Updated project metadata. Vasculature permeate our entire body and involved in homeostasis and progression of various disease. Endothelium is a backbone of cardiovascular system and endothelial disfunction is associated with most forms of cardiovascular disease from atherosclerosis to chronic heart failure. Decrease in shear stress, particularly due to disturbance of the blood flow by bends or vascular obstruction, lead to atherosclerosis and endothelial disfunction. Notch signaling may act as mechanosensor and assumed to be one of the central signal pathways associated with endothelial disfunction. Association of shear stress, Notch and endothelial dysfunction is well known, molecular mechanisms connected these factors still poorly understood. One might assume that long-term shear stress and dysregulation of Notch in endothelium cause changes in epigenomic profile. While epigenomic changes in shear stressed environment are known to be involved in endothelial disfunction, possible connection of Notch and epigenetic changes in endothelium has not yet been tested. Therefore, here we analyzed how activation of Notch signaling influence on histone code and secretome of endothelial cells in vitro. We found that activation of Notch increase level of N-acetylated forms of Histone 1: H1-0, H1-3, H1-4, H1-5, H1-10. These changes were also associated with changes in secretome profile of endothelium and might have broad biomedical significance in case of endothelial dysfunction.