Novel role of the muskelin-RanBP9 complex as a nucleocytoplasmic mediator of cell morphology regulation

Manojkumar Valiyaveettil; Amber A. Bentley; Priya Gursahaney; Rajaa Hussien; Ritu Chakravarti; Nina Kureishy; Soren Prag; Josephine C. Adams

doi:10.1083/jcb.200801133

Novel role of the muskelin-RanBP9 complex as a nucleocytoplasmic mediator of cell morphology regulation

Manojkumar Valiyaveettil, Amber A. Bentley, Priya Gursahaney, Rajaa Hussien, Ritu Chakravarti, Nina Kureishy, Soren Prag, Josephine C. Adams

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

58 Scopus citations

Abstract

The evolutionarily conserved kelch-repeat protein muskelin was identified as an intracellular mediator of cell spreading. We discovered that its morphological activity is controlled by association with RanBP9/ RanBPM, a protein involved in transmembrane signaling and a conserved intracellular protein complex. By subcellular fractionation, endogenous muskelin is present in both the nucleus and the cytosol. Muskelin subcellular localization is coregulated by its C terminus, which provides a cytoplasmic restraint and also controls the interaction of muskelin with RanBP9, and its atypical lissencephaly-1 homology motif, which has a nuclear localization activity which is regulated by the status of the C terminus. Transient or stable short interfering RNA-based knockdown of muskelin resulted in protrusive cell morphologies with enlarged cell perimeters. Morphology was specifically restored by complementary DNAs encoding forms of muskelin with full activity of the C terminus for cytoplasmic localization and RanBP9 binding. Knockdown of RanBP9 resulted in equivalent morphological alterations. These novel findings identify a role for muskelin-RanBP9 complex in pathways that integrate cell morphology regulation and nucleocytoplasmic communication.

Original language	English
Pages (from-to)	727-739
Number of pages	13
Journal	Journal of Cell Biology
Volume	182
Issue number	4
DOIs	https://doi.org/10.1083/jcb.200801133
State	Published - Aug 25 2008

Funding

Funders	Funder number
National Institute of General Medical Sciences DP2GM119177 Sophie Dumont National Institute of General Medical Sciences	R01GM068073
National Institute of General Medical Sciences DP2GM119177 Sophie Dumont National Institute of General Medical Sciences

ASJC Scopus subject areas

Cell Biology

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10.1083/jcb.200801133

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title = "Novel role of the muskelin-RanBP9 complex as a nucleocytoplasmic mediator of cell morphology regulation",

abstract = "The evolutionarily conserved kelch-repeat protein muskelin was identified as an intracellular mediator of cell spreading. We discovered that its morphological activity is controlled by association with RanBP9/ RanBPM, a protein involved in transmembrane signaling and a conserved intracellular protein complex. By subcellular fractionation, endogenous muskelin is present in both the nucleus and the cytosol. Muskelin subcellular localization is coregulated by its C terminus, which provides a cytoplasmic restraint and also controls the interaction of muskelin with RanBP9, and its atypical lissencephaly-1 homology motif, which has a nuclear localization activity which is regulated by the status of the C terminus. Transient or stable short interfering RNA-based knockdown of muskelin resulted in protrusive cell morphologies with enlarged cell perimeters. Morphology was specifically restored by complementary DNAs encoding forms of muskelin with full activity of the C terminus for cytoplasmic localization and RanBP9 binding. Knockdown of RanBP9 resulted in equivalent morphological alterations. These novel findings identify a role for muskelin-RanBP9 complex in pathways that integrate cell morphology regulation and nucleocytoplasmic communication.",

author = "Manojkumar Valiyaveettil and Bentley, \{Amber A.\} and Priya Gursahaney and Rajaa Hussien and Ritu Chakravarti and Nina Kureishy and Soren Prag and Adams, \{Josephine C.\}",

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AU - Valiyaveettil, Manojkumar

AU - Bentley, Amber A.

AU - Gursahaney, Priya

AU - Hussien, Rajaa

AU - Chakravarti, Ritu

AU - Kureishy, Nina

AU - Prag, Soren

AU - Adams, Josephine C.

PY - 2008/8/25

Y1 - 2008/8/25

N2 - The evolutionarily conserved kelch-repeat protein muskelin was identified as an intracellular mediator of cell spreading. We discovered that its morphological activity is controlled by association with RanBP9/ RanBPM, a protein involved in transmembrane signaling and a conserved intracellular protein complex. By subcellular fractionation, endogenous muskelin is present in both the nucleus and the cytosol. Muskelin subcellular localization is coregulated by its C terminus, which provides a cytoplasmic restraint and also controls the interaction of muskelin with RanBP9, and its atypical lissencephaly-1 homology motif, which has a nuclear localization activity which is regulated by the status of the C terminus. Transient or stable short interfering RNA-based knockdown of muskelin resulted in protrusive cell morphologies with enlarged cell perimeters. Morphology was specifically restored by complementary DNAs encoding forms of muskelin with full activity of the C terminus for cytoplasmic localization and RanBP9 binding. Knockdown of RanBP9 resulted in equivalent morphological alterations. These novel findings identify a role for muskelin-RanBP9 complex in pathways that integrate cell morphology regulation and nucleocytoplasmic communication.

AB - The evolutionarily conserved kelch-repeat protein muskelin was identified as an intracellular mediator of cell spreading. We discovered that its morphological activity is controlled by association with RanBP9/ RanBPM, a protein involved in transmembrane signaling and a conserved intracellular protein complex. By subcellular fractionation, endogenous muskelin is present in both the nucleus and the cytosol. Muskelin subcellular localization is coregulated by its C terminus, which provides a cytoplasmic restraint and also controls the interaction of muskelin with RanBP9, and its atypical lissencephaly-1 homology motif, which has a nuclear localization activity which is regulated by the status of the C terminus. Transient or stable short interfering RNA-based knockdown of muskelin resulted in protrusive cell morphologies with enlarged cell perimeters. Morphology was specifically restored by complementary DNAs encoding forms of muskelin with full activity of the C terminus for cytoplasmic localization and RanBP9 binding. Knockdown of RanBP9 resulted in equivalent morphological alterations. These novel findings identify a role for muskelin-RanBP9 complex in pathways that integrate cell morphology regulation and nucleocytoplasmic communication.

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Novel role of the muskelin-RanBP9 complex as a nucleocytoplasmic mediator of cell morphology regulation

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