The kinesin-5 tail domain directly modulates the mechanochemical cycle of the motor domain for anti-parallel microtubule sliding

Kinesin-5 motors organize mitotic spindles by sliding apart microtubules. They are homotetramers with dimeric motor and tail domains at both ends of a bipolar minifilament. Here, we describe a regulatory mechanism involving direct binding between tail and motor domains and its fundamental role in mi...

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Autores principales: Bodrug, Tatyana, Wilson-Kubalek, Elizabeth M, Nithianantham, Stanley, Thompson, Alex F, Alfieri, April, Gaska, Ignas, Major, Jennifer, Debs, Garrett, Inagaki, Sayaka, Gutierrez, Pedro, Gheber, Larisa, McKenney, Richard J, Sindelar, Charles Vaughn, Milligan, Ronald, Stumpff, Jason, Rosenfeld, Steven S, Forth, Scott T, Al-Bassam, Jawdat
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2020
Materias:
Cell Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7015671/
https://www.ncbi.nlm.nih.gov/pubmed/31958056
http://dx.doi.org/10.7554/eLife.51131
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author Bodrug, Tatyana
Wilson-Kubalek, Elizabeth M
Nithianantham, Stanley
Thompson, Alex F
Alfieri, April
Gaska, Ignas
Major, Jennifer
Debs, Garrett
Inagaki, Sayaka
Gutierrez, Pedro
Gheber, Larisa
McKenney, Richard J
Sindelar, Charles Vaughn
Milligan, Ronald
Stumpff, Jason
Rosenfeld, Steven S
Forth, Scott T
Al-Bassam, Jawdat
author_facet Bodrug, Tatyana
Wilson-Kubalek, Elizabeth M
Nithianantham, Stanley
Thompson, Alex F
Alfieri, April
Gaska, Ignas
Major, Jennifer
Debs, Garrett
Inagaki, Sayaka
Gutierrez, Pedro
Gheber, Larisa
McKenney, Richard J
Sindelar, Charles Vaughn
Milligan, Ronald
Stumpff, Jason
Rosenfeld, Steven S
Forth, Scott T
Al-Bassam, Jawdat
author_sort Bodrug, Tatyana
collection PubMed
description Kinesin-5 motors organize mitotic spindles by sliding apart microtubules. They are homotetramers with dimeric motor and tail domains at both ends of a bipolar minifilament. Here, we describe a regulatory mechanism involving direct binding between tail and motor domains and its fundamental role in microtubule sliding. Kinesin-5 tails decrease microtubule-stimulated ATP-hydrolysis by specifically engaging motor domains in the nucleotide-free or ADP states. Cryo-EM reveals that tail binding stabilizes an open motor domain ATP-active site. Full-length motors undergo slow motility and cluster together along microtubules, while tail-deleted motors exhibit rapid motility without clustering. The tail is critical for motors to zipper together two microtubules by generating substantial sliding forces. The tail is essential for mitotic spindle localization, which becomes severely reduced in tail-deleted motors. Our studies suggest a revised microtubule-sliding model, in which kinesin-5 tails stabilize motor domains in the microtubule-bound state by slowing ATP-binding, resulting in high-force production at both homotetramer ends.
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spelling pubmed-70156712020-02-13 The kinesin-5 tail domain directly modulates the mechanochemical cycle of the motor domain for anti-parallel microtubule sliding Bodrug, Tatyana Wilson-Kubalek, Elizabeth M Nithianantham, Stanley Thompson, Alex F Alfieri, April Gaska, Ignas Major, Jennifer Debs, Garrett Inagaki, Sayaka Gutierrez, Pedro Gheber, Larisa McKenney, Richard J Sindelar, Charles Vaughn Milligan, Ronald Stumpff, Jason Rosenfeld, Steven S Forth, Scott T Al-Bassam, Jawdat eLife Cell Biology Kinesin-5 motors organize mitotic spindles by sliding apart microtubules. They are homotetramers with dimeric motor and tail domains at both ends of a bipolar minifilament. Here, we describe a regulatory mechanism involving direct binding between tail and motor domains and its fundamental role in microtubule sliding. Kinesin-5 tails decrease microtubule-stimulated ATP-hydrolysis by specifically engaging motor domains in the nucleotide-free or ADP states. Cryo-EM reveals that tail binding stabilizes an open motor domain ATP-active site. Full-length motors undergo slow motility and cluster together along microtubules, while tail-deleted motors exhibit rapid motility without clustering. The tail is critical for motors to zipper together two microtubules by generating substantial sliding forces. The tail is essential for mitotic spindle localization, which becomes severely reduced in tail-deleted motors. Our studies suggest a revised microtubule-sliding model, in which kinesin-5 tails stabilize motor domains in the microtubule-bound state by slowing ATP-binding, resulting in high-force production at both homotetramer ends. eLife Sciences Publications, Ltd 2020-01-20 /pmc/articles/PMC7015671/ /pubmed/31958056 http://dx.doi.org/10.7554/eLife.51131 Text en © 2020, Bodrug et al http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Cell Biology
Bodrug, Tatyana
Wilson-Kubalek, Elizabeth M
Nithianantham, Stanley
Thompson, Alex F
Alfieri, April
Gaska, Ignas
Major, Jennifer
Debs, Garrett
Inagaki, Sayaka
Gutierrez, Pedro
Gheber, Larisa
McKenney, Richard J
Sindelar, Charles Vaughn
Milligan, Ronald
Stumpff, Jason
Rosenfeld, Steven S
Forth, Scott T
Al-Bassam, Jawdat
The kinesin-5 tail domain directly modulates the mechanochemical cycle of the motor domain for anti-parallel microtubule sliding
title The kinesin-5 tail domain directly modulates the mechanochemical cycle of the motor domain for anti-parallel microtubule sliding
title_full The kinesin-5 tail domain directly modulates the mechanochemical cycle of the motor domain for anti-parallel microtubule sliding
title_fullStr The kinesin-5 tail domain directly modulates the mechanochemical cycle of the motor domain for anti-parallel microtubule sliding
title_full_unstemmed The kinesin-5 tail domain directly modulates the mechanochemical cycle of the motor domain for anti-parallel microtubule sliding
title_short The kinesin-5 tail domain directly modulates the mechanochemical cycle of the motor domain for anti-parallel microtubule sliding
title_sort kinesin-5 tail domain directly modulates the mechanochemical cycle of the motor domain for anti-parallel microtubule sliding
topic Cell Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7015671/
https://www.ncbi.nlm.nih.gov/pubmed/31958056
http://dx.doi.org/10.7554/eLife.51131
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