HEATR2 Plays a Conserved Role in Assembly of the Ciliary Motile Apparatus

Cilia are highly conserved microtubule-based structures that perform a variety of sensory and motility functions during development and adult homeostasis. In humans, defects specifically affecting motile cilia lead to chronic airway infections, infertility and laterality defects in the genetically h...

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Autores principales: Diggle, Christine P., Moore, Daniel J., Mali, Girish, zur Lage, Petra, Ait-Lounis, Aouatef, Schmidts, Miriam, Shoemark, Amelia, Garcia Munoz, Amaya, Halachev, Mihail R., Gautier, Philippe, Yeyati, Patricia L., Bonthron, David T., Carr, Ian M., Hayward, Bruce, Markham, Alexander F., Hope, Jilly E., von Kriegsheim, Alex, Mitchison, Hannah M., Jackson, Ian J., Durand, Bénédicte, Reith, Walter, Sheridan, Eamonn, Jarman, Andrew P., Mill, Pleasantine
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4168999/
https://www.ncbi.nlm.nih.gov/pubmed/25232951
http://dx.doi.org/10.1371/journal.pgen.1004577
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author Diggle, Christine P.
Moore, Daniel J.
Mali, Girish
zur Lage, Petra
Ait-Lounis, Aouatef
Schmidts, Miriam
Shoemark, Amelia
Garcia Munoz, Amaya
Halachev, Mihail R.
Gautier, Philippe
Yeyati, Patricia L.
Bonthron, David T.
Carr, Ian M.
Hayward, Bruce
Markham, Alexander F.
Hope, Jilly E.
von Kriegsheim, Alex
Mitchison, Hannah M.
Jackson, Ian J.
Durand, Bénédicte
Reith, Walter
Sheridan, Eamonn
Jarman, Andrew P.
Mill, Pleasantine
author_facet Diggle, Christine P.
Moore, Daniel J.
Mali, Girish
zur Lage, Petra
Ait-Lounis, Aouatef
Schmidts, Miriam
Shoemark, Amelia
Garcia Munoz, Amaya
Halachev, Mihail R.
Gautier, Philippe
Yeyati, Patricia L.
Bonthron, David T.
Carr, Ian M.
Hayward, Bruce
Markham, Alexander F.
Hope, Jilly E.
von Kriegsheim, Alex
Mitchison, Hannah M.
Jackson, Ian J.
Durand, Bénédicte
Reith, Walter
Sheridan, Eamonn
Jarman, Andrew P.
Mill, Pleasantine
author_sort Diggle, Christine P.
collection PubMed
description Cilia are highly conserved microtubule-based structures that perform a variety of sensory and motility functions during development and adult homeostasis. In humans, defects specifically affecting motile cilia lead to chronic airway infections, infertility and laterality defects in the genetically heterogeneous disorder Primary Ciliary Dyskinesia (PCD). Using the comparatively simple Drosophila system, in which mechanosensory neurons possess modified motile cilia, we employed a recently elucidated cilia transcriptional RFX-FOX code to identify novel PCD candidate genes. Here, we report characterization of CG31320/HEATR2, which plays a conserved critical role in forming the axonemal dynein arms required for ciliary motility in both flies and humans. Inner and outer arm dyneins are absent from axonemes of CG31320 mutant flies and from PCD individuals with a novel splice-acceptor HEATR2 mutation. Functional conservation of closely arranged RFX-FOX binding sites upstream of HEATR2 orthologues may drive higher cytoplasmic expression of HEATR2 during early motile ciliogenesis. Immunoprecipitation reveals HEATR2 interacts with DNAI2, but not HSP70 or HSP90, distinguishing it from the client/chaperone functions described for other cytoplasmic proteins required for dynein arm assembly such as DNAAF1-4. These data implicate CG31320/HEATR2 in a growing intracellular pre-assembly and transport network that is necessary to deliver functional dynein machinery to the ciliary compartment for integration into the motile axoneme.
