Direct Microtubule-Binding by Myosin-10 Orients Centrosomes toward Retraction Fibers and Subcortical Actin Clouds

Mijung Kwon; Maria Bagonis; Gaudenz Danuser; David Pellman

doi:10.1016/j.devcel.2015.06.013

Direct Microtubule-Binding by Myosin-10 Orients Centrosomes toward Retraction Fibers and Subcortical Actin Clouds

Mijung Kwon, Maria Bagonis, Gaudenz Danuser, David Pellman

Research output: Contribution to journal › Article › peer-review

72 Scopus citations

Abstract

Positioning of centrosomes is vital for cell division and development. In metazoan cells, spindle positioning is controlled by a dynamic pool of subcortical actin that organizes in response to the position of retraction fibers. These actin "clouds" are proposed to generate pulling forces on centrosomes and mediate spindle orientation. However, the motors that pull astral microtubules toward these actin structures are not known. Here, we report that the unconventional myosin, Myo10, couples actin-dependent forces from retraction fibers and subcortical actin clouds to centrosomes. Myo10-mediated centrosome positioning requires its direct microtubule binding. Computational image analysis of large microtubule populations reveals a direct effect of Myo10 on microtubule dynamics and microtubule-cortex interactions. Myo10's role in centrosome positioning is distinct from, but overlaps with, that of dynein. Thus, Myo10 plays a key role in integrating the actin and microtubule cytoskeletons to position centrosomes and mitotic spindles.

Original language	English (US)
Pages (from-to)	323-337
Number of pages	15
Journal	Developmental cell
Volume	34
Issue number	3
DOIs	https://doi.org/10.1016/j.devcel.2015.06.013
State	Published - Aug 10 2015

ASJC Scopus subject areas

Molecular Biology
Biochemistry, Genetics and Molecular Biology(all)
Developmental Biology
Cell Biology

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10.1016/j.devcel.2015.06.013

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@article{a1738eac157549228a50b55a282b2e9d,

title = "Direct Microtubule-Binding by Myosin-10 Orients Centrosomes toward Retraction Fibers and Subcortical Actin Clouds",

abstract = "Positioning of centrosomes is vital for cell division and development. In metazoan cells, spindle positioning is controlled by a dynamic pool of subcortical actin that organizes in response to the position of retraction fibers. These actin {"}clouds{"} are proposed to generate pulling forces on centrosomes and mediate spindle orientation. However, the motors that pull astral microtubules toward these actin structures are not known. Here, we report that the unconventional myosin, Myo10, couples actin-dependent forces from retraction fibers and subcortical actin clouds to centrosomes. Myo10-mediated centrosome positioning requires its direct microtubule binding. Computational image analysis of large microtubule populations reveals a direct effect of Myo10 on microtubule dynamics and microtubule-cortex interactions. Myo10's role in centrosome positioning is distinct from, but overlaps with, that of dynein. Thus, Myo10 plays a key role in integrating the actin and microtubule cytoskeletons to position centrosomes and mitotic spindles.",

author = "Mijung Kwon and Maria Bagonis and Gaudenz Danuser and David Pellman",

note = "Funding Information: We thank M. Thery, B. Akins, H. Arellano-Santoyo, S. Jhaveri-Schneider, and N. Umbreit for comments on the manuscript; L. Ding for sharing computer code; the Nikon Imaging Center at Harvard Medical School and H. Elliott from the Image and Data Analysis Core at Harvard Medical School for their help with kymograph analysis of microtubule dynamics; and R. Cheney, W. Krek, E. Nigg, I. Cheeseman, T. Wittmann, and W. Bement for reagents. D.P. was supported by the Howard Hughes Medical Institute and the NIH (GM061345); M.K. was supported by a special fellow award from the Leukemia and Lymphoma Society and a Susan Komen grant; and M.B. and G.D. were funded by the NIH (GM067230). Publisher Copyright: {\textcopyright} 2015 Elsevier Inc.",

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AU - Bagonis, Maria

AU - Danuser, Gaudenz

AU - Pellman, David

N1 - Funding Information: We thank M. Thery, B. Akins, H. Arellano-Santoyo, S. Jhaveri-Schneider, and N. Umbreit for comments on the manuscript; L. Ding for sharing computer code; the Nikon Imaging Center at Harvard Medical School and H. Elliott from the Image and Data Analysis Core at Harvard Medical School for their help with kymograph analysis of microtubule dynamics; and R. Cheney, W. Krek, E. Nigg, I. Cheeseman, T. Wittmann, and W. Bement for reagents. D.P. was supported by the Howard Hughes Medical Institute and the NIH (GM061345); M.K. was supported by a special fellow award from the Leukemia and Lymphoma Society and a Susan Komen grant; and M.B. and G.D. were funded by the NIH (GM067230). Publisher Copyright: © 2015 Elsevier Inc.

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N2 - Positioning of centrosomes is vital for cell division and development. In metazoan cells, spindle positioning is controlled by a dynamic pool of subcortical actin that organizes in response to the position of retraction fibers. These actin "clouds" are proposed to generate pulling forces on centrosomes and mediate spindle orientation. However, the motors that pull astral microtubules toward these actin structures are not known. Here, we report that the unconventional myosin, Myo10, couples actin-dependent forces from retraction fibers and subcortical actin clouds to centrosomes. Myo10-mediated centrosome positioning requires its direct microtubule binding. Computational image analysis of large microtubule populations reveals a direct effect of Myo10 on microtubule dynamics and microtubule-cortex interactions. Myo10's role in centrosome positioning is distinct from, but overlaps with, that of dynein. Thus, Myo10 plays a key role in integrating the actin and microtubule cytoskeletons to position centrosomes and mitotic spindles.

AB - Positioning of centrosomes is vital for cell division and development. In metazoan cells, spindle positioning is controlled by a dynamic pool of subcortical actin that organizes in response to the position of retraction fibers. These actin "clouds" are proposed to generate pulling forces on centrosomes and mediate spindle orientation. However, the motors that pull astral microtubules toward these actin structures are not known. Here, we report that the unconventional myosin, Myo10, couples actin-dependent forces from retraction fibers and subcortical actin clouds to centrosomes. Myo10-mediated centrosome positioning requires its direct microtubule binding. Computational image analysis of large microtubule populations reveals a direct effect of Myo10 on microtubule dynamics and microtubule-cortex interactions. Myo10's role in centrosome positioning is distinct from, but overlaps with, that of dynein. Thus, Myo10 plays a key role in integrating the actin and microtubule cytoskeletons to position centrosomes and mitotic spindles.

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Direct Microtubule-Binding by Myosin-10 Orients Centrosomes toward Retraction Fibers and Subcortical Actin Clouds

Abstract

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