Human fidgetin is a microtubule severing enzyme and minus-end depolymerase that regulates mitosis

Suranjana Mukherjee; J. Daniel Diaz Valencia; Shannon Stewman; Jeremy Metz; Sylvain Monnier; Uttama Rath; Ana B. Asenjo; Rabab A. Charafeddine; Hernando J. Sosa; Jennifer L. Ross; Ao Ma; David J. Sharp

doi:10.4161/cc.20849

Human fidgetin is a microtubule severing enzyme and minus-end depolymerase that regulates mitosis

Suranjana Mukherjee, J. Daniel Diaz Valencia, Shannon Stewman, Jeremy Metz, Sylvain Monnier, Uttama Rath, Ana B. Asenjo, Rabab A. Charafeddine, Hernando J. Sosa, Jennifer L. Ross, Ao Ma, David J. Sharp

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

51 Scopus citations

Abstract

Fidgetin is a member of the AAA protein superfamily with important roles in mammalian development. Here we show that human Fidgetin is a potent microtubule severing and depolymerizing enzyme used to regulate mitotic spindle architecture, dynamics and anaphase A. In vitro, recombinant human Fidgetin severs taxol-stabilized microtubules along their length and promotes depolymerization, primarily from their minus-ends. In cells, human Fidgetin targets to centrosomes, and its depletion with siRNA significantly reduces the velocity of poleward tubulin flux and anaphase A chromatid-to-pole motion. In addition, the loss of Fidgetin induces a microtubule-dependent enlargement of mitotic centrosomes and an increase in the number and length of astral microtubules. Based on these data, we propose that human Fidgetin actively suppresses microtubule growth from and attachment to centrosomes.

Original language	English (US)
Pages (from-to)	2359-2366
Number of pages	8
Journal	Cell Cycle
Volume	11
Issue number	12
DOIs	https://doi.org/10.4161/cc.20849
State	Published - Jun 15 2012

Keywords

Centrosome
Fidgetin
Microtubule severing enzymes
Microtubule-minus end depolymerase
Mitosis
Spindle

ASJC Scopus subject areas

Molecular Biology
Developmental Biology
Cell Biology

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10.4161/cc.20849

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title = "Human fidgetin is a microtubule severing enzyme and minus-end depolymerase that regulates mitosis",

abstract = "Fidgetin is a member of the AAA protein superfamily with important roles in mammalian development. Here we show that human Fidgetin is a potent microtubule severing and depolymerizing enzyme used to regulate mitotic spindle architecture, dynamics and anaphase A. In vitro, recombinant human Fidgetin severs taxol-stabilized microtubules along their length and promotes depolymerization, primarily from their minus-ends. In cells, human Fidgetin targets to centrosomes, and its depletion with siRNA significantly reduces the velocity of poleward tubulin flux and anaphase A chromatid-to-pole motion. In addition, the loss of Fidgetin induces a microtubule-dependent enlargement of mitotic centrosomes and an increase in the number and length of astral microtubules. Based on these data, we propose that human Fidgetin actively suppresses microtubule growth from and attachment to centrosomes.",

keywords = "Centrosome, Fidgetin, Microtubule severing enzymes, Microtubule-minus end depolymerase, Mitosis, Spindle",

author = "Suranjana Mukherjee and {Diaz Valencia}, {J. Daniel} and Shannon Stewman and Jeremy Metz and Sylvain Monnier and Uttama Rath and Asenjo, {Ana B.} and Charafeddine, {Rabab A.} and Sosa, {Hernando J.} and Ross, {Jennifer L.} and Ao Ma and Sharp, {David J.}",

note = "Funding Information: Measurement of spindle morphology. Control and FIGN-S.M., U.R. and D.J.S. were supported by NIH grant depleted cells were fixed using 100% methanol at -20°C and R01GM065940. S.S., J.M. and A.M. were supported by NIH immunostained for tubulin (DM1A, Sigma). Metaphase spin-grant R01GM086536. dles were imaged using a 4D spinning disk confocal micro- scope (PerkinElmer) with a 100x, 1.4NA objective. The average Supplemental Materials",

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month = jun,

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T1 - Human fidgetin is a microtubule severing enzyme and minus-end depolymerase that regulates mitosis

AU - Mukherjee, Suranjana

AU - Diaz Valencia, J. Daniel

AU - Stewman, Shannon

AU - Metz, Jeremy

AU - Monnier, Sylvain

AU - Rath, Uttama

AU - Asenjo, Ana B.

AU - Charafeddine, Rabab A.

AU - Sosa, Hernando J.

AU - Ross, Jennifer L.

AU - Ma, Ao

AU - Sharp, David J.

N1 - Funding Information: Measurement of spindle morphology. Control and FIGN-S.M., U.R. and D.J.S. were supported by NIH grant depleted cells were fixed using 100% methanol at -20°C and R01GM065940. S.S., J.M. and A.M. were supported by NIH immunostained for tubulin (DM1A, Sigma). Metaphase spin-grant R01GM086536. dles were imaged using a 4D spinning disk confocal micro- scope (PerkinElmer) with a 100x, 1.4NA objective. The average Supplemental Materials

PY - 2012/6/15

Y1 - 2012/6/15

N2 - Fidgetin is a member of the AAA protein superfamily with important roles in mammalian development. Here we show that human Fidgetin is a potent microtubule severing and depolymerizing enzyme used to regulate mitotic spindle architecture, dynamics and anaphase A. In vitro, recombinant human Fidgetin severs taxol-stabilized microtubules along their length and promotes depolymerization, primarily from their minus-ends. In cells, human Fidgetin targets to centrosomes, and its depletion with siRNA significantly reduces the velocity of poleward tubulin flux and anaphase A chromatid-to-pole motion. In addition, the loss of Fidgetin induces a microtubule-dependent enlargement of mitotic centrosomes and an increase in the number and length of astral microtubules. Based on these data, we propose that human Fidgetin actively suppresses microtubule growth from and attachment to centrosomes.

AB - Fidgetin is a member of the AAA protein superfamily with important roles in mammalian development. Here we show that human Fidgetin is a potent microtubule severing and depolymerizing enzyme used to regulate mitotic spindle architecture, dynamics and anaphase A. In vitro, recombinant human Fidgetin severs taxol-stabilized microtubules along their length and promotes depolymerization, primarily from their minus-ends. In cells, human Fidgetin targets to centrosomes, and its depletion with siRNA significantly reduces the velocity of poleward tubulin flux and anaphase A chromatid-to-pole motion. In addition, the loss of Fidgetin induces a microtubule-dependent enlargement of mitotic centrosomes and an increase in the number and length of astral microtubules. Based on these data, we propose that human Fidgetin actively suppresses microtubule growth from and attachment to centrosomes.

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KW - Microtubule severing enzymes

KW - Microtubule-minus end depolymerase

KW - Mitosis

KW - Spindle

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Human fidgetin is a microtubule severing enzyme and minus-end depolymerase that regulates mitosis

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