Dynein/dynactin regulate metaphase spindle length by targeting depolymerizing activities to spindle poles

doi:10.1083/jcb.200404015

Published 16 August 2004. doi:10.1083/jcb.200404015
The Rockefeller University Press, 0021-9525 $8.00
JCB, Volume 166, Number 4, 465-471

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Dynein/dynactin regulate metaphase spindle length by targeting depolymerizing activities to spindle poles

Jedidiah Gaetz and Tarun M. Kapoor

Laboratory of Chemistry and Cell Biology, The Rockefeller University, New York, NY 10021

Address correspondence to Tarun M. Kapoor, Lab of Chemistry and Cell Biology, The Rockefeller University, 1230 York Ave., Box 202, New York, NY 10021. Tel.: (212) 327-8176. Fax: (212) 327-8177. email: kapoor{at}rockefeller.edu

Abstract
During cell division metaphase spindles maintain constant length,whereas spindle microtubules continuously flux polewards, requiringaddition of tubulin subunits at microtubule plus-ends, polewardstranslocation of the microtubule lattice, and removal of tubulinsubunits from microtubule minus-ends near spindle poles. Howthese processes are coordinated is unknown. Here, we show thatdynein/dynactin, a multi-subunit microtubule minus-end–directedmotor complex, and NuMA, a microtubule cross-linker, regulatespindle length. Fluorescent speckle microscopy reveals thatdynactin or NuMA inhibition suppresses microtubule disassemblyat spindle poles without affecting polewards microtubule sliding.The observed uncoupling of these two components of flux indicatesthat microtubule depolymerization is not required for the microtubuletransport associated with polewards flux. Inhibition of Kif2a,a KinI kinesin known to depolymerize microtubules in vitro,results in increased spindle microtubule length. We find thatdynein/dynactin contribute to the targeting of Kif2a to spindlepoles, suggesting a model in which dynein/dynactin regulatespindle length and coordinate flux by maintaining microtubuledepolymerizing activities at spindle poles.

Key Words: microtubule; kinesin; spindle; mitosis; dynactin

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