Plasma lipidomic signatures of dementia with Lewy bodies revealed by machine learning, and compared to alzheimer's disease.

IF 7.9 1区医学 Q1 CLINICAL NEUROLOGY

Alzheimer's Research & Therapy Pub Date : 2024-10-15 DOI:10.1186/s13195-024-01585-7

Huixin Shen, Yueyi Yu, Jing Wang, Yuting Nie, Yi Tang, Miao Qu

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引用次数: 0

Abstract

Background: Dementia with Lewy Bodies (DLB) is a complex neurodegenerative disorder that often overlaps clinically with Alzheimer's disease (AD), presenting challenges in accurate diagnosis and underscoring the need for novel biomarkers. Lipidomic emerges as a promising avenue for uncovering disease-specific metabolic alterations and potential biomarkers, particularly as the lipidomics landscape of DLB has not been previously explored. We aim to identify potential diagnostic biomarkers and elucidate the disease's pathophysiological mechanisms.

Methods: This study conducted a lipidomic analysis of plasma samples from patients with DLB, AD, and healthy controls (HCs) at Xuanwu Hospital. Untargeted plasma lipidomic profiling was conducted via liquid chromatography coupled with mass spectrometry. Machine learning methods were employed to discern lipidomic signatures specific to DLB and to differentiate it from AD.

Results: The study enrolled 159 participants, including 57 with AD, 48 with DLB, and 54 HCs. Significant differences in lipid profiles were observed between the DLB and HC groups, particularly in the classes of sphingolipids and phospholipids. A total of 55 differentially expressed lipid species were identified between DLB and HCs, and 17 between DLB and AD. Correlations were observed linking these lipidomic profiles to clinical parameters like Unified Parkinson's Disease Rating Scale III (UPDRS III) and cognitive scores. Machine learning models demonstrated to be highly effective in distinguishing DLB from both HCs and AD, achieving substantial accuracy through the utilization of specific lipidomic signatures. These include PC(15:0_18:2), PC(15:0_20:5), and SPH(d16:0) for differentiation between DLB and HCs; and a panel includes 13 lipid molecules: four PCs, two PEs, three SPHs, two Cers, and two Hex1Cers for distinguishing DLB from AD.

Conclusions: This study presents a novel and comprehensive lipidomic profile of DLB, distinguishing it from AD and HCs. Predominantly, sphingolipids (e.g., ceramides and SPHs) and phospholipids (e.g., PE and PC) were the most dysregulated lipids in relation to DLB patients. The lipidomics panels identified through machine learning may serve as effective plasma biomarkers for diagnosing DLB and differentiating it from AD dementia.

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通过机器学习揭示路易体痴呆症的血浆脂质体特征，并与阿尔茨海默病进行比较。

背景：路易体痴呆（DLB）是一种复杂的神经退行性疾病，临床上常与阿尔茨海默病（AD）重叠，给准确诊断带来了挑战，并凸显了对新型生物标志物的需求。脂质组学是发现疾病特异性代谢改变和潜在生物标志物的一个很有前景的途径，尤其是以前尚未探索过 DLB 的脂质组学情况。我们旨在确定潜在的诊断生物标志物，并阐明该疾病的病理生理机制：本研究对宣武医院的 DLB 患者、AD 患者和健康对照者（HCs）的血浆样本进行了脂质组学分析。通过液相色谱-质谱联用技术进行了非靶向血浆脂质组分析。研究采用了机器学习方法来识别 DLB 的脂质体特征，并将其与 AD 区分开来：研究共招募了 159 名参与者，其中包括 57 名 AD 患者、48 名 DLB 患者和 54 名 HCs 患者。在 DLB 组和 HC 组之间观察到了脂质特征的显著差异，尤其是在鞘脂类和磷脂类中。在 DLB 和 HC 之间共发现了 55 种不同表达的脂质，在 DLB 和 AD 之间发现了 17 种不同表达的脂质。研究还观察到这些脂质体特征与临床参数（如统一帕金森病评分量表 III (UPDRS III) 和认知评分）之间的相关性。通过利用特定的脂质体特征，机器学习模型在区分 DLB 与 HCs 和 AD 方面被证明是非常有效的，并达到了相当高的准确性。这些特征包括用于区分DLB和HC的PC(15:0_18:2)、PC(15:0_20:5)和SPH(d16:0)；以及用于区分DLB和AD的13种脂质分子：4种PC、2种PE、3种SPH、2种Cers和2种Hex1Cers：本研究提供了一种新颖而全面的 DLB 脂质组图谱，可将其与 AD 和 HC 区分开来。在DLB患者中，鞘脂类（如神经酰胺和SPHs）和磷脂类（如PE和PC）是最失调的脂质。通过机器学习确定的脂质组学面板可作为诊断DLB和区分DLB与AD痴呆症的有效血浆生物标记物。

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

Alzheimer's Research & Therapy 医学-神经病学

CiteScore

13.10

自引率

3.30%

发文量

172

审稿时长

>12 weeks

期刊介绍： Alzheimer's Research & Therapy is an international peer-reviewed journal that focuses on translational research into Alzheimer's disease and other neurodegenerative diseases. It publishes open-access basic research, clinical trials, drug discovery and development studies, and epidemiologic studies. The journal also includes reviews, viewpoints, commentaries, debates, and reports. All articles published in Alzheimer's Research & Therapy are included in several reputable databases such as CAS, Current contents, DOAJ, Embase, Journal Citation Reports/Science Edition, MEDLINE, PubMed, PubMed Central, Science Citation Index Expanded (Web of Science) and Scopus.