Literature DB >> 21131972

CCDC39 is required for assembly of inner dynein arms and the dynein regulatory complex and for normal ciliary motility in humans and dogs.

Anne-Christine Merveille1, Erica E Davis, Anita Becker-Heck, Marie Legendre, Israel Amirav, Géraldine Bataille, John Belmont, Nicole Beydon, Frédéric Billen, Annick Clément, Cécile Clercx, André Coste, Rachelle Crosbie, Jacques de Blic, Stephane Deleuze, Philippe Duquesnoy, Denise Escalier, Estelle Escudier, Manfred Fliegauf, Judith Horvath, Kent Hill, Mark Jorissen, Jocelyne Just, Andreas Kispert, Mark Lathrop, Niki Tomas Loges, June K Marthin, Yukihide Momozawa, Guy Montantin, Kim G Nielsen, Heike Olbrich, Jean-François Papon, Isabelle Rayet, Gilles Roger, Miriam Schmidts, Henrique Tenreiro, Jeffrey A Towbin, Diana Zelenika, Hanswalter Zentgraf, Michel Georges, Anne-Sophie Lequarré, Nicholas Katsanis, Heymut Omran, Serge Amselem.   

Abstract

Primary ciliary dyskinesia (PCD) is an inherited disorder characterized by recurrent infections of the upper and lower respiratory tract, reduced fertility in males and situs inversus in about 50% of affected individuals (Kartagener syndrome). It is caused by motility defects in the respiratory cilia that are responsible for airway clearance, the flagella that propel sperm cells and the nodal monocilia that determine left-right asymmetry. Recessive mutations that cause PCD have been identified in genes encoding components of the outer dynein arms, radial spokes and cytoplasmic pre-assembly factors of axonemal dyneins, but these mutations account for only about 50% of cases of PCD. We exploited the unique properties of dog populations to positionally clone a new PCD gene, CCDC39. We found that loss-of-function mutations in the human ortholog underlie a substantial fraction of PCD cases with axonemal disorganization and abnormal ciliary beating. Functional analyses indicated that CCDC39 localizes to ciliary axonemes and is essential for assembly of inner dynein arms and the dynein regulatory complex.

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Year:  2010        PMID: 21131972      PMCID: PMC3509786          DOI: 10.1038/ng.726

Source DB:  PubMed          Journal:  Nat Genet        ISSN: 1061-4036            Impact factor:   38.330


  28 in total

1.  All-digital image capture and whole-field analysis of ciliary beat frequency.

Authors:  J H Sisson; J A Stoner; B A Ammons; T A Wyatt
Journal:  J Microsc       Date:  2003-08       Impact factor: 1.758

2.  Mutations in DNAH5 cause primary ciliary dyskinesia and randomization of left-right asymmetry.

Authors:  Heike Olbrich; Karsten Häffner; Andreas Kispert; Alexander Völkel; Andreas Volz; Gürsel Sasmaz; Richard Reinhardt; Steffen Hennig; Hans Lehrach; Nikolaus Konietzko; Maimoona Zariwala; Peadar G Noone; Michael Knowles; Hannah M Mitchison; Maggie Meeks; Eddie M K Chung; Friedhelm Hildebrandt; Ralf Sudbrak; Heymut Omran
Journal:  Nat Genet       Date:  2002-01-14       Impact factor: 38.330

3.  T lymphocyte-triggering factor of african trypanosomes is associated with the flagellar fraction of the cytoskeleton and represents a new family of proteins that are present in several divergent eukaryotes.

Authors:  K L Hill; N R Hutchings; P M Grandgenett; J E Donelson
Journal:  J Biol Chem       Date:  2000-12-15       Impact factor: 5.157

4.  Suppressor mutations in Chlamydomonas reveal a regulatory mechanism for Flagellar function.

Authors:  B Huang; Z Ramanis; D J Luck
Journal:  Cell       Date:  1982-01       Impact factor: 41.582

5.  Mislocalization of DNAH5 and DNAH9 in respiratory cells from patients with primary ciliary dyskinesia.

Authors:  Manfred Fliegauf; Heike Olbrich; Judit Horvath; Johannes H Wildhaber; Maimoona A Zariwala; Marcus Kennedy; Michael R Knowles; Heymut Omran
Journal:  Am J Respir Crit Care Med       Date:  2005-03-04       Impact factor: 21.405

6.  The inner dynein arms I2 interact with a "dynein regulatory complex" in Chlamydomonas flagella.

Authors:  G Piperno; K Mead; W Shestak
Journal:  J Cell Biol       Date:  1992-09       Impact factor: 10.539

7.  Proteomic analysis of a eukaryotic cilium.

Authors:  Gregory J Pazour; Nathan Agrin; John Leszyk; George B Witman
Journal:  J Cell Biol       Date:  2005-07-04       Impact factor: 10.539

8.  Mutations in the "dynein regulatory complex" alter the ATP-insensitive binding sites for inner arm dyneins in Chlamydomonas axonemes.

