Abstract

ObjectiveTo explore the molecular regulatory mechanisms underlying fibroblast differentiation and dysfunction in the development of adolescent idiopathic scoliosis (AIS) in an effort to identify candidate therapeutic targets for AIS.MethodsThe GSE110359 dataset, obtained from the bone marrow stromal cells of 12 AIS patients and five healthy controls, was retrieved from the GEO database. The data were preprocessed and differentially expressed genes (DEGs) were identified. KEGG pathway and Gene Ontology (GO)‐Biological Process (BP) enrichment analyses were performed to identify the function of the DEGs. A protein–protein interaction (PPI) and a microRNA‐transcription factor (TF)‐target co‐regulatory network were constructed to identify hub genes in the development of AIS. In addition, hub DEGs were evaluated by quantitative PCR (qPCR) and immunohistochemical staining.ResultsA total of 188 DEGs including 100 up‐regulated and 88 down‐regulated genes were obtained. The up‐regulated DEGs were related to “p53 signaling pathway”, “FoxO signaling pathway”, and “cGMP‐PKG signaling pathway” terms, while the down‐regulated DEGs were significantly enriched in seven terms including “protein processing in endoplasmic reticulum”. The key up‐regulated genes, PRKG1, CCNG2, and KAT2B, and the key down‐regulated genes, MAP2K1 and DUSP6, were identified by the PPI and miRNA‐TF‐Target regulatory network analyses. mRNA expression patterns for PRKG1, DUSP6, and KAT2B were successfully verified by qPCR. In addition, PRKG1 protein levels were found to be elevated during the immunohistochemical analysis.ConclusionIncreased expression of PRKG1 in AIS patients might be an attractive therapeutic target for AIS. However, further gain or loss‐of‐function studies should be conducted.

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