The XLID Protein PQBP1 and the GTPase Dynamin 2 Define a Signaling Link that Orchestrates Ciliary Morphogenesis in Postmitotic Neurons

The XLID Protein PQBP1 and the GTPase Dynamin 2 Define a Signaling Link that Orchestrates Ciliary Morphogenesis in Postmitotic Neurons

Intellectual disability (ID) is a prevalent developmental disorder of cognition that remains incurable. Here, we report that knockdown of the X-linked ID (XLID) protein polyglutamine-binding protein 1 (PQBP1) in neurons profoundly impairs the morphogenesis of the primary cilium, including in the mo...

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Main Authors: Yoshiho Ikeuchi, Luis de la Torre-Ubieta, Takahiko Matsuda, Hanno Steen, Hitoshi Okazawa, Azad Bonni
Format: Article
Language:English
Published: Elsevier 2013-09-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S221112471300404X
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spelling doaj-fdf332c0c7824c1da6bc77850980a77f2020-11-25T01:14:52ZengElsevierCell Reports2211-12472013-09-014587988910.1016/j.celrep.2013.07.042The XLID Protein PQBP1 and the GTPase Dynamin 2 Define a Signaling Link that Orchestrates Ciliary Morphogenesis in Postmitotic NeuronsYoshiho Ikeuchi0Luis de la Torre-Ubieta1Takahiko Matsuda2Hanno Steen3Hitoshi Okazawa4Azad Bonni5Department of Anatomy and Neurobiology, Washington University School of Medicine, St. Louis, MO 63110, USADepartment of Neurobiology, Harvard Medical School, Boston, MA 02115, USADepartment of Genetics, Harvard Medical School, Boston, MA 02115, USADepartment of Pathology, Boston Children’s Hospital and Harvard Medical School, Boston, MA 02115, USADepartment of Neuropathology, Medical Research Institute, Tokyo Medical and Dental University, Bunkyo-ku, Tokyo 113-8510, JapanDepartment of Anatomy and Neurobiology, Washington University School of Medicine, St. Louis, MO 63110, USA Intellectual disability (ID) is a prevalent developmental disorder of cognition that remains incurable. Here, we report that knockdown of the X-linked ID (XLID) protein polyglutamine-binding protein 1 (PQBP1) in neurons profoundly impairs the morphogenesis of the primary cilium, including in the mouse cerebral cortex in vivo. PQBP1 is localized at the base of the neuronal cilium, and targeting its WW effector domain to the cilium stimulates ciliary morphogenesis. We also find that PQBP1 interacts with Dynamin 2 and thereby inhibits its GTPase activity. Accordingly, Dynamin 2 knockdown in neurons stimulates ciliogenesis and suppresses the PQBP1 knockdown-induced ciliary phenotype. Strikingly, a mutation of the PQBP1 WW domain that causes XLID disrupts its ability to interact with and inhibit Dynamin 2 and to induce neuronal ciliogenesis. These findings define PQBP1 and Dynamin 2 as components of a signaling pathway that orchestrates neuronal ciliary morphogenesis in the brain. http://www.sciencedirect.com/science/article/pii/S221112471300404X
collection DOAJ
language English
format Article
sources DOAJ
author Yoshiho Ikeuchi
Luis de la Torre-Ubieta
Takahiko Matsuda
Hanno Steen
Hitoshi Okazawa
Azad Bonni
spellingShingle Yoshiho Ikeuchi
Luis de la Torre-Ubieta
Takahiko Matsuda
Hanno Steen
Hitoshi Okazawa
Azad Bonni
The XLID Protein PQBP1 and the GTPase Dynamin 2 Define a Signaling Link that Orchestrates Ciliary Morphogenesis in Postmitotic Neurons
Cell Reports
author_facet Yoshiho Ikeuchi
Luis de la Torre-Ubieta
Takahiko Matsuda
Hanno Steen
Hitoshi Okazawa
Azad Bonni
author_sort Yoshiho Ikeuchi
title The XLID Protein PQBP1 and the GTPase Dynamin 2 Define a Signaling Link that Orchestrates Ciliary Morphogenesis in Postmitotic Neurons
title_short The XLID Protein PQBP1 and the GTPase Dynamin 2 Define a Signaling Link that Orchestrates Ciliary Morphogenesis in Postmitotic Neurons
title_full The XLID Protein PQBP1 and the GTPase Dynamin 2 Define a Signaling Link that Orchestrates Ciliary Morphogenesis in Postmitotic Neurons
title_fullStr The XLID Protein PQBP1 and the GTPase Dynamin 2 Define a Signaling Link that Orchestrates Ciliary Morphogenesis in Postmitotic Neurons
title_full_unstemmed The XLID Protein PQBP1 and the GTPase Dynamin 2 Define a Signaling Link that Orchestrates Ciliary Morphogenesis in Postmitotic Neurons
title_sort xlid protein pqbp1 and the gtpase dynamin 2 define a signaling link that orchestrates ciliary morphogenesis in postmitotic neurons
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2013-09-01
description Intellectual disability (ID) is a prevalent developmental disorder of cognition that remains incurable. Here, we report that knockdown of the X-linked ID (XLID) protein polyglutamine-binding protein 1 (PQBP1) in neurons profoundly impairs the morphogenesis of the primary cilium, including in the mouse cerebral cortex in vivo. PQBP1 is localized at the base of the neuronal cilium, and targeting its WW effector domain to the cilium stimulates ciliary morphogenesis. We also find that PQBP1 interacts with Dynamin 2 and thereby inhibits its GTPase activity. Accordingly, Dynamin 2 knockdown in neurons stimulates ciliogenesis and suppresses the PQBP1 knockdown-induced ciliary phenotype. Strikingly, a mutation of the PQBP1 WW domain that causes XLID disrupts its ability to interact with and inhibit Dynamin 2 and to induce neuronal ciliogenesis. These findings define PQBP1 and Dynamin 2 as components of a signaling pathway that orchestrates neuronal ciliary morphogenesis in the brain.
url http://www.sciencedirect.com/science/article/pii/S221112471300404X
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