Alternations in gut microbiota and host transcriptome of patients with coronary artery disease

Abstract

AbstractBackgroundCoronary artery disease (CAD) is a widespread heart condition caused by atherosclerosis and influences millions of people worldwide. Early detection of CAD is challenging due to the lack of specific biomarkers. The gut microbiota and host-microbiota interactions have been well documented to affect human health. However, investigation that reveals the role of gut microbes in CAD is still limited. This study aims to uncover the synergistic effects of host genes and gut microbes associated with CAD through integrative genomic analyses.ResultsHerein, we collected 54 fecal and 54 blood samples from CAD patients and matched controls, and performed amplicon and transcriptomic sequencing on these samples, respectively. By comparing CAD patients with health controls, we found that dysregulated gut microbes were significantly associated with CAD. By leveraging the Random Forest method, we found that 10 bacteria biomarkers can distinguish CAD patients from health controls with a high performance (AUC = 0.939). We observed that there existed prominent associations of gut microbes with several clinical indices relevant to heart functions. Integration analysis revealed that CAD-relevant gut microbegenus Fusicatenibacterwas associated with expression of CAD-risk genes, such asGBP2,MLKL, andCPR65. In addition, the upregulation of immune-related pathways in CAD patients were identified to be primarily associated with higher abundance of genusBlautia,Eubacterium,Fusicatenibacter, andMonoglobus.ConclusionsOur results highlight that dysregulated gut microbes contribute risk to CAD by interacting with host genes. These identified microbes and interacted risk genes may have high potentials as biomarkers for CAD.