Calcium responses of endothelial cell monolayers subjected to pulsatile and steady laminar flow differ

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Calcium responses of endothelial cell monolayers subjected to pulsatile and steady laminar flow differ

G. Helmlinger, B. C. Berk and R. M. Nerem
School of Mechanical Engineering, Georgia Institute of Technology, Atlanta 30332-0405, USA.

The vascular endothelium is the primary transducer of hemodynamically imposed mechanochemical events. In this study, we measured the intracellular free calcium concentration ([Ca2+]i) using the fluorescent probe fura 2 and ratiometric digital imaging in cultured bovine aortic endothelial cells (BAEC) subjected to various laminar flow patterns. These were steady shear stress (0.2-70 dyn/cm2) and three types of sinusoidal pulsatile shear stress (nonreversing: 40 +/- 20 dyn/cm2; reversing: 20 +/- 40 dyn/cm2; and purely oscillatory: 0 +/- 20 dyn/cm2; flow frequencies: 0.4, 1.0, and 2.0 Hz) in a serum-containing medium. The most dramatic finding was failure of a purely oscillatory flow to increase [Ca2+]i in BAEC monolayers. In contrast, steady flow, as well as nonreversing and reversing pulsatile flows, increased [Ca2+]i. The dynamics of the response were dependent on the flow pattern. Both internal Ca2+ release and extracellular Ca2+ entry were involved in these [Ca2+]i increases. Also, switching from either a steady nonreversing pulsatile or reversing pulsatile flow back to a static condition resulted in a [Ca2+]i increase. However, switching from an oscillatory flow to a static condition did not induce any changes in average [Ca2+]i. This study shows that endothelial cells are able to sense different flow environments in terms of [Ca2+]i signaling and is relevant to further studies of the influence of hemodynamic forces on vascular pathophysiology.

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				D. K. Lieu, P. A. Pappone, and A. I. Barakat Differential membrane potential and ion current responses to different types of shear stress in vascular endothelial cells Am J Physiol Cell Physiol, June 1, 2004; 286(6): C1367 - C1375. [Abstract] [Full Text] [PDF]

				W.-P. Qiu, Q. Hu, N. Paolocci, R. C. Ziegelstein, and D. A. Kass Differential effects of pulsatile versus steady flow on coronary endothelial membrane potential Am J Physiol Heart Circ Physiol, June 5, 2003; 285(1): H341 - H346. [Abstract] [Full Text] [PDF]

				J. Suvatne, A. I. Barakat, and M. E. O'Donnell Flow-induced expression of endothelial Na-K-Cl cotransport: dependence on K+ and Cl{-} channels Am J Physiol Cell Physiol, January 1, 2001; 280(1): C216 - C227. [Abstract] [Full Text] [PDF]

				A. D. Westmuckett, C. Lupu, S. Roquefeuil, T. Krausz, V. V. Kakkar, and F. Lupu Fluid Flow Induces Upregulation of Synthesis and Release of Tissue Factor Pathway Inhibitor In Vitro Arterioscler. Thromb. Vasc. Biol., November 1, 2000; 20(11): 2474 - 2482. [Abstract] [Full Text] [PDF]

				X. Peng, F. A. Recchia, B. J. Byrne, I. S. Wittstein, R. C. Ziegelstein, and D. A. Kass In vitro system to study realistic pulsatile flow and stretch signaling in cultured vascular cells Am J Physiol Cell Physiol, September 1, 2000; 279(3): C797 - C805. [Abstract] [Full Text] [PDF]

				I. S. Wittstein, W. Qiu, R. C. Ziegelstein, Q. Hu, and D. A. Kass Opposite Effects of Pressurized Steady Versus Pulsatile Perfusion on Vascular Endothelial Cell Cytosolic pH : Role of Tyrosine Kinase and Mitogen-Activated Protein Kinase Signaling Circ. Res., June 23, 2000; 86(12): 1230 - 1236. [Abstract] [Full Text] [PDF]

				X. Bao, C. B. Clark, and J. A. Frangos Temporal gradient in shear-induced signaling pathway: involvement of MAP kinase, c-fos, and connexin43 Am J Physiol Heart Circ Physiol, May 1, 2000; 278(5): H1598 - H1605. [Abstract] [Full Text] [PDF]

				M. Okuda, M. Takahashi, J. Suero, C. E. Murry, O. Traub, H. Kawakatsu, and B. C. Berk Shear Stress Stimulation of p130cas Tyrosine Phosphorylation Requires Calcium-dependent c-Src Activation J. Biol. Chem., September 17, 1999; 274(38): 26803 - 26809. [Abstract] [Full Text] [PDF]

				J. J. Chiu, B. S. Wung, H. J. Hsieh, L. W. Lo, and D. L. Wang Nitric Oxide Regulates Shear Stress�Induced Early Growth Response-1 : Expression via the Extracellular Signal�Regulated Kinase Pathway in Endothelial Cells Circ. Res., August 6, 1999; 85(3): 238 - 246. [Abstract] [Full Text] [PDF]

				T. Nagel, N. Resnick, C. F. Dewey Jr, and M. A. Gimbrone Jr Vascular Endothelial Cells Respond to Spatial Gradients in Fluid Shear Stress by Enhanced Activation of Transcription Factors Arterioscler. Thromb. Vasc. Biol., August 1, 1999; 19(8): 1825 - 1834. [Abstract] [Full Text] [PDF]

				J. M. Muller, M. J. Davis, L. Kuo, and W. M. Chilian Changes in coronary endothelial cell Ca2+ concentration during shear stress- and agonist-induced vasodilation Am J Physiol Heart Circ Physiol, May 1, 1999; 276(5): H1706 - H1714. [Abstract] [Full Text] [PDF]

				O. Traub and B. C. Berk Laminar Shear Stress : Mechanisms by Which Endothelial Cells Transduce an Atheroprotective Force Arterioscler. Thromb. Vasc. Biol., May 1, 1998; 18(5): 677 - 685. [Abstract] [Full Text] [PDF]

				R. Popp, I. Fleming, and R. Busse Pulsatile Stretch in Coronary Arteries Elicits Release of Endothelium-Derived Hyperpolarizing Factor : A Modulator of Arterial Compliance Circ. Res., April 6, 1998; 82(6): 696 - 703. [Abstract] [Full Text] [PDF]

				J.J. Chiu, B.S. Wung, J. Y.J. Shyy, H.J. Hsieh, and D.L. Wang Reactive Oxygen Species Are Involved in Shear Stress-Induced Intercellular Adhesion Molecule-1 Expression in Endothelial Cells Arterioscler. Thromb. Vasc. Biol., December 1, 1997; 17(12): 3570 - 3577. [Abstract] [Full Text]

				E. M. Boyle Jr, S. T. Lille, E. Allaire, A. W. Clowes, and E. D. Verrier Endothelial Cell Injury in Cardiovascular Surgery: Atherosclerosis Ann. Thorac. Surg., March 1, 1997; 63(3): 885 - 894. [Abstract] [Full Text]

ARTICLES

Calcium responses of endothelial cell monolayers subjected to pulsatile and steady laminar flow differ