Multi-omics identification of circulating protein biomarkers for intervertebral disc degeneration using Mendelian randomization and scRNA-seq.

IF 2.8 3区医学 Q2 RHEUMATOLOGY

Clinical Rheumatology Pub Date : 2025-09-01 Epub Date: 2025-07-31 DOI:10.1007/s10067-025-07606-6

Fan Bai, Lingting Wang, He Liu, Yufei He, Hong Wang

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引用次数: 0

Abstract

Background: Intervertebral disc degeneration (IVDD) is a primary cause of chronic low back pain, significantly impacting quality of life and healthcare systems globally. Despite its prevalence, the molecular mechanisms underlying IVDD remain unclear, and effective biomarkers are lacking. This study aims to identify circulating protein biomarkers causally linked to IVDD and explore their potential as biomarkers.

Methods: A proteome-wide Mendelian randomization (MR) analysis was conducted using data from 4907 circulating proteins to assess their causal relationships with IVDD, utilizing the FinnGen cohort. Single-cell RNA sequencing (scRNA-seq) was performed to evaluate the expression patterns of identified proteins in healthy and degenerated disc tissues. Additionally, machine learning models were employed to rank these proteins based on their therapeutic potential.

Results: Eight circulating proteins (CD96, CDH3, COPS2, DDX23, FAM210A, PNPO, STOML2, and UBE2D2) were identified as statistically associated with IVDD. scRNA-seq analysis demonstrated differential expression patterns between healthy and degenerated tissues, with COPS2 and UBE2D2 achieving the highest classification accuracy for distinguishing tissue states (AUC = 0.85). Functional and pathway analyses highlighted their roles in inflammation, extracellular matrix regulation, and cellular stress responses.

Conclusions: This study integrates multi-omics approaches to uncover novel protein biomarkers for IVDD, with COPS2 and UBE2D2 showing promising potential as biomarkers or mechanistic targets. Further in vivo validation studies are warranted to confirm their clinical relevance and therapeutic applicability. Key Points • This study utilized Mendelian randomization and single-cell RNA sequencing to identify eight circulating proteins causally associated with IVDD. • The application of machine learning models revealed COPS2 and UBE2D2 as top contributors with high classification accuracy in distinguishing healthy and degenerated disc tissues. • Comprehensive multi-omics and pathway analysis highlighted COPS2 and UBE2D2 as promising therapeutic targets for IVDD, warranting further in vivo validation. • Enrichment analyses identified significant immune-related pathways, underscoring inflammation's critical role in IVDD progression and providing avenues for targeted interventions.

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利用孟德尔随机化和scRNA-seq技术对椎间盘退变循环蛋白生物标志物进行多组学鉴定。

背景：椎间盘退变（IVDD）是慢性腰痛的主要原因，严重影响全球生活质量和医疗保健系统。尽管其普遍存在，但IVDD的分子机制尚不清楚，缺乏有效的生物标志物。本研究旨在鉴定与IVDD有因果关系的循环蛋白生物标志物，并探索其作为生物标志物的潜力。方法：利用FinnGen队列，利用4907种循环蛋白的数据进行全蛋白质组孟德尔随机化（MR）分析，以评估其与IVDD的因果关系。采用单细胞RNA测序（scRNA-seq）来评估健康和退变椎间盘组织中鉴定蛋白的表达模式。此外，机器学习模型被用来根据它们的治疗潜力对这些蛋白质进行排序。结果：8种循环蛋白（CD96、CDH3、COPS2、DDX23、FAM210A、PNPO、STOML2和UBE2D2）与IVDD有统计学相关性。scRNA-seq分析显示健康组织和退化组织之间存在差异表达模式，COPS2和UBE2D2在区分组织状态方面具有最高的分类准确性（AUC = 0.85）。功能和通路分析强调了它们在炎症、细胞外基质调节和细胞应激反应中的作用。结论：本研究整合了多组学方法，发现了IVDD的新型蛋白质生物标志物，其中COPS2和UBE2D2作为生物标志物或机制靶点具有很大的潜力。进一步的体内验证研究是必要的，以确认其临床相关性和治疗适用性。•本研究利用孟德尔随机化和单细胞RNA测序鉴定了与IVDD有因果关系的8种循环蛋白。•机器学习模型的应用表明，COPS2和UBE2D2在区分健康和退变椎间盘组织方面具有很高的分类准确性。•综合多组学和通路分析强调，COPS2和UBE2D2是IVDD有希望的治疗靶点，需要进一步的体内验证。•富集分析确定了重要的免疫相关途径，强调了炎症在IVDD进展中的关键作用，并为靶向干预提供了途径。

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

Clinical Rheumatology 医学-风湿病学

CiteScore

6.90

自引率

2.90%

发文量

441

审稿时长

3 months

期刊介绍： Clinical Rheumatology is an international English-language journal devoted to publishing original clinical investigation and research in the general field of rheumatology with accent on clinical aspects at postgraduate level. The journal succeeds Acta Rheumatologica Belgica, originally founded in 1945 as the official journal of the Belgian Rheumatology Society. Clinical Rheumatology aims to cover all modern trends in clinical and experimental research as well as the management and evaluation of diagnostic and treatment procedures connected with the inflammatory, immunologic, metabolic, genetic and degenerative soft and hard connective tissue diseases.