Nuclear Isoforms of Neurofibromin Are Required for Proper Spindle Organization and Chromosome Segregation

Nuclear Isoforms of Neurofibromin Are Required for Proper Spindle Organization and Chromosome Segregation

Mitotic spindles are highly organized, microtubule (MT)-based, transient structures that serve the fundamental function of unerring chromosome segregation during cell division and thus of genomic stability during tissue morphogenesis and homeostasis. Hence, a multitude of MT-associated proteins (MAP...

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Main Authors: Charoula Peta, Emmanouella Tsirimonaki, Dimitris Samouil, Kyriaki Georgiadou, Dimitra Mangoura
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Cells
Subjects:
neurofibromin
neurofibromatosis
astral microtubules
astrocyte
glioblastoma
spindle assembly
Online Access:https://www.mdpi.com/2073-4409/9/11/2348
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spelling doaj-567ed4326c784dac839c691eb95c88ff2020-11-25T03:36:27ZengMDPI AGCells2073-44092020-10-0192348234810.3390/cells9112348Nuclear Isoforms of Neurofibromin Are Required for Proper Spindle Organization and Chromosome SegregationCharoula Peta0Emmanouella Tsirimonaki1Dimitris Samouil2Kyriaki Georgiadou3Dimitra Mangoura4Basic Research Center, Biomedical Research Foundation of the Academy of Athens, 4 Soranou Ephessiou, 11527 Athens, GreeceBasic Research Center, Biomedical Research Foundation of the Academy of Athens, 4 Soranou Ephessiou, 11527 Athens, GreeceBasic Research Center, Biomedical Research Foundation of the Academy of Athens, 4 Soranou Ephessiou, 11527 Athens, GreeceBasic Research Center, Biomedical Research Foundation of the Academy of Athens, 4 Soranou Ephessiou, 11527 Athens, GreeceBasic Research Center, Biomedical Research Foundation of the Academy of Athens, 4 Soranou Ephessiou, 11527 Athens, GreeceMitotic spindles are highly organized, microtubule (MT)-based, transient structures that serve the fundamental function of unerring chromosome segregation during cell division and thus of genomic stability during tissue morphogenesis and homeostasis. Hence, a multitude of MT-associated proteins (MAPs) regulates the dynamic assembly of MTs in preparation for mitosis. Some tumor suppressors, normally functioning to prevent tumor development, have now emerged as significant MAPs. Among those, neurofibromin, the product of the Neurofibromatosis-1 gene (<i>NF1</i>), a major Ras GTPase activating protein (RasGAP) in neural cells, controls also the critical function of chromosome congression in astrocytic cellular contexts. Cell type- and development-regulated splicings may lead to the inclusion or exclusion of <i>NF1</i>exon51, which bears a nuclear localization sequence (NLS) for nuclear import at G2; yet the functions of the produced NLS and ΔNLS neurofibromin isoforms have not been previously addressed. By using a lentiviral shRNA system, we have generated glioblastoma SF268 cell lines with conditional knockdown of NLS or ΔNLS transcripts. In dissecting the roles of NLS or ΔNLS neurofibromins, we found that NLS-neurofibromin knockdown led to increased density of cytosolic MTs but loss of MT intersections, anastral spindles featuring large hollows and abnormal chromosome positioning, and finally abnormal chromosome segregation and increased micronuclei frequency. Therefore, we propose that NLS neurofibromin isoforms exert prominent mitotic functions.https://www.mdpi.com/2073-4409/9/11/2348neurofibrominneurofibromatosisastral microtubulesastrocyteglioblastomaspindle assembly
collection DOAJ
language English
format Article
sources DOAJ
author Charoula Peta
Emmanouella Tsirimonaki
Dimitris Samouil
Kyriaki Georgiadou
Dimitra Mangoura
spellingShingle Charoula Peta
Emmanouella Tsirimonaki
Dimitris Samouil
Kyriaki Georgiadou
Dimitra Mangoura
Nuclear Isoforms of Neurofibromin Are Required for Proper Spindle Organization and Chromosome Segregation
Cells
neurofibromin
neurofibromatosis
astral microtubules
astrocyte
glioblastoma
spindle assembly
author_facet Charoula Peta
Emmanouella Tsirimonaki
Dimitris Samouil
Kyriaki Georgiadou
Dimitra Mangoura
author_sort Charoula Peta
title Nuclear Isoforms of Neurofibromin Are Required for Proper Spindle Organization and Chromosome Segregation
title_short Nuclear Isoforms of Neurofibromin Are Required for Proper Spindle Organization and Chromosome Segregation
title_full Nuclear Isoforms of Neurofibromin Are Required for Proper Spindle Organization and Chromosome Segregation
title_fullStr Nuclear Isoforms of Neurofibromin Are Required for Proper Spindle Organization and Chromosome Segregation
title_full_unstemmed Nuclear Isoforms of Neurofibromin Are Required for Proper Spindle Organization and Chromosome Segregation
title_sort nuclear isoforms of neurofibromin are required for proper spindle organization and chromosome segregation
publisher MDPI AG
series Cells
issn 2073-4409
publishDate 2020-10-01
description Mitotic spindles are highly organized, microtubule (MT)-based, transient structures that serve the fundamental function of unerring chromosome segregation during cell division and thus of genomic stability during tissue morphogenesis and homeostasis. Hence, a multitude of MT-associated proteins (MAPs) regulates the dynamic assembly of MTs in preparation for mitosis. Some tumor suppressors, normally functioning to prevent tumor development, have now emerged as significant MAPs. Among those, neurofibromin, the product of the Neurofibromatosis-1 gene (<i>NF1</i>), a major Ras GTPase activating protein (RasGAP) in neural cells, controls also the critical function of chromosome congression in astrocytic cellular contexts. Cell type- and development-regulated splicings may lead to the inclusion or exclusion of <i>NF1</i>exon51, which bears a nuclear localization sequence (NLS) for nuclear import at G2; yet the functions of the produced NLS and ΔNLS neurofibromin isoforms have not been previously addressed. By using a lentiviral shRNA system, we have generated glioblastoma SF268 cell lines with conditional knockdown of NLS or ΔNLS transcripts. In dissecting the roles of NLS or ΔNLS neurofibromins, we found that NLS-neurofibromin knockdown led to increased density of cytosolic MTs but loss of MT intersections, anastral spindles featuring large hollows and abnormal chromosome positioning, and finally abnormal chromosome segregation and increased micronuclei frequency. Therefore, we propose that NLS neurofibromin isoforms exert prominent mitotic functions.
topic neurofibromin
neurofibromatosis
astral microtubules
astrocyte
glioblastoma
spindle assembly
url https://www.mdpi.com/2073-4409/9/11/2348
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AT emmanouellatsirimonaki nuclearisoformsofneurofibrominarerequiredforproperspindleorganizationandchromosomesegregation
AT dimitrissamouil nuclearisoformsofneurofibrominarerequiredforproperspindleorganizationandchromosomesegregation
AT kyriakigeorgiadou nuclearisoformsofneurofibrominarerequiredforproperspindleorganizationandchromosomesegregation
AT dimitramangoura nuclearisoformsofneurofibrominarerequiredforproperspindleorganizationandchromosomesegregation
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