Adhesive Dynamics Simulations of the Shear Threshold Effect for Leukocytes

doi:10.1529/biophysj.106.082321

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Biophys. J. BioFAST: First Published November 3, 2006. doi:10.1529/biophysj.106.082321
© 2006 by the Biophysical Society.

A more recent version of this article appeared on February 1, 2007.

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BIOPHYSICAL THEORY AND MODELING

Adhesive Dynamics Simulations of the Shear Threshold Effect for Leukocytes

Kelly Caputo ¹, Dooyoung Lee ², Michael King ² and Daniel A. Hammer ³^*

¹ U. Pennsylvania
² U. Rochester
³ University of Pennsylvania

^* To whom correspondence should be addressed. E-mail: hammer{at}seas.upenn.edu.

Submitted on January 30, 2006
Revised on April 3, 2006
Accepted on 6 October 2006

Abstract
Many experiments have measured the effect of force on the dissociationof single selectin bonds, but it is not yet clear how the force-dependenceof molecular dissociation can influence the rolling of cellsexpressing selectin molecules. Recent experiments using constant-forceAFM or high-resolution microscopic observations of pause-timedistributions of cells in a flow chamber show that for somebonds, the dissociation rate is high at low force and initiallydecreases with force, indicating a catch bond. As the forcecontinues to increase, the dissociation rate increases again,like a slip bond. This catch-slip bond has been proposed tolead to the shear threshold effect in which a certain levelof shear rate is required to achieve rolling. We have incorporateda catch-slip dissociation rate into Adhesive Dynamics simulationsof cell rolling. With a relatively simple model for the shear-controlledassociation rate for selectin bonds, we were able to recreatecharacteristics of the shear threshold effect seen most prominentlyfor rolling through L-selectin. The rolling velocity as a functionof shear rate showed a minimum near 100 s^-1. Furthermore, cellswere observed to roll at a shear rate near the threshold, butdetach and move more quickly when the shear rate was droppedbelow the threshold. Finally, using Adhesive Dynamics, we wereable to determine ranges of parameters necessary to see theshear threshold effect in the rolling velocity. In summary,we found through simulation that the catch-slip behavior ofselectin bonds can be responsible for the shear threshold effect.

Key Words: Adhesive Dynamics, L-selectin, Leukocyte, Rolling, shear threshold

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