Mechanical Interactions Among Cytoskeletal Filaments

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Hypertension. 1998;32:162-165

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Compound via MeSH
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ACRYLAMIDE
CYTOCHALASIN D
TAXOL

(Hypertension. 1998;32:162-165.)
© 1998 American Heart Association, Inc.

Third Workshop on Structure and Function of Large Arteries: Part I

Mechanical Interactions Among Cytoskeletal Filaments

Ning Wang

From the Physiology Program, Department of Environmental Health, Harvard School of Public Health, Boston, Mass.

Correspondence to Dr Ning Wang, Physiology Program, Harvard School of Public Health, 665 Huntington Ave, Boston, MA 02115. E-mail nwang{at}hsph.harvard.edu

Abstract

Abstract—Mechanical properties of the cells are importantin controlling cell shape, cell migration, and other functions.To understand how cytoskeletal (CSK) filaments interact withone another mechanically, mechanical properties of adherentendothelial cells were analyzed after treatment with CSK-disruptingdrugs. CSK stiffness (the ratio of applied stress to strain,a measure of cell resistance to shape deformation), viscosity(an index of intracellular structural damping), and permanentdeformation (a measure of "plasticity") were measured with magnetictwisting cytometry, by which rotational stress was applied directlyto integrin receptors with ferromagnetic beads coated with RGD-containingpeptide. Treatment with cytochalasin D, which disrupts actinmicrofilaments inhibited stiffness by 50% and decreased permanentdeformation from 70% to 50% but had almost no effect on viscosity.In contrast, nocodazole, a microtubule disrupter, had very littleeffect on inhibition of CSK stiffness, decreased viscosity by 25%,and had no effects on permanent deformation. Acrylamide, anintermediate filament disrupter, had little effect on inhibitionof CSK stiffness, little effect on viscosity, and no effecton permanent deformation. Taxol, a drug that facilitates microtubulepolymerization, increased stiffness by 10%, increased viscosityby 10%, and decreased permanent deformation from 70% to 50%.Combinations of cytochalasin D and nocodazole, cytochalasinD and acrylamide, or all three drugs resulted in a synergistic effecton inhibition of CSK stiffness and viscosity but not in permanentdeformation. Inhibition of oxidative metabolism with potassiumcyanide had no effects on stress-induced stiffening response.Inhibition of tyrosine phosphatase with phenylarsine oxide hadno effect on stress-induced stiffening response. We concludethat higher order mechanical interactions of CSK filaments areimportant in determining the mechanical properties of the cell.

Key Words: microfilaments • microtubules • cytoskeleton • cytometry

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