Comprehensive analysis of the cerebrospinal fluid and serum metabolome in neurological diseases.

IF 9.3 1区医学 Q1 IMMUNOLOGY

Journal of Neuroinflammation Pub Date : 2024-09-26 DOI:10.1186/s12974-024-03218-0

Carolin Otto, Rea Kalantzis, Dorothee Kübler-Weller, Andrea A Kühn, Tina Böld, Armin Regler, Selina Strathmeyer, Johannes Wittmann, Klemens Ruprecht, Steffen Heelemann

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Abstract

Background: Comprehensive characterization of the metabolome in cerebrospinal fluid (CSF) and serum by Nuclear Magnetic Resonance (NMR) spectroscopy may identify biomarkers and contribute to the understanding of the pathophysiology of neurological diseases.

Methods: Metabolites were determined by NMR spectroscopy in stored CSF/serum samples of 20 patients with Parkinson's disease, 25 patients with other neuro-degenerative diseases, 22 patients with cerebral ischemia, 48 patients with multiple sclerosis, and 58 control patients with normal CSF findings. The data set was analysed using descriptive and multivariate statistics, as well as machine learning models.

Results: CSF glucose and lactic acid measured by NMR spectroscopy and routine clinical chemistry showed a strong correlation between both methods (glucose, R² = 0.87, n = 173; lactic acid, R² = 0.74, n = 173). NMR spectroscopy detected a total of 99 metabolites; 51 in both, CSF and serum, 16 in CSF only, and 32 in serum only. CSF concentrations of some metabolites increased with age and/or decreasing blood-brain-barrier function. Metabolite detection rates were overall similar among the different disease groups. However, in two-group comparisons, absolute metabolite levels in CSF and serum discriminated between multiple sclerosis and neurodegenerative diseases (area under the curve (AUC) = 0.96), multiple sclerosis and Parkinson's disease (AUC = 0.89), and Parkinson's disease and control patients (AUC = 0.91), as demonstrated by random forest statistical models. Orthogonal partial least square discriminant analysis using absolute metabolite levels in CSF and serum furthermore permitted separation of Parkinson's disease and neurodegenerative diseases. CSF propionic acid levels were about fourfold lower in Parkinson's disease as compared to neurodegenerative diseases.

Conclusions: These findings outline the landscape of the CSF and serum metabolome in different categories of neurological diseases and identify age and blood-brain-barrier function as relevant co-factors for CSF levels of certain metabolites. Metabolome profiles as determined by NMR spectroscopy may potentially aid in differentiating groups of patients with different neurological diseases, including clinically meaningful differentiations, such as Parkinson's disease from other neurodegenerative diseases.

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全面分析神经系统疾病的脑脊液和血清代谢组。

背景：通过核磁共振（NMR）光谱对脑脊液（CSF）和血清中的代谢组进行综合表征，可以确定生物标志物，有助于了解神经系统疾病的病理生理学：通过核磁共振光谱测定了 20 名帕金森病患者、25 名其他神经退行性疾病患者、22 名脑缺血患者、48 名多发性硬化症患者和 58 名脑脊液结果正常的对照组患者储存的脑脊液/血清样本中的代谢物。数据集采用描述性和多变量统计以及机器学习模型进行分析：结果：核磁共振波谱法和常规临床化学法测量的脑脊液葡萄糖和乳酸显示两种方法之间存在很强的相关性（葡萄糖，R2 = 0.87，n = 173；乳酸，R2 = 0.74，n = 173）。核磁共振波谱共检测到 99 种代谢物，其中 51 种同时存在于 CSF 和血清中，16 种仅存在于 CSF 中，32 种仅存在于血清中。CSF 中某些代谢物的浓度随着年龄的增长和/或血脑屏障功能的降低而增加。不同疾病组的代谢物检出率总体相似。然而，在两组比较中，脑脊液和血清中代谢物的绝对水平可以区分多发性硬化症和神经退行性疾病（曲线下面积（AUC）= 0.96）、多发性硬化症和帕金森病（AUC = 0.89）以及帕金森病和对照组患者（AUC = 0.91），随机森林统计模型证明了这一点。利用脑脊液和血清中代谢物的绝对水平进行的正交偏最小二乘法判别分析进一步区分了帕金森病和神经退行性疾病。与神经退行性疾病相比，帕金森病患者的脑脊液丙酸水平低约四倍：这些发现勾勒出了不同类别神经系统疾病中 CSF 和血清代谢组的轮廓，并确定年龄和血脑屏障功能是影响 CSF 中某些代谢物水平的相关共同因素。核磁共振光谱测定的代谢组图谱可能有助于区分不同神经系统疾病的患者群体，包括具有临床意义的区分，如帕金森病和其他神经退行性疾病。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Neuroinflammation 医学-神经科学

CiteScore

15.90

自引率

3.20%

发文量

276

审稿时长

1 months

期刊介绍： The Journal of Neuroinflammation is a peer-reviewed, open access publication that emphasizes the interaction between the immune system, particularly the innate immune system, and the nervous system. It covers various aspects, including the involvement of CNS immune mediators like microglia and astrocytes, the cytokines and chemokines they produce, and the influence of peripheral neuro-immune interactions, T cells, monocytes, complement proteins, acute phase proteins, oxidative injury, and related molecular processes. Neuroinflammation is a rapidly expanding field that has significantly enhanced our knowledge of chronic neurological diseases. It attracts researchers from diverse disciplines such as pathology, biochemistry, molecular biology, genetics, clinical medicine, and epidemiology. Substantial contributions to this field have been made through studies involving populations, patients, postmortem tissues, animal models, and in vitro systems. The Journal of Neuroinflammation consolidates research that centers around common pathogenic processes. It serves as a platform for integrative reviews and commentaries in this field.