帕金森病中的肠道微生物生态系统：多组学带来的新临床生物学见解。

Gut Microbial Ecosystem in Parkinson Disease: New Clinicobiological Insights from Multi-Omics.

机构信息

Division of Neurology, Department of Medicine, Faculty of Medicine, University of Malaya, Kuala Lumpur, Malaysia.

Mah Pooi Soo and Tan Chin Nam Center for Parkinson's and Related Disorders, Faculty of Medicine, University of Malaya, Kuala Lumpur, Malaysia.

出版信息

Ann Neurol. 2021 Mar;89(3):546-559. doi: 10.1002/ana.25982. Epub 2021 Jan 11.

DOI:10.1002/ana.25982

PMID:33274480

Abstract

OBJECTIVE

Gut microbiome alterations in Parkinson disease (PD) have been reported repeatedly, but their functional relevance remains unclear. Fecal metabolomics, which provide a functional readout of microbial activity, have scarcely been investigated. We investigated fecal microbiome and metabolome alterations in PD, and their clinical relevance.

METHODS

Two hundred subjects (104 patients, 96 controls) underwent extensive clinical phenotyping. Stool samples were analyzed using 16S rRNA gene sequencing. Fecal metabolomics were performed using two platforms, nuclear magnetic resonance (NMR) spectroscopy and liquid chromatography-mass spectrometry.

RESULTS

Fecal microbiome and metabolome composition in PD was significantly different from controls, with the largest effect size seen in NMR-based metabolome. Microbiome and NMR-based metabolome compositional differences remained significant after comprehensive confounder analyses. Differentially abundant fecal metabolite features and predicted functional changes in PD versus controls included bioactive molecules with putative neuroprotective effects (eg, short chain fatty acids [SCFAs], ubiquinones, and salicylate) and other compounds increasingly implicated in neurodegeneration (eg, ceramides, sphingosine, and trimethylamine N-oxide). In the PD group, cognitive impairment, low body mass index (BMI), frailty, constipation, and low physical activity were associated with fecal metabolome compositional differences. Notably, low SCFAs in PD were significantly associated with poorer cognition and low BMI. Lower butyrate levels correlated with worse postural instability-gait disorder scores.

INTERPRETATION

Gut microbial function is altered in PD, characterized by differentially abundant metabolic features that provide important biological insights into gut-brain pathophysiology. Their clinical relevance further supports a role for microbial metabolites as potential targets for the development of new biomarkers and therapies in PD. ANN NEUROL 2021;89:546-559.

摘要

目的

帕金森病（PD）患者的肠道微生物组发生改变已被反复报道，但它们的功能相关性尚不清楚。粪便代谢组学可提供微生物活性的功能读数，但尚未得到广泛研究。我们研究了 PD 患者粪便微生物组和代谢组的变化及其与临床的相关性。

方法

200 名受试者（104 名患者，96 名对照）接受了广泛的临床表型分析。使用 16S rRNA 基因测序分析粪便样本。使用两种平台（核磁共振[ NMR ]光谱和液相色谱-质谱）进行粪便代谢组学分析。

结果

PD 患者的粪便微生物组和代谢组组成与对照组有显著差异，基于 NMR 的代谢组的效应量最大。经过全面的混杂因素分析后，微生物组和基于 NMR 的代谢组的组成差异仍然显著。PD 与对照组相比，粪便中差异丰富的代谢物特征和预测的功能变化包括具有潜在神经保护作用的生物活性分子（例如短链脂肪酸[ SCFA ]、泛醌和水杨酸盐）和其他越来越多与神经退行性变有关的化合物（例如神经酰胺、鞘氨醇和三甲胺 N-氧化物）。在 PD 组中，认知障碍、低体重指数（BMI）、虚弱、便秘和低体力活动与粪便代谢组组成的差异有关。值得注意的是，PD 患者的 SCFA 水平较低与认知能力较差和 BMI 较低显著相关。较低的丁酸盐水平与姿势不稳-步态障碍评分恶化相关。

结论

PD 患者的肠道微生物功能发生改变，其特征是代谢特征的差异，为肠道-大脑病理生理学提供了重要的生物学见解。它们的临床相关性进一步支持微生物代谢物作为开发 PD 新生物标志物和治疗方法的潜在靶点的作用。

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帕金森病中的肠道微生物生态系统：多组学带来的新临床生物学见解。

Gut Microbial Ecosystem in Parkinson Disease: New Clinicobiological Insights from Multi-Omics.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

INTERPRETATION

目的

方法

结果

结论

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