Kinesin-12 differentially affects spindle assembly depending on its microtubule substrate.

Sturgill EG, Ohi R
Curr Biol. 2013 23 (14): 1280-90

PMID: 23791727 · PMCID: PMC3725213 · DOI:10.1016/j.cub.2013.05.043

BACKGROUND - During mitosis, the microtubule (MT) cytoskeleton rearranges into a bipolar spindle that drives chromosome segregation. Two kinesin subtypes, kinesin-5 and kinesin-12, help build this bipolar array by separating the spindle poles. However, unlike kinesin-5, the kinesin-12 mechanism is not well understood.

RESULTS - At physiologically normal protein levels, we demonstrate that the human kinesin-12 Kif15 acts predominantly on kinetochore fibers to regulate their lengths. This activity limits the extent to which spindle poles separate, leading to transient spindle length instabilities when the motor is absent. Using a novel cell line wherein Kif15 usurps kinesin-5 function, we further show that Kif15 can assume a commanding role in spindle pole separation as a consequence of its mislocalization to nonkinetochore MTs. This Kif15-dependent mechanism is inefficient, however, as spindles assemble through a perilous monopolar intermediate.

CONCLUSIONS - By examining Kif15 activity in two cellular contexts, we found that Kif15 bound to kinetochore fibers antagonizes centrosome separation while Kif15 bound to nonkinetochore MTs mediates centrosome separation. Our work demonstrates that Kif15 acts on parallel MT arrays and clarifies its role under both normal and pathological conditions.

Copyright © 2013 Elsevier Ltd. All rights reserved.

MeSH Terms (10)

Cell Cycle HeLa Cells Humans Immunoblotting Kinesin Kinetochores Microscopy, Fluorescence Microtubules Mitosis Spindle Apparatus

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