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Predictive Metagenomic Analysis of Autoimmune Disease Identifies Robust Autoimmunity and Disease Specific Microbial Signatures.自身免疫性疾病的预测性宏基因组分析确定了强大的自身免疫和疾病特异性微生物特征。
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2
Mitochondrial dysfunction and serum lactate as a biomarker for the progression and disability in MS and its correlation with the radiological findings.线粒体功能障碍和血清乳酸作为 MS 进展和残疾的生物标志物及其与影像学发现的相关性。
Neurol Res. 2021 Jul;43(7):582-590. doi: 10.1080/01616412.2021.1893567. Epub 2021 Mar 4.
3
-a new functional genus with potential probiotic properties?是否存在具有潜在益生菌特性的新功能属?
Gut Microbes. 2021 Jan-Dec;13(1):1-21. doi: 10.1080/19490976.2021.1875796.
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The Role of Gamma-Delta T Cells in Diseases of the Central Nervous System.γ-δ T 细胞在中枢神经系统疾病中的作用。
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is elevated in neuromyelitis optica spectrum disorder in India and shares sequence similarity with AQP4.在印度,视神经脊髓炎谱系疾病患者的该抗体水平升高,且与水通道蛋白 4 具有序列相似性。
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7
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Brain atrophy in multiple sclerosis: mechanisms, clinical relevance and treatment options.多发性硬化症中的脑萎缩:机制、临床相关性及治疗选择。
Auto Immun Highlights. 2019 Aug 10;10(1):7. doi: 10.1186/s13317-019-0117-5. eCollection 2019 Dec.
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进展性多发性硬化症中的肠道微生物组。

Gut Microbiome in Progressive Multiple Sclerosis.

机构信息

Ann Romney Center for Neurologic Diseases, Harvard Medical School, Brigham and Women's Hospital, Boston, MA.

Mount Sinai Health System, New York, NY.

出版信息

Ann Neurol. 2021 Jun;89(6):1195-1211. doi: 10.1002/ana.26084. Epub 2021 Apr 30.

DOI:10.1002/ana.26084
PMID:33876477
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8132291/
Abstract

OBJECTIVE

This study was undertaken to investigate the gut microbiome in progressive multiple sclerosis (MS) and how it relates to clinical disease.

METHODS

We sequenced the microbiota from healthy controls and relapsing-remitting MS (RRMS) and progressive MS patients and correlated the levels of bacteria with clinical features of disease, including Expanded Disability Status Scale (EDSS), quality of life, and brain magnetic resonance imaging lesions/atrophy. We colonized mice with MS-derived Akkermansia and induced experimental autoimmune encephalomyelitis (EAE).

RESULTS

Microbiota β-diversity differed between MS patients and controls but did not differ between RRMS and progressive MS or differ based on disease-modifying therapies. Disease status had the greatest effect on the microbiome β-diversity, followed by body mass index, race, and sex. In both progressive MS and RRMS, we found increased Clostridium bolteae, Ruthenibacterium lactatiformans, and Akkermansia and decreased Blautia wexlerae, Dorea formicigenerans, and Erysipelotrichaceae CCMM. Unique to progressive MS, we found elevated Enterobacteriaceae and Clostridium g24 FCEY and decreased Blautia and Agathobaculum. Several Clostridium species were associated with higher EDSS and fatigue scores. Contrary to the view that elevated Akkermansia in MS has a detrimental role, we found that Akkermansia was linked to lower disability, suggesting a beneficial role. Consistent with this, we found that Akkermansia isolated from MS patients ameliorated EAE, which was linked to a reduction in RORγt+ and IL-17-producing γδ T cells.

INTERPRETATION

Whereas some microbiota alterations are shared in relapsing and progressive MS, we identified unique bacteria associated with progressive MS and clinical measures of disease. Furthermore, elevated Akkermansia in MS may be a compensatory beneficial response in the MS microbiome. ANN NEUROL 2021;89:1195-1211.

摘要

目的

本研究旨在探讨进展性多发性硬化症(MS)中的肠道微生物组及其与临床疾病的关系。

方法

我们对健康对照者、复发缓解型 MS(RRMS)和进展型 MS 患者的微生物组进行了测序,并将细菌水平与疾病的临床特征相关联,包括扩展残疾状况量表(EDSS)、生活质量和脑磁共振成像病变/萎缩。我们用 MS 衍生的 Akkermansia 定植小鼠并诱导实验性自身免疫性脑脊髓炎(EAE)。

结果

MS 患者与对照组之间的微生物组β多样性存在差异,但 RRMS 和进展型 MS 之间或基于疾病修饰治疗的差异无统计学意义。疾病状态对微生物组β多样性的影响最大,其次是体重指数、种族和性别。在进展型 MS 和 RRMS 中,我们发现 Clostridium bolteae、Ruthenibacterium lactatiformans 和 Akkermansia 增加,而 Blautia wexlerae、Dorea formicigenerans 和 Erysipelotrichaceae CCMM 减少。仅在进展型 MS 中,我们发现 Enterobacteriaceae 和 Clostridium g24 FCEY 升高,Blautia 和 Agathobaculum 减少。几种梭菌与更高的 EDSS 和疲劳评分相关。与 MS 中 Akkermansia 升高具有有害作用的观点相反,我们发现 Akkermansia 与较低的残疾程度相关,提示其具有有益作用。与此一致,我们发现从 MS 患者中分离出的 Akkermansia 改善了 EAE,这与 RORγt+和 IL-17 产生的 γδ T 细胞减少有关。

结论

虽然一些微生物组的改变在复发和进展性 MS 中是共同的,但我们发现了与进展性 MS 和疾病临床指标相关的独特细菌。此外,MS 中 Akkermansia 的升高可能是 MS 微生物组中的一种代偿性有益反应。