Frontiers in Cardiovascular Medicine (Nov 2024)

Identification of key genes for cuproptosis in carotid atherosclerosis

  • Xize Wu,
  • Xize Wu,
  • Jian Kang,
  • Xue Pan,
  • Xue Pan,
  • Chentian Xue,
  • Chentian Xue,
  • Jiaxiang Pan,
  • Chao Quan,
  • Lihong Ren,
  • Lihong Gong,
  • Lihong Gong,
  • Yue Li,
  • Yue Li

DOI
https://doi.org/10.3389/fcvm.2024.1471153
Journal volume & issue
Vol. 11

Abstract

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BackgroundAtherosclerosis is a leading cause of cardiovascular disease worldwide, while carotid atherosclerosis (CAS) is more likely to cause ischemic cerebrovascular events. Emerging evidence suggests that cuproptosis may be associated with an increased risk of atherosclerotic cardiovascular disease. This study aims to explore the potential mechanisms linking cuproptosis and CAS.MethodsThe GSE100927 and GSE43292 datasets were merged to screen for CAS differentially expressed genes (DEGs) and intersected with cuproptosis-related genes to obtain CAS cuproptosis-related genes (CASCRGs). Unsupervised cluster analysis was performed on CAS samples to identify cuproptosis molecular clusters. Weighted gene co-expression network analysis was performed on all samples and cuproptosis molecule clusters to identify common module genes. CAS-specific DEGs were identified in the GSE100927 dataset and intersected with common module genes to obtain candidate hub genes. Finally, 83 machine learning models were constructed to screen hub genes and construct a nomogram to predict the incidence of CAS.ResultsFour ASCRGs (NLRP3, SLC31A2, CDKN2A, and GLS) were identified as regulators of the immune infiltration microenvironment in CAS. CAS samples were identified with two cuproptosis-related molecular clusters with significant biological function differences based on ASCRGs. 220 common module hub genes and 1,518 CAS-specific DEGs were intersected to obtain 58 candidate hub genes, and the machine learning model showed that the Lasso + XGBoost model exhibited the best discriminative performance. Further external validation of single gene differential analysis and nomogram identified SGCE, PCDH7, RAB23, and RIMKLB as hub genes; SGCE and PCDH7 were also used as biomarkers to characterize CAS plaque stability. Finally, a nomogram was developed to assess the incidence of CAS and exhibited satisfactory predictive performance.ConclusionsCuproptosis alters the CAS immune infiltration microenvironment and may regulate actin cytoskeleton formation.

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