The Light Intermediate Chain 2 Subpopulation of Dynein Regulates Mitotic Spindle Orientation

The Light Intermediate Chain 2 Subpopulation of Dynein Regulates Mitotic Spindle Orientation

Abstract Cytoplasmic dynein 1 is a multi-protein intracellular motor essential for mediating several mitotic functions, including the establishment of proper spindle orientation. The functional relevance and mechanistic distinctions between two discrete dynein subpopulations distinguished only by Li...

Full description

Bibliographic Details
Main Authors: Sagar Mahale, Megha Kumar, Amit Sharma, Aswini Babu, Shashi Ranjan, Chetana Sachidanandan, Sivaram V. S. Mylavarapu
Format: Article
Language:English
Published: Nature Publishing Group 2016-12-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-016-0030-3
id doaj-f8dcadbb665b4656a8290ae5ae5ba831
record_format Article
spelling doaj-f8dcadbb665b4656a8290ae5ae5ba8312020-12-08T03:20:35ZengNature Publishing GroupScientific Reports2045-23222016-12-016111610.1038/s41598-016-0030-3The Light Intermediate Chain 2 Subpopulation of Dynein Regulates Mitotic Spindle OrientationSagar Mahale0Megha Kumar1Amit Sharma2Aswini Babu3Shashi Ranjan4Chetana Sachidanandan5Sivaram V. S. Mylavarapu6Laboratory of Cellular Dynamics, Regional Centre for Biotechnology, NCR Biotech Science Cluster, 3rd Milestone, Faridabad-Gurgaon ExpresswayLaboratory of Cellular Dynamics, Regional Centre for Biotechnology, NCR Biotech Science Cluster, 3rd Milestone, Faridabad-Gurgaon ExpresswayLaboratory of Cellular Dynamics, Regional Centre for Biotechnology, NCR Biotech Science Cluster, 3rd Milestone, Faridabad-Gurgaon ExpresswayCSIR-Institute of Genomics & Integrative Biology, South CampusCSIR-Institute of Genomics & Integrative Biology, South CampusCSIR-Institute of Genomics & Integrative Biology, South CampusLaboratory of Cellular Dynamics, Regional Centre for Biotechnology, NCR Biotech Science Cluster, 3rd Milestone, Faridabad-Gurgaon ExpresswayAbstract Cytoplasmic dynein 1 is a multi-protein intracellular motor essential for mediating several mitotic functions, including the establishment of proper spindle orientation. The functional relevance and mechanistic distinctions between two discrete dynein subpopulations distinguished only by Light Intermediate Chain (LIC) homologues, LIC1 and LIC2 is unknown during mitosis. Here, we identify LIC2-dynein as the major mediator of proper spindle orientation and uncover its underlying molecular mechanism. Cortically localized dynein, essential for maintaining correct spindle orientation, consists majorly of LIC2-dynein, which interacts with cortical 14-3-3 ε- ζ and Par3, conserved proteins required for orienting the spindle. LIC2-dynein is also responsible for the majority of dynein-mediated asymmetric poleward transport of NuMA, helping focus microtubule minus ends. In addition, LIC2-dynein dominates in equatorially aligning chromosomes at metaphase and in regulating mitotic spindle length. Key mitotic functions of LIC2 were remarkably conserved in and essential for early embryonic divisions and development in zebrafish. Thus LIC2-dynein exclusively engages with two major cortical pathways to govern spindle orientation. Overall, we identify a novel selectivity of molecular interactions between the two LICs in mitosis as the underlying basis for their uneven distribution of labour in ensuring proper spindle orientation.https://doi.org/10.1038/s41598-016-0030-3
collection DOAJ
language English
format Article
sources DOAJ
author Sagar Mahale
Megha Kumar
Amit Sharma
Aswini Babu
Shashi Ranjan
Chetana Sachidanandan
Sivaram V. S. Mylavarapu
spellingShingle Sagar Mahale
Megha Kumar
Amit Sharma
Aswini Babu
Shashi Ranjan
Chetana Sachidanandan
Sivaram V. S. Mylavarapu
The Light Intermediate Chain 2 Subpopulation of Dynein Regulates Mitotic Spindle Orientation
Scientific Reports
author_facet Sagar Mahale
Megha Kumar
Amit Sharma
Aswini Babu
Shashi Ranjan
Chetana Sachidanandan
Sivaram V. S. Mylavarapu
author_sort Sagar Mahale
title The Light Intermediate Chain 2 Subpopulation of Dynein Regulates Mitotic Spindle Orientation
title_short The Light Intermediate Chain 2 Subpopulation of Dynein Regulates Mitotic Spindle Orientation
title_full The Light Intermediate Chain 2 Subpopulation of Dynein Regulates Mitotic Spindle Orientation
title_fullStr The Light Intermediate Chain 2 Subpopulation of Dynein Regulates Mitotic Spindle Orientation
title_full_unstemmed The Light Intermediate Chain 2 Subpopulation of Dynein Regulates Mitotic Spindle Orientation
title_sort light intermediate chain 2 subpopulation of dynein regulates mitotic spindle orientation
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2016-12-01
description Abstract Cytoplasmic dynein 1 is a multi-protein intracellular motor essential for mediating several mitotic functions, including the establishment of proper spindle orientation. The functional relevance and mechanistic distinctions between two discrete dynein subpopulations distinguished only by Light Intermediate Chain (LIC) homologues, LIC1 and LIC2 is unknown during mitosis. Here, we identify LIC2-dynein as the major mediator of proper spindle orientation and uncover its underlying molecular mechanism. Cortically localized dynein, essential for maintaining correct spindle orientation, consists majorly of LIC2-dynein, which interacts with cortical 14-3-3 ε- ζ and Par3, conserved proteins required for orienting the spindle. LIC2-dynein is also responsible for the majority of dynein-mediated asymmetric poleward transport of NuMA, helping focus microtubule minus ends. In addition, LIC2-dynein dominates in equatorially aligning chromosomes at metaphase and in regulating mitotic spindle length. Key mitotic functions of LIC2 were remarkably conserved in and essential for early embryonic divisions and development in zebrafish. Thus LIC2-dynein exclusively engages with two major cortical pathways to govern spindle orientation. Overall, we identify a novel selectivity of molecular interactions between the two LICs in mitosis as the underlying basis for their uneven distribution of labour in ensuring proper spindle orientation.
url https://doi.org/10.1038/s41598-016-0030-3
work_keys_str_mv AT sagarmahale thelightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT meghakumar thelightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT amitsharma thelightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT aswinibabu thelightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT shashiranjan thelightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT chetanasachidanandan thelightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT sivaramvsmylavarapu thelightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT sagarmahale lightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT meghakumar lightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT amitsharma lightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT aswinibabu lightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT shashiranjan lightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT chetanasachidanandan lightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
AT sivaramvsmylavarapu lightintermediatechain2subpopulationofdyneinregulatesmitoticspindleorientation
_version_ 1724392688204120064

Similar Items