Project description:Endothelial cell (EC) dysfunction is crucial in chronic vascular inflammation and diseases like atherosclerosis. An unknown endothelial pathological phenotype potentially driving atherosclerosis was hinted in our previous study. However, the detailed characterizations and underlying molecular mechanisms remain unclear. Here, we have defined a new endothelial pathological phenotype, characterized by high expression of fibroblast and pro-inflammatory genes with a rapid reduction in EC fate genes by performing single-cell RNA sequencing. Further analysis revealed that increased CEBPB contributes to the fibroblast and inflammatory feature of these atherogenic ECs, which was further confirmed in cultured human aortic ECs. Mechanistically, IL-1β-induced high expression of CEBPB triggers TGF-β signaling and subsequent regulation of downstream genes. This occurs through direct interaction of CEBPB with the promotor region of TGF-β receptor type I (TGFBR1), resulting in its upregulation. Furthermore, exacerbating atherosclerotic plaque area, enhanced vascular inflammation and increased endothelial TGFBR1 expression were confirmed by endothelial overexpression of CEBPB in vivo. These findings suggest endothelial CEBPB functions as a novel regulator of TGFBR1, driving endothelial pathological phenotype, promoting vascular inflammation and atherosclerosis. Targeting endothelial CEBPB may offer new therapeutic avenues for atherosclerotic diseases.

Project description:Endothelial cell (EC) dysfunction is crucial in chronic vascular inflammation and diseases like atherosclerosis. An unknown endothelial pathological phenotype potentially driving atherosclerosis was hinted in our previous study. However, the detailed characterizations and underlying molecular mechanisms remain unclear. In the present study, using single-cell RNA sequencing, the new endothelial pathological phenotype was defined by high expression of fibroblast markers, extracellular matrix, and inflammatory genes, concurrently with a rapid decline in endothelial markers. Further analysis revealed that increased CEBPB contributes to the fibroblast and inflammatory feature of these atherogenic ECs, which was further confirmed in cultured human aortic ECs. Mechanistically, IL-1β-induced high expression of CEBPB triggers TGF-β signaling and subsequent regulation of downstream genes. By performing CUT&Tag analysis, we further investigated that CEBPB directly regulates TGFBR1 expression in endothelial cells through direct interaction of CEBPB with the promotor region of TGF-β receptor type I (TGFBR1). These findings suggest endothelial CEBPB functions as a novel regulator of TGFBR1, driving endothelial pathological phenotype, promoting vascular inflammation and atherosclerosis.

Project description:CEBPB drives endothelial pathological phenotype and promotes atherosclerosis by directly upregulating TGFBR1 expression [scRNA-seq]

Project description:CEBPB drives endothelial pathological phenotype and promotes atherosclerosis by directly upregulating TGFBR1 expression [RNA-seq]

Project description:CEBPB drives endothelial pathological phenotype and promotes atherosclerosis by directly upregulating TGFBR1 expression [CUT&Tag-Seq]

Project description:Endothelial TGFβ signaling is one of the primary drivers of atherosclerosis-associated vascular inflammation.  Inhibition of endothelial TGFβ signaling in hyperlipidemic mice reduces vessel wall inflammation and vascular permeability and leads to arrest of disease progression and regression of established lesions. We performed scRNAseq method to examine endothelial cell gene expression profile using Apoe and EC specific TGFbR1/2 KO in Apoe background mice.

Project description:Endothelial TGFβ signaling is one of the primary drivers of atherosclerosis-associated vascular inflammation.  Inhibition of endothelial TGFβ signaling in hyperlipidemic mice reduces vessel wall inflammation and vascular permeability and leads to arrest of disease progression and regression of established lesions. We performed scRNAseq method to examine endothelial cell gene expression profile using Apoe and EC specific TGFbR1/2 KO in Apoe background mice.

Project description:Endothelial TGFβ signaling is one of the primary drivers of atherosclerosis-associated vascular inflammation.  Inhibition of endothelial TGFβ signaling in hyperlipidemic mice reduces vessel wall inflammation and vascular permeability and leads to arrest of disease progression and regression of established lesions. We performed scRNAseq method to examine endothelial cell gene expression profile using Apoe and EC specific TGFbR1/2 KO in Apoe background mice.

Project description:Endothelial IGFBP6 Suppresses Vascular Inflammation and Atherosclerosis

Project description:Endothelial TGFb signaling drives vascular inflammation and atherosclerosis