The Significance of MAPK Signaling Pathway in the Diagnosis and Subtype Classification of Intervertebral Disc Degeneration

IF 3.4 3区医学 Q1 ORTHOPEDICS

JOR Spine Pub Date : 2025-03-24 DOI:10.1002/jsp2.70060

Yong Liu, Xueyan Chen, Jingwen Chen, Chao Song, Zhangchao Wei, Zongchao Liu, Fei Liu

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Abstract

Background

Intervertebral disc degeneration (IDD) is a human aging disease related mainly to inflammation, cellular senescence, RNA/DNA methylation, and ECM. The mitogen-activated protein kinase (MAPK) signaling pathway is engaged in multiple biological functions by phosphorylating specific serine and threonine residues on target proteins through phosphorylation cascade effects, but the role and specific mechanisms of the MAPK signaling pathway in IDD are still unclear.

Methods

We identified 20 MAPK-related differential genes by differential analysis of the GSE124272 and GSE150408 datasets from the GEO database. To explore the biological functions of these differential genes in humans, we performed GO and KEGG analyses. Additionally, we applied PPI networks, LASSO analysis, the RF algorithm, and the SVM-RFE algorithm to identify core MAPK-related genes. Finally, we conducted further validation using clinical samples.

Results

We ultimately identified and validated four pivotal MAPK-related genes, namely, KRAS, JUN, RAP1B, and TNF, using clinical samples, and constructed the ROC curves to evaluate the predictive accuracy of the hub genes. A nomogram model was subsequently developed based on these four hub MAPK genes to predict the prevalence of IDD. Based on these four hub genes, we classified IDD patients into two MAP clusters by applying the consensus clustering method and identified 1916 DEGs by analyzing the differences between the two clusters. Further analysis using the same approach allowed us to identify two gene clusters based on these DEGs. We used a PCA algorithm to determine the MAPK score for each sample and discovered that MAPK cluster A and gene cluster A had higher scores, suggesting greater sensitivity to MAPK signaling pathway-associated agents in the subtype. We displayed the differing expression levels of four hub MAPK-related genes across the two clusters and their relationship with immune cell infiltration to highlight the distinctions between clusters A and B.

Conclusion

In summary, four hub MAPK signaling pathway-related genes, KRAS, JUN, RAP1B, and TNF, could be applied to the diagnosis and subtype classification of IDD and benefit the prevention and treatment of IDD.

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MAPK信号通路在椎间盘退变诊断及亚型分型中的意义

椎间盘退变（IDD）是一种人类老年性疾病，主要与炎症、细胞衰老、RNA/DNA甲基化和ECM有关。丝裂原活化蛋白激酶（MAPK）信号通路通过磷酸化级联效应磷酸化靶蛋白上的特定丝氨酸和苏氨酸残基，参与多种生物学功能，但MAPK信号通路在IDD中的作用和具体机制尚不清楚。方法通过对GEO数据库中GSE124272和GSE150408数据集的差异分析，鉴定出20个mapk相关差异基因。为了探索这些差异基因在人类中的生物学功能，我们进行了GO和KEGG分析。此外，我们应用PPI网络、LASSO分析、RF算法和SVM-RFE算法来识别核心mapk相关基因。最后，我们使用临床样本进行了进一步的验证。结果我们最终通过临床样本鉴定并验证了KRAS、JUN、RAP1B和TNF四个关键mapk相关基因，并构建了ROC曲线来评估枢纽基因的预测准确性。随后，基于这四个中心MAPK基因建立了一个nomogram模型来预测IDD的患病率。基于这4个中心基因，采用共识聚类法将IDD患者分为两个MAP聚类，并通过分析两个聚类之间的差异，鉴定出1916个deg。使用相同方法的进一步分析使我们能够根据这些deg确定两个基因簇。我们使用PCA算法确定每个样本的MAPK得分，发现MAPK集群a和基因集群a得分更高，表明该亚型对MAPK信号通路相关药物更敏感。我们展示了4个枢纽MAPK相关基因在两个集群中的不同表达水平及其与免疫细胞浸润的关系，以突出集群A和b之间的差异。结论综上所述，4个枢纽MAPK信号通路相关基因KRAS、JUN、RAP1B和TNF。可用于IDD的诊断和亚型分类，有利于IDD的预防和治疗。

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