Fidgetin-like 1 is a ciliogenesis-inhibitory centrosome protein

Zhao, Xiaoyu; Jin, Miaomiao; Wang, Mengzhu; Sun, Lili; Hong, Xuejiao; Wang, Chunguang

doi:10.1080/15384101.2016.1204059

Cited by 11 publications

(10 citation statements)

References 39 publications

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“…VPS4 is a member of a family of AAA ATPase proteins that includes the microtubule severing proteins spastin, katanin and fidgetin 39 , which have also been shown to localize to centrosomes and spindle poles 40 – 43 . Disruption of the ESCRT-independent activity of VPS4 at the centrosome echoes phenotypes of disrupting activity of other AAA ATPase family members: a mutation that prevents katanin ATP hydrolysis reduces the volume of γ-tubulin at spindle poles 44 and changes in the expression levels and activity of fidgetin-like 1 affect ciliogenesis and alter the protein composition of the centrosome 45 . The shared evolutionary origins and similarity of the misregulation consequences at the centrosome raise the possibility that, like other members of the family, VPS4 at the centrosome could target microtubules.…”

Section: Discussionmentioning

confidence: 99%

VPS4 is a dynamic component of the centrosome that regulates centrosome localization of γ-tubulin, centriolar satellite stability and ciliogenesis

Ott

Nachmias

Adar

et al. 2018

Sci Rep

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The hexameric AAA ATPase VPS4 facilitates ESCRT III filament disassembly on diverse intracellular membranes. ESCRT III components and VPS4 have been localized to the ciliary transition zone and spindle poles and reported to affect centrosome duplication and spindle pole stability. How the canonical ESCRT pathway could mediate these events is unclear. We studied the association of VPS4 with centrosomes and found that GFP-VPS4 was a dynamic component of both mother and daughter centrioles. A mutant, VPS4EQ, which can’t hydrolyze ATP, was less dynamic and accumulated at centrosomes. Centrosome localization of the VPS4EQ mutant, caused reduced γ-tubulin levels at centrosomes and consequently decreased microtubule growth and altered centrosome positioning. In addition, preventing VPS4 ATP hydrolysis nearly eliminated centriolar satellites and paused ciliogensis after formation of the ciliary vesicle. Zebrafish embryos injected with GFP-VPS4EQ mRNA were less viable, exhibited developmental defects and had fewer cilia in Kupffer’s vesicle. Surprisingly, ESCRT III proteins seldom localized to centrosomes and their depletion did not lead to these phenotypes. Our data support an ESCRT III-independent function for VPS4 at the centrosome and reveal that this evolutionary conserved AAA ATPase influences diverse centrosome functions and, as a result, global cellular architecture and development.

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Section: Discussionmentioning

confidence: 99%

VPS4 is a dynamic component of the centrosome that regulates centrosome localization of γ-tubulin, centriolar satellite stability and ciliogenesis

Ott

Nachmias

Adar

et al. 2018

Sci Rep

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“…Although there may exist essential and conserved function domains among FIGNL1s, molecular and biological functions of the AAA family members may have diverged among different species. For example, Zhao et al (2016) recently found that human FIGNL1 localizes at centrosomes, and is involved in ciliogenesis. Previous reports showed that C. elegans FIGNL1 binds to microtubules and controls mitotic progression in the germ line ( Luke-Glaser et al, 2007 ).…”

Section: Discussionmentioning

confidence: 99%

The Rice AAA-ATPase OsFIGNL1 Is Essential for Male Meiosis

Zhang

Sun

et al. 2017

Front. Plant Sci.

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Meiosis is crucial in reproduction of plants and ensuring genetic diversity. Although several genes involved in homologous recombination and DNA repair have been reported, their functions in rice (Oryza sativa) male meiosis remain poorly understood. Here, we isolated and characterized the rice OsFIGNL1 (OsFidgetin-like 1) gene, encoding a conserved AAA-ATPase, and explored its function and importance in male meiosis and pollen formation. The rice Osfignl1 mutant exhibited normal vegetative growth, but failed to produce seeds and displayed pollen abortion phenotype. Phenotypic comparisons between the wild-type and Osfignl1 mutant demonstrated that OsFIGNL1 is required for anther development, and that the recessive mutation of this gene causes male sterility in rice. Complementation and CRISPR/Cas9 experiments demonstrated that wild-type OsFIGNL1 is responsible for the male sterility phenotype. Subcellular localization showed that OsFIGNL1-green fluorescent protein was exclusively localized in the nucleus of rice protoplasts. Male meiosis in the Osfignl1 mutant exhibited abnormal chromosome behavior, including chromosome bridges and multivalent chromosomes at diakinesis, lagging chromosomes, and chromosome fragments during meiosis. Yeast two-hybrid assays demonstrated OsFIGNL1 could interact with RAD51A1, RAD51A2, DMC1A, DMC1B, and these physical interactions were further confirmed by BiFC assay. Taken together, our results suggest that OsFIGNL1 plays an important role in regulation of male meiosis and anther development.

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“…These MT-severing enzymes belong to the meiotic clade of the ATPases associated with diverse cellular activities (AAA+) superfamily together with their subsequently discovered paralogues, katanin-like 1, katanin-like 2, fidgetin-like 1 (Fignl1), and fidgetin-like 2 ( Hanson and Whiteheart, 2005 ; Yang et al, 2005 ; Roll-Mecak and McNally, 2010 ; Sharp and Ross, 2012 ). Among these paralogues, Fignl1 was shown to bind MTs in vitro and to participate in MT-dependent cellular processes such as mitosis ( Luke-Glaser et al, 2007 ) and ciliogenesis ( Zhao et al, 2016 ). However, its exact mode of action and its role in vertebrate nervous system development remained poorly explored.…”

Section: Introductionmentioning

confidence: 99%