Pro-atherosclerotic disturbed flow disrupts caveolin-1 expression, localization, and function via glycocalyx degradation

Harding, I. C., Mitra, R., Mensah, S. A., Herman, I. M., & Ebong, E. E. (2018). Pro-atherosclerotic disturbed flow disrupts caveolin-1 expression, localization, and function via glycocalyx degradation Journal of translational medicine, 16(1), 364.

Endothelial glycocalyx, apoptosis and inflammation in an atherosclerotic mouse model

Cancel, Limary M., et al. Endothelial glycocalyx, apoptosis and inflammation in an atherosclerotic mouse model Atherosclerosis 252 (2016): 136-146.

Regeneration of glycocalyx by heparan sulfate and sphingosine 1-phosphate restores inter-endothelial communication

Mensah, S.A., et al., Regeneration of glycocalyx by heparan sulfate and sphingosine 1-phosphate restores inter-endothelial communication PLoS One, 2017. 12(10): p. e0186116.

Endothelial apoptosis and glycocalyx morphology in plaque and non-plaque areas of the mouse atherosclerotic brachiocephalic artery.

Cancel, Limary Melissa, Eno E. Ebong, and John M. Tarbell. Endothelial apoptosis and glycocalyx morphology in plaque and non-plaque areas of the mouse atherosclerotic brachiocephalic artery. The FASEB Journal27.1_MeetingAbstracts (2013): 869-4.

Glycocalyx Core Proteins Selectively Mediate Endothelial NOS activation and Cell Alignment in Response to Shear Stress.

Ebong, Eno Essien, David C. Spray, and John M. Tarbell. Glycocalyx Core Proteins Selectively Mediate Endothelial NOS activation and Cell Alignment in Response to Shear Stress. The FASEB Journal27.1_MeetingAbstracts (2013): 379-3.

The Roles of HS and Its Glypican-1 Core Protein in Flow-Induced Endothelial NOS Activation and Cell Remodeling

Ebong, E. E., D. C. Spray, and J. M. Tarbell. The Roles of HS and Its Glypican-1 Core Protein in Flow-Induced Endothelial NOS Activation and Cell Remodeling ASME 2011 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2011.

The Glypican-1 HS Core Protein of the Glycocalyx is Important for Flow-induced Endothelial NOS Activation but not Cell Remodeling.

Ebong, Eno Essien, David C. Spray, and John M. Tarbell. The Glypican-1 HS Core Protein of the Glycocalyx is Important for Flow-induced Endothelial NOS Activation but not Cell Remodeling. The FASEB Journal25.1_MeetingAbstracts (2011): 39-9.

The endothelial glycocalyx: Its structure and role in eNOS mechano-activation

Ebong, E. E., D. C. Spray, and J. M. Tarbell. The endothelial glycocalyx: Its structure and role in eNOS mechano-activation Bioengineering Conference, Proceedings of the 2010 IEEE 36th Annual Northeast. IEEE, 2010.

The role of the endothelial glycocalyx layer in transducing fluid shear stress into intracellular signaling events

Ebong, E. E., D. C. Spray, and J. M. Tarbell. The role of the endothelial glycocalyx layer in transducing fluid shear stress into intracellular signaling events Biorheology. Vol. 45. No. 1-2. NIEUWE HEMWEG 6B, 1013 BG AMSTERDAM, NETHERLANDS: IOS PRESS, 2008.

The Endothelial Glycocalyx In Vitro: Its Structure and The Role of Heparan Sulfate and Glypican-1 in eNOS Activation by Flow.

Ebong, Eno Essien, David C. Spray, and John M. Tarbell. The Endothelial Glycocalyx In Vitro: Its Structure and The Role of Heparan Sulfate and Glypican-1 in eNOS Activation by Flow. The FASEB Journal24.1_MeetingAbstracts (2010): 784-8.