Abstract
Background: Tobacco smoke is known to contain numerous harmful chemicals, and epidemiological evidence has firmly established smoking as a potent risk factor for hypertension and myocardial infarction (MI). However, the precise mechanisms by which smoking contributes to cardiovascular disease are not fully understood. The aim of this study is to identify common molecular signatures in blood that link smoking to acute MI (AMI).Methods: We extracted transcriptome data from seven blood microarray datasets in the Gene Expression Omnibus (GEO) database, encompassing a total of 403 patients. Employing both individual dataset analysis and a combined meta‐analysis approach, we conducted a thorough examination of blood transcriptome profiles associated with AMI and smoking, uncovering numerous differentially expressed genes (DEGs).Results: Functional enrichment analysis indicated that DEGs associated with AMI and smoking were significantly enriched in overlapping biological processes, such as immune response and inflammation. Moreover, three genes—PTGDR, PYHIN1, and PRSS23—were consistently altered in both conditions and were validated as dysregulated in AMI using an independent GEO dataset. Furthermore, quantitative real‐time reverse transcription polymerase chain reaction (qRT‐PCR) validation further confirmed the differential expression of PYHIN1 and PRSS23 in AMI patients.Conclusions: Our findings suggest that gene expression changes induced by smoking in blood may contribute to the heightened risk of AMI. These identified genes are likely to play critical roles in the pathogenesis of AMI. Given the accessibility of peripheral blood samples, the expression levels of these genes could potentially serve as biomarkers for assessing cardiovascular health, particularly in individuals with a history of long‐term exposure to cigarette smoke.
Published Version
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