Microtubule Targeting of Substrate Contacts Promotes Their Relaxation and Dissociation

doi:10.1083/jcb.146.5.1033

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© The Rockefeller University Press, 0021-9525/1999/9/1033/ $5.00
The Journal of Cell Biology, Volume 146, Number 5, September 6, 1999 1033-1044

Microtubule Targeting of Substrate Contacts Promotes Their Relaxation and Dissociation

Irina Kaverina^a, Olga Krylyshkina^a, and J. Victor Small^a
^a Institute of Molecular Biology, Austrian Academy of Sciences, A-5020 Salzburg, Austria

Correspondence to: J. Victor Small, Austrian Academy of Sciences, Institute of Molecular Biology, Department of Cell Biology, Billrothstrasse 11, Salzburg A-5020, Austria. Tel:(43) 662-63961-11 Fax:(43) 662-63961-40 E-mail:jvsmall{at}imb.oeaw.ac.at.

We recently showed that substrate contact sites in living fibroblastsare specifically targeted by microtubules (Kaverina, I., K.Rottner, and J.V. Small. 1998. J. Cell Biol. 142:181–190).Evidence is now provided that microtubule contact targetingplays a role in the modulation of substrate contact dynamics.The results are derived from spreading and polarized goldfishfibroblasts in which microtubules and contact sites were simultaneouslyvisualized using proteins conjugated with Cy-3, rhodamine, orgreen fluorescent protein.

For cells allowed to spread in the presence of nocodazole theturnover of contacts was retarded, as compared with controlsand adhesions that were retained under the cell body were dissociatedafter microtubule reassembly. In polarized cells, small focalcomplexes were found at the protruding cell front and largeradhesions, corresponding to focal adhesions, at the retractingflanks and rear. At retracting edges, multiple microtubule contacttargeting preceded contact release and cell edge retraction.The same effect could be observed in spread cells, in whichmicrotubules were allowed to reassemble after local disassemblyby the application of nocodazole to one cell edge. At the protrudingfront of polarized cells, focal complexes were also targetedand as a result remained either unchanged in size or, more rarely,were disassembled. Conversely, when contact targeting at thecell front was prevented by freezing microtubule growth with20 nM taxol and protrusion stimulated by the injection of constitutivelyactive Rac, peripheral focal complexes became abnormally enlarged.We further found that the local application of inhibitors ofmyosin contractility to cell edges bearing focal adhesions inducedthe same contact dissociation and edge retraction as observedafter microtubule targeting.

Our data are consistent with a mechanism whereby microtubulesdeliver localized doses of relaxing signals to contact sitesto retard or reverse their development. We propose that it isvia this route that microtubules exert their well-establishedcontrol on cell polarity.

Key Words: cytoskeleton, signaling, contractility, cell polarity, actin

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