An Automatic Braking System That Stabilizes Leukocyte Rolling by an Increase in Selectin Bond Number with Shear

doi:10.1083/jcb.144.1.185

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© The Rockefeller University Press, 0021-9525/1999//185 $5.00
The Journal of Cell Biology, Volume 144, Number 1, , 1999 185-200

Articles

An Automatic Braking System That Stabilizes Leukocyte Rolling by an Increase in Selectin Bond Number with Shear

Shuqi Chen and Timothy A. Springer

The Center for Blood Research and Harvard Medical School, Department of Pathology, Boston, Massachusetts 02115

Wall shear stress in postcapillary venules varies widely withinand between tissues and in response to inflammation and exercise.However, the speed at which leukocytes roll in vivo has beenshown to be almost constant within a wide range of wall shear stress, i.e., force on the cell. Similarly, rolling velocities on purified selectins and their ligands in vitro tend to plateau.This may be important to enable rolling leukocytes to be exposeduniformly to activating stimuli on endothelium, independentof local hemodynamic conditions. Wall shear stress increasesthe rate of dissociation of individual selectin–ligandtether bonds exponentially (1, 4) thereby destabilizing rolling.We find that this is compensated by a shear-dependent increase in the number of bonds per rolling step. We also find an increasein the number of microvillous tethers to the substrate. Thisexplains (a) the lack of firm adhesion through selectins atlow shear stress or high ligand density, and (b) the stabilityof rolling on selectins to wide variation in wall shear stressand ligand density, in contrast to rolling on antibodies (14).Furthermore, our data successfully predict the threshold wallshear stress below which rolling does not occur. This is aspecial case of the more general regulation by shear of the number of bonds, in which the number of bonds falls belowone.

Key Words: L-selectin • E-selectin • peripheral node addressin • cell adhesion • microvilli

Abbreviations used in this paper: PNAd, peripheral node addressin.

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