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Dynamics and heterogeneity of brain damage in multiple sclerosis.多发性硬化症脑损伤的动态变化与异质性
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Mammalian HspB1 (Hsp27) is a molecular sensor linked to the physiology and environment of the cell.哺乳动物的热休克蛋白B1(Hsp27)是一种与细胞生理和环境相关的分子传感器。
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Ocrelizumab versus Interferon Beta-1a in Relapsing Multiple Sclerosis.奥瑞珠单抗与干扰素β-1a 治疗复发型多发性硬化症的疗效比较。
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Integrating genome-wide association studies and gene expression data highlights dysregulated multiple sclerosis risk pathways.整合全基因组关联研究和基因表达数据凸显了多发性硬化症风险通路的失调。
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Small heat shock proteins are induced during multiple sclerosis lesion development in white but not grey matter.小热休克蛋白在多发性硬化症病变发展过程中于白质而非灰质中被诱导产生。
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MEK1 and MEK2 inhibitors and cancer therapy: the long and winding road.MEK1 和 MEK2 抑制剂与癌症治疗:漫长而曲折的道路。
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Genetic variants associated with autoimmunity drive NFκB signaling and responses to inflammatory stimuli.与自身免疫相关的基因变异驱动核因子κB信号传导以及对炎症刺激的反应。
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磷酸化蛋白质组学和基因组分析揭示多发性硬化症中 MAPK 通路和 B 细胞过度激活。

MAPK pathway and B cells overactivation in multiple sclerosis revealed by phosphoproteomics and genomic analysis.

机构信息

Center of Neuroimmunology, Institut d'Investigacions Biomèdiques August Pi Sunyer, Barcelona 08036, Spain.

Kharkevich Institute for Information Transmission Problems, Russian Academy of Sciences, Moscow 127051, Russia.

出版信息

Proc Natl Acad Sci U S A. 2019 May 7;116(19):9671-9676. doi: 10.1073/pnas.1818347116. Epub 2019 Apr 19.

DOI:10.1073/pnas.1818347116
PMID:
31004050
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6510997/
Abstract

Dysregulation of signaling pathways in multiple sclerosis (MS) can be analyzed by phosphoproteomics in peripheral blood mononuclear cells (PBMCs). We performed in vitro kinetic assays on PBMCs in 195 MS patients and 60 matched controls and quantified the phosphorylation of 17 kinases using xMAP assays. Phosphoprotein levels were tested for association with genetic susceptibility by typing 112 single-nucleotide polymorphisms (SNPs) associated with MS susceptibility. We found increased phosphorylation of MP2K1 in MS patients relative to the controls. Moreover, we identified one SNP located in the PHDGH gene and another on IRF8 gene that were associated with MP2K1 phosphorylation levels, providing a first clue on how this MS risk gene may act. The analyses in patients treated with disease-modifying drugs identified the phosphorylation of each receptor's downstream kinases. Finally, using flow cytometry, we detected in MS patients increased STAT1, STAT3, TF65, and HSPB1 phosphorylation in CD19 cells. These findings indicate the activation of cell survival and proliferation (MAPK), and proinflammatory (STAT) pathways in the immune cells of MS patients, primarily in B cells. The changes in the activation of these kinases suggest that these pathways may represent therapeutic targets for modulation by kinase inhibitors.

摘要

在多发性硬化症(MS)中,信号通路的失调可以通过外周血单核细胞(PBMCs)中的磷酸化蛋白质组学来分析。我们对 195 名 MS 患者和 60 名匹配对照者的 PBMCs 进行了体外动力学测定,并使用 xMAP 测定法对 17 种激酶的磷酸化进行了定量。通过对与 MS 易感性相关的 112 个单核苷酸多态性(SNP)进行分型,检测了磷酸蛋白水平与遗传易感性的相关性。与对照组相比,我们发现 MS 患者中 MP2K1 的磷酸化增加。此外,我们发现一个位于 PHDGH 基因中的 SNP 和另一个位于 IRF8 基因中的 SNP 与 MP2K1 磷酸化水平相关,这为该 MS 风险基因如何作用提供了第一个线索。对接受疾病修正治疗的患者的分析确定了每种受体下游激酶的磷酸化。最后,通过流式细胞术,我们在 MS 患者的 CD19 细胞中检测到 STAT1、STAT3、TF65 和 HSPB1 的磷酸化增加。这些发现表明,在 MS 患者的免疫细胞中,细胞存活和增殖(MAPK)以及促炎(STAT)途径被激活,主要是在 B 细胞中。这些激酶激活的变化表明,这些途径可能代表通过激酶抑制剂进行调节的治疗靶点。