Molecular architecture of the Spire-actin nucleus and its implication for actin filament assembly

Tomasz Sitar; Julia Gallinger; Anna M. Ducka; Teemu P. Ikonen; Michael Wohlhoefler; Kurt M. Schmoller; Andreas R. Bausch; Peteranne Joel; Kathleen M. Trybus; Angelika A. Noegel; Michael Schleicher; Robert Huber; Tad A. Holak

doi:10.1073/pnas.1115465108

Molecular architecture of the Spire-actin nucleus and its implication for actin filament assembly

Tomasz Sitar
, Julia Gallinger
, Anna M. Ducka
, Teemu P. Ikonen
, Michael Wohlhoefler
, Kurt M. Schmoller
, Andreas R. Bausch
, Peteranne Joel
, Kathleen M. Trybus
, Angelika A. Noegel
, Michael Schleicher
, Robert Huber
, Tad A. Holak

Chair of Cellular Biophysics

Max Planck Institute of Biochemistry
University of Munich
Paul Scherrer Institut
Technical University of Munich
University of Vermont
University of Cologne
Cardiff University
University of Duisburg-Essen

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

22 Scopus citations

Abstract

The Spire protein is a multifunctional regulator of actin assembly. We studied the structures and properties of Spire-actin complexes by X-ray scattering, X-ray crystallography, total internal reflection fluorescence microscopy, and actin polymerization assays.We show that Spire-actin complexes in solution assume a unique, longitudinal- like shape, in which Wiskott-Aldrich syndrome protein homology 2 domains (WH2), in an extended configuration, line up actins along the long axis of the core of the Spire-actin particle. In the complex, the kinase noncatalytic C-lobe domain is positioned at the side of the first N-terminal Spire-actin module. In addition, we find that preformed, isolated Spire-actin complexes are very efficient nucleators of polymerization and afterward dissociate from the growing filament. However, under certain conditions, all Spire constructs-even a single WH2 repeat-sequester actin and disrupt existing filaments. This molecular and structural mechanism of actin polymerization by Spire should apply to other actin-binding proteins that contain WH2 domains in tandem.

Original language	English
Pages (from-to)	19575-19580
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	108
Issue number	49
DOIs	https://doi.org/10.1073/pnas.1115465108
State	Published - 6 Dec 2011

Keywords

Cytoskeleton
Nucleation

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10.1073/pnas.1115465108

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Sitar, T., Gallinger, J., Ducka, A. M., Ikonen, T. P., Wohlhoefler, M., Schmoller, K. M., Bausch, A. R., Joel, P., Trybus, K. M., Noegel, A. A., Schleicher, M., Huber, R., & Holak, T. A. (2011). Molecular architecture of the Spire-actin nucleus and its implication for actin filament assembly. Proceedings of the National Academy of Sciences of the United States of America, 108(49), 19575-19580. https://doi.org/10.1073/pnas.1115465108

@article{3c51773df3924466a167fc39963da085,

title = "Molecular architecture of the Spire-actin nucleus and its implication for actin filament assembly",

abstract = "The Spire protein is a multifunctional regulator of actin assembly. We studied the structures and properties of Spire-actin complexes by X-ray scattering, X-ray crystallography, total internal reflection fluorescence microscopy, and actin polymerization assays.We show that Spire-actin complexes in solution assume a unique, longitudinal- like shape, in which Wiskott-Aldrich syndrome protein homology 2 domains (WH2), in an extended configuration, line up actins along the long axis of the core of the Spire-actin particle. In the complex, the kinase noncatalytic C-lobe domain is positioned at the side of the first N-terminal Spire-actin module. In addition, we find that preformed, isolated Spire-actin complexes are very efficient nucleators of polymerization and afterward dissociate from the growing filament. However, under certain conditions, all Spire constructs-even a single WH2 repeat-sequester actin and disrupt existing filaments. This molecular and structural mechanism of actin polymerization by Spire should apply to other actin-binding proteins that contain WH2 domains in tandem.",

keywords = "Cytoskeleton, Nucleation",

author = "Tomasz Sitar and Julia Gallinger and Ducka, \{Anna M.\} and Ikonen, \{Teemu P.\} and Michael Wohlhoefler and Schmoller, \{Kurt M.\} and Bausch, \{Andreas R.\} and Peteranne Joel and Trybus, \{Kathleen M.\} and Noegel, \{Angelika A.\} and Michael Schleicher and Robert Huber and Holak, \{Tad A.\}",

year = "2011",

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doi = "10.1073/pnas.1115465108",

language = "English",

volume = "108",

pages = "19575--19580",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

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publisher = "National Academy of Sciences",

