Notes:

Volume 2, Issue 2 (Suppl)

Chronic Obstructive Pulmonary Diseases

ISSN: 2572-5548

Page 39

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August 31-September 01, 2017 Brussels, Belgium

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Role of TRPV4 calcium-permeable channel in atherogenesis

Shaik O Rahaman

University of Maryland, USA

C

ardiovascular disease is the number one cause of death in the developed world, and atherosclerosis, a chronic inflammatory

arterial disease, is the most dominant underlying pathology. Macrophages are thought to orchestrate atherosclerosis by

generating lipid-laden foam cells and by secreting inflammatory mediators. Emerging data support a role for a mechanical

factor, e.g., matrix stiffness, in regulation of macrophage function, vascular elasticity, and atherogenesis. However, the identity

of the plasma membrane mechanosensor and the mechanisms by which pro-atherogenic signals are transduced are unknown.

Published work by our group and others showed that TRPV4, an ion channel in the transient receptor potential vanilloid

family, a knownmechanosensor, is activated by a range of mechanical and biochemical stimuli. We have obtained evidence that:

genetic ablation of TRPV4 or inhibition of TRPV4 activity by a specific antagonist blocked oxidized low-density lipoprotein

(oxLDL)-induced macrophage foam cell formation, a critical process in atherogenesis, and TRPV4 deficiency prevented matrix

stiffness-induced exacerbation of oxLDL-induced foam cell formation. Mechanistically, we found that: plasma membrane

localization of TRPV4 was sensitized to the increasing level of matrix stiffness; lack of foam cell formation in TRPV4 deficient

macrophages was not due to lack of expression of CD36, a major receptor for oxLDL and; TRPV4 channel activity regulated

oxLDL internalization but not its binding on macrophages. Altogether, these findings identify a novel role for TRPV4 in

regulating macrophage foam cell formation by modulating internalization of oxLDL. These findings suggest that therapeutic

targeting of TRPV4 may provide a selective approach to the treatment of atherosclerosis.

Biography

Shaik O Rahaman is an Assistant Professor at University of Maryland, USA. He is interested in elucidating the signaling events underlying the pathogenesis of

atherosclerosis and fibrosis. He completed his PhD in Molecular Biology at Jadavpur University, and a BS in Human Physiology (Honors), and an MS in Biophysics

and Molecular Biology at University of Calcutta. From 2000-2014, he worked at Cleveland Clinic, Cleveland, USA, as a Postdoctoral Fellow, eventually as a Project

Scientist and Assistant Professor. In 2013, he was the recipient of the American Heart Association Scientist Development Grant. He is the author or co-author of 21

research papers in high impact international peer-reviewed journals of repute. He has given numerous invited talks nationally and internationally.

srahaman@umd.edu

Shaik O Rahaman, Chron Obstruct Pulmon Dis 2017, 2:2

DOI: 10.21767/2572-5548-C1-002