Literature DB >> 12958171

Monocyte recruitment to endothelial cells in response to oscillatory shear stress.

Tzung K Hsiai1, Sung K Cho, Pak K Wong, Mike Ing, Adler Salazar, Alex Sevanian, Mohamad Navab, Linda L Demer, Chih-Ming Ho.   

Abstract

Leukocyte recruitment to endothelial cells is a critical event in inflammatory responses. The spatial, temporal gradients of shear stress, topology, and outcome of cellular interactions that underlie these responses have so far been inferred from static imaging of tissue sections or studies of statically cultured cells. In this report, we developed micro-electromechanical systems (MEMS) sensors, comparable to a single endothelial cell (EC) in size, to link real-time shear stress with monocyte/EC binding kinetics in a complex flow environment, simulating the moving and unsteady separation point at the arterial bifurcation with high spatial and temporal resolution. In response to oscillatory shear stress (tau) at +/- 2.6 dyn/cm2 at a time-averaged shear stress (tau(ave))=0 and 0.5 Hz, individual monocytes displayed unique to-and-fro trajectories undergoing rolling, binding, and dissociation with other monocyte, followed by solid adhesion on EC. Our study quantified individual monocyte/EC binding kinetics in terms of displacement and velocity profiles. Oscillatory flow induces up-regulation of adhesion molecules and cytokines to mediate monocyte/EC interactions over a dynamic range of shear stress +/- 2.6 dyn/cm2 (P=0.50, n=10).

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Year:  2003        PMID: 12958171      PMCID: PMC4108745          DOI: 10.1096/fj.02-1064com

Source DB:  PubMed          Journal:  FASEB J        ISSN: 0892-6638            Impact factor:   5.191


  33 in total

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5.  Leukotriene B4 receptor antagonism reduces monocytic foam cells in mice.

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Journal:  Arterioscler Thromb Vasc Biol       Date:  2002-03-01       Impact factor: 8.311

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10.  Pulsatile flow regulates monocyte adhesion to oxidized lipid-induced endothelial cells.

Authors:  T K Hsiai; S K Cho; S Reddy; S Hama; M Navab; L L Demer; H M Honda; C M Ho
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  48 in total

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3.  Adaptive response of vascular endothelial cells to an acute increase in shear stress magnitude.

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6.  Dissociation of biological catch-bond by periodic perturbation.

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Review 8.  Importance of hemodynamic forces as signals for exercise-induced changes in endothelial cell phenotype.

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9.  Effects of posture on shear rates in human brachial and superficial femoral arteries.

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Journal:  Circ Res       Date:  2003-10-30       Impact factor: 17.367
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