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VASCULAR BIOLOGY

Low shear stress preferentially enhances IKK activity through selective sources of ROS for persistent activation of NF-B in endothelial cells

Departments of ¹Pathology, ²Ophthalmology, and ³Radiation Oncology, University of Texas Health Science Center at San Antonio, San Antonio, Texas; and ⁴Department of Immunology, Juntendo University School of Medicine, Tokyo, Japan

Submitted 21 October 2005 ; accepted in final form 6 June 2006

NF-B signaling pathway has been known to play a major role in the pathological process of atherogenesis. Unlike high shear stress, in which the NF-B activity is transient, our earlier studies have demonstrated a persistent activation of NF-B in response to low shear stress in human aortic endothelial cells. These findings partially explained why low shear regions that exist at bifurcations of arteries are prone to atherosclerosis, unlike the relatively atheroprotective high shear regions. In the present study, we further investigated 1) the role of NF-B signaling kinases (IKK and ) that may be responsible for the sustained activation of NF-B in low shear stress and 2) the regulation of these kinases by reactive oxygen species (ROS). Our results demonstrate that not only is a significant proportion of low shear-induced-kinase activity is contributed by IKK, but it is also persistently induced for a prolonged time frame. The IKK activity (both and ) is blocked by apocynin (400 µM), a specific NADPH oxidase inhibitor, and diphenyleneiodonium chloride (DPI; 10 µM), an inhibitor of flavin-containing oxidases like NADPH oxidases. Determination of ROS also demonstrated an increased generation in low shear stress that could be blocked by DPI. These results suggest that the source of ROS generation in endothelial cells in response to low shear stress is NADPH oxidase. The DPI-inhibitable component of ROS is the primary regulator of specific upstream kinases that determine the persistent NF-B activation selectively in low shear-induced endothelial cells.

upstream B kinases; laminar shear stress; oxidative stress; atherogenesis; reactive oxygen species

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