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Sitar, T, Gallinger, J, Ducka, AM, Ikonen, TP, Wohlhoefler, M, Schmoller, KM, Bausch, AR, Joel, P, Trybus, KM, Noegel, AA, Schleicher, M, Huber, R & Holak, TA 2011, 'Molecular architecture of the Spire-actin nucleus and its implication for actin filament assembly', Proceedings of the National Academy of Sciences of the United States of America, vol. 108, no. 49, pp. 19575-19580. https://doi.org/10.1073/pnas.1115465108

TY - JOUR

T1 - Molecular architecture of the Spire-actin nucleus and its implication for actin filament assembly

AU - Sitar, Tomasz

AU - Gallinger, Julia

AU - Ducka, Anna M.

AU - Ikonen, Teemu P.

AU - Wohlhoefler, Michael

AU - Schmoller, Kurt M.

AU - Bausch, Andreas R.

AU - Joel, Peteranne

AU - Trybus, Kathleen M.

AU - Noegel, Angelika A.

AU - Schleicher, Michael

AU - Huber, Robert

AU - Holak, Tad A.

PY - 2011/12/6

Y1 - 2011/12/6

N2 - The Spire protein is a multifunctional regulator of actin assembly. We studied the structures and properties of Spire-actin complexes by X-ray scattering, X-ray crystallography, total internal reflection fluorescence microscopy, and actin polymerization assays.We show that Spire-actin complexes in solution assume a unique, longitudinal- like shape, in which Wiskott-Aldrich syndrome protein homology 2 domains (WH2), in an extended configuration, line up actins along the long axis of the core of the Spire-actin particle. In the complex, the kinase noncatalytic C-lobe domain is positioned at the side of the first N-terminal Spire-actin module. In addition, we find that preformed, isolated Spire-actin complexes are very efficient nucleators of polymerization and afterward dissociate from the growing filament. However, under certain conditions, all Spire constructs-even a single WH2 repeat-sequester actin and disrupt existing filaments. This molecular and structural mechanism of actin polymerization by Spire should apply to other actin-binding proteins that contain WH2 domains in tandem.

AB - The Spire protein is a multifunctional regulator of actin assembly. We studied the structures and properties of Spire-actin complexes by X-ray scattering, X-ray crystallography, total internal reflection fluorescence microscopy, and actin polymerization assays.We show that Spire-actin complexes in solution assume a unique, longitudinal- like shape, in which Wiskott-Aldrich syndrome protein homology 2 domains (WH2), in an extended configuration, line up actins along the long axis of the core of the Spire-actin particle. In the complex, the kinase noncatalytic C-lobe domain is positioned at the side of the first N-terminal Spire-actin module. In addition, we find that preformed, isolated Spire-actin complexes are very efficient nucleators of polymerization and afterward dissociate from the growing filament. However, under certain conditions, all Spire constructs-even a single WH2 repeat-sequester actin and disrupt existing filaments. This molecular and structural mechanism of actin polymerization by Spire should apply to other actin-binding proteins that contain WH2 domains in tandem.

KW - Cytoskeleton

KW - Nucleation

UR - https://www.scopus.com/pages/publications/83755207419

U2 - 10.1073/pnas.1115465108

DO - 10.1073/pnas.1115465108

M3 - Article

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AN - SCOPUS:83755207419

SN - 0027-8424

VL - 108

SP - 19575

EP - 19580

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 49

ER -

Molecular architecture of the Spire-actin nucleus and its implication for actin filament assembly

Abstract

Keywords

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