Authors
Mark P White, Christina V Theodoris, Lei Liu, William J Collins, Kathleen W Blue, Joon Ho Lee, Xianzhong Meng, Robert C Robbins, Kathryn N Ivey, Deepak Srivastava
Publication date
2015/7/1
Journal
Journal of molecular and cellular cardiology
Volume
84
Pages
13-23
Publisher
Academic Press
Description
Valvular and vascular calcification are common causes of cardiovascular morbidity and mortality. Developing effective treatments requires understanding the molecular underpinnings of these processes. Shear stress is thought to play a role in inhibiting calcification. Furthermore, NOTCH1 regulates vascular and valvular endothelium, and human mutations in NOTCH1 can cause calcific aortic valve disease. Here, we determined the genome-wide impact of altering shear stress and NOTCH signaling on human aortic valve endothelium. mRNA-sequencing of primary human aortic valve endothelial cells (HAVECs) with or without knockdown of NOTCH1, in the presence or absence of shear stress, revealed NOTCH1-dependency of the atherosclerosis-related gene connexin 40 (GJA5), and numerous repressors of endochondral ossification. Among these, matrix gla protein (MGP) is highly expressed in aortic valve and …
Scholar articles
MP White, CV Theodoris, L Liu, WJ Collins, KW Blue… - Journal of molecular and cellular cardiology, 2015