Passive mechanical behavior of human neutrophils: effect of cytochalasin B.

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Passive mechanical behavior of human neutrophils: effect of cytochalasin B.

M A Tsai, R S Frank and R E Waugh

Department of Biophysics, University of Rochester School of Medicine and Dentistry, New York 14642.

ABSTRACT

Actin is a ubiquitous protein in eukaryotic cells. It playsa major role in cell motility and in the maintenance and controlof cell shape. In this article, we intend to address the contributionof actin to the passive mechanical properties of human neutrophils.As a framework for assessing this contribution, the neutrophilis modeled as a simple viscous fluid drop with a constant cortical("surface") tension. The reagent cytochalasin B (CTB) was usedto disrupt the F-actin structure, and the neutrophil corticaltension and cytoplasmic viscosity were evaluated by single-cellmicropipette aspiration. The cortical tension was calculatedby simple force balance, and the viscosity was calculated accordingto a numerical analysis of the cell entry into the micropipette.CTB reduced the cell cortical tension in a dose-dependent fashion:by 19% at a concentration of 3 microM and by 49% at 30 microM.CTB also reduced the cytoplasmic viscosity by approximately-25% at a concentration of 3 microM and by approximately 65%at a concentration of 30 microM when compared at the same aspirationpressures. All three groups of neutrophils, normal cells, andcells treated with either 3 or 30 microM CTB, exhibited non-Newtonianbehavior, in that the apparent viscosity decreased with increasingshear rate. The dependence of the cytoplasmic viscosity on deformationrate can be described empirically by mu = mu c(gamma m/gammac)-b, where mu is cytoplasmic viscosity, gamma m is mean shearrate, mu c is the characteristic viscosity at the characteristicshear rate gamma c, and b is a material coefficient.(ABSTRACTTRUNCATED AT 250 WORDS)

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