.A.), University of Oxford, UK.

出版信息

Neurol Neuroimmunol Neuroinflamm. 2021 Mar 2;8(3). doi: 10.1212/NXI.0000000000000975. Print 2021 May.

DOI:10.1212/NXI.0000000000000975

PMID:33653962

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7931641/

Abstract

OBJECTIVE

Therapies targeting B cells have been used in the clinic for multiple sclerosis (MS). In patients with relapsing MS, anti-CD20 therapy often suppresses relapse activity; yet, their effect on disease progression has been disappointing. Most anti-CD20 therapeutic antibodies are type I, but within the unique microenvironment of the brain, type II antibodies may be more beneficial, as type II antibodies exhibit reduced complement-dependent cytotoxicity and they have an increased capacity to induce direct cell death that is independent of the host immune response.

METHODS

We compared the effect of type I with type II anti-CD20 therapy in a new rodent model of secondary progressive MS (SPMS), which recapitulates the principal histopathologic features of MS including meningeal B-cell aggregates. Focal MS-like lesions were induced by injecting heat-killed into the piriform cortex of MOG-immunized mice. Groups of mice were treated with anti-CD20 antibodies (type I [rituxumab, 10 mg/kg] or type II [GA101, 10 mg/kg]) 4 weeks after lesion initiation, and outcomes were evaluated by immunohistochemistry.

RESULTS

Anti-CD20 therapy decreased the extent of glial activation, significantly decreased the number of B and T lymphocytes in the lesion, and resulted in disruption of the meningeal aggregates. Moreover, at the given dose, the type II anti-CD20 therapy was more efficacious than the type I and also protected against neuronal death.

CONCLUSIONS

These results indicate that anti-CD20 may be an effective therapy for SPMS with B-cell aggregates and that the elimination of CD20 B cells alone is sufficient to cause disruption of aggregates in the brain.

摘要

目的

针对 B 细胞的治疗方法已在多发性硬化症（MS）的临床中得到应用。在复发型 MS 患者中，抗 CD20 治疗通常会抑制复发活动；然而，它们对疾病进展的影响却令人失望。大多数抗 CD20 治疗性抗体是 I 型的，但在大脑的独特微环境中，II 型抗体可能更有益，因为 II 型抗体表现出降低的补体依赖性细胞毒性，并且具有增加的诱导独立于宿主免疫反应的直接细胞死亡的能力。

方法

我们在一种新的继发进展型 MS（SPMS）啮齿动物模型中比较了 I 型和 II 型抗 CD20 治疗的效果，该模型再现了 MS 的主要组织病理学特征，包括脑膜 B 细胞聚集。通过将热灭活的注入到 MO G 免疫小鼠的梨状皮层中来诱导局灶性 MS 样病变。在病变起始后 4 周，用抗 CD20 抗体（I 型[利妥昔单抗，10mg/kg]或 II 型[GA101，10mg/kg]）治疗各组小鼠，并通过免疫组织化学评估结果。

结果

抗 CD20 治疗降低了神经胶质细胞的激活程度，显著减少了病变中 B 和 T 淋巴细胞的数量，并导致脑膜聚集物的破坏。此外，在给定剂量下，II 型抗 CD20 治疗比 I 型更有效，并且还能预防神经元死亡。

结论

这些结果表明，抗 CD20 可能是治疗具有 B 细胞聚集的 SPMS 的有效方法，并且单独消除 CD20 B 细胞足以导致大脑中聚集物的破坏。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f51b/7931641/ed1d378e6e55/NEURIMMINFL2020033134f1.jpg

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抗 CD20 破坏实验性多发性硬化继发进展模型中的脑膜 B 细胞聚集。

Anti-CD20 Disrupts Meningeal B-Cell Aggregates in a Model of Secondary Progressive Multiple Sclerosis.

机构信息