posted on 2019-08-14, 10:54authored byR Adib, J Montgomery, J Atherton, L O'Regan, M Richards, K Straatman, D Roth, A Straube, R Bayliss, C Moores, A Fry
EML4 is a microtubule-associated protein that promotes microtubule stability. We investigated
its regulation across the cell cycle and found that EML4 was distributed as punctate foci along
the microtubule lattice in interphase but exhibited reduced association with spindle
microtubules in mitosis. Microtubule sedimentation and cryo-electron microscopy with 3D
reconstruction revealed that the basic N-terminal domain of EML4 mediated its binding to the
acidic C-terminal tails of α- and β-tubulin on the microtubule surface. The mitotic kinases
NEK6 and NEK7 phosphorylated the EML4 N-terminal domain at Ser144 and Ser146 in vitro,
and depletion of these kinases in cells led to increased EML4 binding to microtubules in
mitosis. An S144A-S146A double mutant not only bound inappropriately to mitotic
microtubules but also increased their stability and interfered with chromosome congression.
Meanwhile, constitutive activation of NEK6 or NEK7 reduced EML4 association with
interphase microtubules. Together, these data support a model in which NEK6- and NEK7-
dependent phosphorylation promotes dissociation of EML4 from microtubules in mitosis in a
manner that is required for efficient chromosome congression.
History
Citation
Science Signaling 13 Aug 2019:, Vol. 12, Issue 594, eaaw2939
Author affiliation
/Organisation/COLLEGE OF LIFE SCIENCES/Biological Sciences/Molecular & Cell Biology
Version
AM (Accepted Manuscript)
Published in
Science Signaling
Volume
12
Issue
594
Publisher
American Association for the Advancement of Science
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