The Golgi-associated Hook3 protein is a member of a novel family of microtubule-binding proteins

Jason H. Walenta; Aaron J. Didier; Xinran Liu; Helmut Krämer

doi:10.1083/jcb.152.5.923

The Golgi-associated Hook3 protein is a member of a novel family of microtubule-binding proteins

Jason H. Walenta, Aaron J. Didier, Xinran Liu, Helmut Krämer

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

161 Scopus citations

Abstract

Microtubules are central to the spatial organization of diverse membrane- trafficking systems. Here, we report that Hook proteins constitute a novel family of cytosolic coiled coil proteins that bind to organelles and to microtubules. The conserved NH₂-terminal domains of Hook proteins mediate attachment to microtubules, whereas the more divergent COOH-terminal domains mediate the binding to organelles. Human Hook3 bound to Golgi membranes in vitro and was enriched in the cis-Golgi in vivo. Unlike other cis-Golgi-associated proteins, however, a large fraction of Hook3 maintained its juxtanuclear localization after Brefeldin A treatment, indicating a Golgi-independent mechanism for Hook3 localization. Because overexpression of Hook3 caused fragmentation of the Golgi complex, we propose that Hook3 participates in defining the architecture and localization of the mammalian Golgi complex.

Original language	English (US)
Pages (from-to)	923-934
Number of pages	12
Journal	Journal of Cell Biology
Volume	152
Issue number	5
DOIs	https://doi.org/10.1083/jcb.152.5.923
State	Published - Mar 5 2001

Keywords

Brefeldin A
Endosomes
Golgi complex
Hook protein
Membrane trafficking

ASJC Scopus subject areas

Cell Biology

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10.1083/jcb.152.5.923

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title = "The Golgi-associated Hook3 protein is a member of a novel family of microtubule-binding proteins",

abstract = "Microtubules are central to the spatial organization of diverse membrane- trafficking systems. Here, we report that Hook proteins constitute a novel family of cytosolic coiled coil proteins that bind to organelles and to microtubules. The conserved NH2-terminal domains of Hook proteins mediate attachment to microtubules, whereas the more divergent COOH-terminal domains mediate the binding to organelles. Human Hook3 bound to Golgi membranes in vitro and was enriched in the cis-Golgi in vivo. Unlike other cis-Golgi-associated proteins, however, a large fraction of Hook3 maintained its juxtanuclear localization after Brefeldin A treatment, indicating a Golgi-independent mechanism for Hook3 localization. Because overexpression of Hook3 caused fragmentation of the Golgi complex, we propose that Hook3 participates in defining the architecture and localization of the mammalian Golgi complex.",

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author = "Walenta, {Jason H.} and Didier, {Aaron J.} and Xinran Liu and Helmut Kr{\"a}mer",

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AU - Walenta, Jason H.

AU - Didier, Aaron J.

AU - Liu, Xinran

AU - Krämer, Helmut

PY - 2001/3/5

Y1 - 2001/3/5

N2 - Microtubules are central to the spatial organization of diverse membrane- trafficking systems. Here, we report that Hook proteins constitute a novel family of cytosolic coiled coil proteins that bind to organelles and to microtubules. The conserved NH2-terminal domains of Hook proteins mediate attachment to microtubules, whereas the more divergent COOH-terminal domains mediate the binding to organelles. Human Hook3 bound to Golgi membranes in vitro and was enriched in the cis-Golgi in vivo. Unlike other cis-Golgi-associated proteins, however, a large fraction of Hook3 maintained its juxtanuclear localization after Brefeldin A treatment, indicating a Golgi-independent mechanism for Hook3 localization. Because overexpression of Hook3 caused fragmentation of the Golgi complex, we propose that Hook3 participates in defining the architecture and localization of the mammalian Golgi complex.

AB - Microtubules are central to the spatial organization of diverse membrane- trafficking systems. Here, we report that Hook proteins constitute a novel family of cytosolic coiled coil proteins that bind to organelles and to microtubules. The conserved NH2-terminal domains of Hook proteins mediate attachment to microtubules, whereas the more divergent COOH-terminal domains mediate the binding to organelles. Human Hook3 bound to Golgi membranes in vitro and was enriched in the cis-Golgi in vivo. Unlike other cis-Golgi-associated proteins, however, a large fraction of Hook3 maintained its juxtanuclear localization after Brefeldin A treatment, indicating a Golgi-independent mechanism for Hook3 localization. Because overexpression of Hook3 caused fragmentation of the Golgi complex, we propose that Hook3 participates in defining the architecture and localization of the mammalian Golgi complex.

KW - Brefeldin A

KW - Endosomes

KW - Golgi complex

KW - Hook protein

KW - Membrane trafficking

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JO - Journal of Cell Biology

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The Golgi-associated Hook3 protein is a member of a novel family of microtubule-binding proteins

Abstract

Keywords

ASJC Scopus subject areas

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