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spelling pubmed-41689992014-09-22 HEATR2 Plays a Conserved Role in Assembly of the Ciliary Motile Apparatus Diggle, Christine P. Moore, Daniel J. Mali, Girish zur Lage, Petra Ait-Lounis, Aouatef Schmidts, Miriam Shoemark, Amelia Garcia Munoz, Amaya Halachev, Mihail R. Gautier, Philippe Yeyati, Patricia L. Bonthron, David T. Carr, Ian M. Hayward, Bruce Markham, Alexander F. Hope, Jilly E. von Kriegsheim, Alex Mitchison, Hannah M. Jackson, Ian J. Durand, Bénédicte Reith, Walter Sheridan, Eamonn Jarman, Andrew P. Mill, Pleasantine PLoS Genet Research Article Cilia are highly conserved microtubule-based structures that perform a variety of sensory and motility functions during development and adult homeostasis. In humans, defects specifically affecting motile cilia lead to chronic airway infections, infertility and laterality defects in the genetically heterogeneous disorder Primary Ciliary Dyskinesia (PCD). Using the comparatively simple Drosophila system, in which mechanosensory neurons possess modified motile cilia, we employed a recently elucidated cilia transcriptional RFX-FOX code to identify novel PCD candidate genes. Here, we report characterization of CG31320/HEATR2, which plays a conserved critical role in forming the axonemal dynein arms required for ciliary motility in both flies and humans. Inner and outer arm dyneins are absent from axonemes of CG31320 mutant flies and from PCD individuals with a novel splice-acceptor HEATR2 mutation. Functional conservation of closely arranged RFX-FOX binding sites upstream of HEATR2 orthologues may drive higher cytoplasmic expression of HEATR2 during early motile ciliogenesis. Immunoprecipitation reveals HEATR2 interacts with DNAI2, but not HSP70 or HSP90, distinguishing it from the client/chaperone functions described for other cytoplasmic proteins required for dynein arm assembly such as DNAAF1-4. These data implicate CG31320/HEATR2 in a growing intracellular pre-assembly and transport network that is necessary to deliver functional dynein machinery to the ciliary compartment for integration into the motile axoneme. Public Library of Science 2014-09-18 /pmc/articles/PMC4168999/ /pubmed/25232951 http://dx.doi.org/10.1371/journal.pgen.1004577 Text en © 2014 Diggle et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Diggle, Christine P.
Moore, Daniel J.
Mali, Girish
zur Lage, Petra
Ait-Lounis, Aouatef
Schmidts, Miriam
Shoemark, Amelia
Garcia Munoz, Amaya
Halachev, Mihail R.
Gautier, Philippe
Yeyati, Patricia L.
Bonthron, David T.
Carr, Ian M.
Hayward, Bruce
Markham, Alexander F.
Hope, Jilly E.
von Kriegsheim, Alex
Mitchison, Hannah M.
Jackson, Ian J.
Durand, Bénédicte
Reith, Walter
Sheridan, Eamonn
Jarman, Andrew P.
Mill, Pleasantine
HEATR2 Plays a Conserved Role in Assembly of the Ciliary Motile Apparatus
title HEATR2 Plays a Conserved Role in Assembly of the Ciliary Motile Apparatus
title_full HEATR2 Plays a Conserved Role in Assembly of the Ciliary Motile Apparatus
title_fullStr HEATR2 Plays a Conserved Role in Assembly of the Ciliary Motile Apparatus
title_full_unstemmed HEATR2 Plays a Conserved Role in Assembly of the Ciliary Motile Apparatus
title_short HEATR2 Plays a Conserved Role in Assembly of the Ciliary Motile Apparatus
title_sort heatr2 plays a conserved role in assembly of the ciliary motile apparatus
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4168999/
https://www.ncbi.nlm.nih.gov/pubmed/25232951
http://dx.doi.org/10.1371/journal.pgen.1004577
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