Rheological Analysis and Measurement of Neutrophil Indentation

doi:10.1529/biophysj.103.031765

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Biophys. J. BioFAST: First Published September 10, 2004. doi:10.1529/biophysj.103.031765
© 2004 by the Biophysical Society.

A more recent version of this article appeared on December 1, 2004.

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CELL BIOPHYSICS

Rheological Analysis and Measurement of Neutrophil Indentation

Elena B Lomakina ¹, Christopher M. Spillmann ², Michael R. King ¹ and Richard E. Waugh ³^*

¹ University of Rochester
² Office of Naval Research
³ Univ. of Rochester Med. Ctr.

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

Submitted on July 22, 2003
Revised on September 2, 2003
Accepted on 1 September 2004

Abstract
Aspects of neutrophil mechanical behavior relevant to the formationof adhesive contacts were assessed by measuring the dependenceof the contact area between the cell and a spherical substrateunder controlled loading. Micropipettes were used to bringneutrophils into contact with spherical beads under known forces,and the corresponding contact area was measured over time. Theneutrophil was modeled as a viscous liquid drop with a constantcortical tension. Both the equilibrium state and the dynamicsof the approach to equilibrium were examined. The equilibriumcontact area increased monotonically with force in a mannerconsistent with a cell cortical tension of 16 - 24 pN/µm. The dynamic response matched predictions based on a model ofthe cell as a growing drop using published values for the effectiveviscosity of the cell. The contact pressure between the celland substrate at equilibrium is predicted to depend on the curvatureof the contacting substrate, but to be independent of the impingementforce. The approach to equilibrium was rapid, such that thetime averaged stress for a two-second impingement was within20% of the equilibrium value. These results have implicationsfor the role of mechanical force in the formation of adhesivecontacts.

Key Words: Cell deformation, Contact area, Leukocytes, Mechanical force, Shear-thinning

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