Abstract Background Atherosclerosis is a major contributor to cardiovascular disease (CVD) related premature deaths in people with diabetes. Residual increased risk of CVD remains even after treatment of standard risk factors including hyperglycaemia. Therefore, there is an unmet clinical need of novel therapies that can directly target the intrinsic pathobiology of atherosclerotic plaque development. Macrophage associated pro-atherosclerotic processes including impaired cholesterol efflux resulting in foam cell formation are important therapeutic targets in atherosclerosis. Expression of genes linked to impaired cholesterol efflux can be regulated by multiple factors including transcription factors (TFs) such as activator protein 1 (AP-1) complex. Although, previous studies have implicated the role of foam cells in atherosclerosis, the role of AP-1 TF complex in foam cell formation in diabetes induced atherosclerosis is not known. Methods Diabetes was induced with streptozotocin (STZ) in atheroprone Apoe-/- mice and 10 weeks later aortae were subjected to single cell RNA sequencing (scRNA-seq) analysis using 10X Genomics platform. In vitro model mimicking diabetes-induced foam cell formation was established in human monocytes THP-1 derived macrophages using high glucose (25mM) and ox-LDL ± a small molecular inhibitor of AP-1, T-5224. AP-1 activity, gene expression and foam cell formation were assessed with activity assay, RT PCR and Oil Red O staining respectively in this setting. Complementary in vitro AP-1 knockdown experiments using shRNA were also performed. Furthermore, preclinical intervention studies were also performed where Apoe-/- mice made diabetic with STZ were treated 5-weeks post diabetes with T-5224 (30 mg/kg body weight daily for 5 weeks). Results scRNA-seq analysis identified a well-defined cluster of foam cells within macrophages with a diabetes specific proatherogenic transcriptomic profile. Differential gene expression analysis showed increased expression of AP-1 members cFos, Atf3, Atf4 and Junb exclusively in foam cell cluster in diabetes (cut off = FDR<0.05, Log2FC -2/2). Comparison with the ENCODE dataset for AP-1 target genes using Harmonizome version 3 showed that indeed multiple differentially expressed genes in diabetes were targets of AP-1. AP-1 members were also upregulated in the THP-1-based in vitro model of high glucose induced foam cell formation. THP-1 derived foam cells showed increased AP-1 activity and lipid uptake. Interestingly, AP-1 inhibition by T-5224 attenuated foam cell formation. AP-1 knockdown experiments validated experimental findings of AP-1 inhibition studies in THP-1 derived macrophages. Importantly, T-5224 treatment blocked foam cell formation resulting in reduced atherosclerosis in diabetic Apoe-/- mice in our intervention study design. Conclusion This study identified the AP-1 inhibition with T-5224 as a potential treatment for the diabetes induced foam cell formation and associated atherosclerosis.
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