Authors:  G Piperno; K Mead; M LeDizet; A Moscatelli
Journal:  J Cell Biol       Date:  1994-06       Impact factor: 10.539

9.  A subunit of the dynein regulatory complex in Chlamydomonas is a homologue of a growth arrest-specific gene product.

Authors:  Gerald Rupp; Mary E Porter
Journal:  J Cell Biol       Date:  2003-07-07       Impact factor: 10.539

10.  Inner dynein arms but not outer dynein arms require the activity of kinesin homologue protein KHP1(FLA10) to reach the distal part of flagella in Chlamydomonas.

Authors:  G Piperno; K Mead; S Henderson
Journal:  J Cell Biol       Date:  1996-04       Impact factor: 10.539
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  143 in total

1.  Annotation of the domestic dog genome sequence: finding the missing genes.

Authors:  Thomas Derrien; Amaury Vaysse; Catherine André; Christophe Hitte
Journal:  Mamm Genome       Date:  2011-11-11       Impact factor: 2.957

2.  Coiled-coils and motile cilia.

Authors:  Peter Satir
Journal:  Nat Genet       Date:  2011-01       Impact factor: 38.330

Review 3.  Primary ciliary dyskinesia, an orphan disease.

Authors:  Mieke Boon; Mark Jorissen; Marijke Proesmans; Kris De Boeck
Journal:  Eur J Pediatr       Date:  2012-07-10       Impact factor: 3.183

Review 4.  Genetics and biology of primary ciliary dyskinesia.

Authors:  Amjad Horani; Thomas W Ferkol; Susan K Dutcher; Steven L Brody
Journal:  Paediatr Respir Rev       Date:  2015-09-11       Impact factor: 2.726

5.  Loss-of-function mutations in RSPH1 cause primary ciliary dyskinesia with central-complex and radial-spoke defects.

Authors:  Esther Kott; Marie Legendre; Bruno Copin; Jean-François Papon; Florence Dastot-Le Moal; Guy Montantin; Philippe Duquesnoy; William Piterboth; Daniel Amram; Laurence Bassinet; Julie Beucher; Nicole Beydon; Eric Deneuville; Véronique Houdouin; Hubert Journel; Jocelyne Just; Nadia Nathan; Aline Tamalet; Nathalie Collot; Ludovic Jeanson; Morgane Le Gouez; Benoit Vallette; Anne-Marie Vojtek; Ralph Epaud; André Coste; Annick Clement; Bruno Housset; Bruno Louis; Estelle Escudier; Serge Amselem
Journal:  Am J Hum Genet       Date:  2013-08-29       Impact factor: 11.025

6.  In vivo modeling of the morbid human genome using Danio rerio.

Authors:  Adrienne R Niederriter; Erica E Davis; Christelle Golzio; Edwin C Oh; I-Chun Tsai; Nicholas Katsanis
Journal:  J Vis Exp       Date:  2013-08-24       Impact factor: 1.355

7.  Loss-of-Function GAS8 Mutations Cause Primary Ciliary Dyskinesia and Disrupt the Nexin-Dynein Regulatory Complex.

Authors:  Heike Olbrich; Carolin Cremers; Niki T Loges; Claudius Werner; Kim G Nielsen; June K Marthin; Maria Philipsen; Julia Wallmeier; Petra Pennekamp; Tabea Menchen; Christine Edelbusch; Gerard W Dougherty; Oliver Schwartz; Holger Thiele; Janine Altmüller; Frank Rommelmann; Heymut Omran
Journal:  Am J Hum Genet       Date:  2015-09-17       Impact factor: 11.025

8.  Characterisation of evolutionarily conserved key players affecting eukaryotic flagellar motility and fertility using a moss model.

Authors:  Rabea Meyberg; Pierre-François Perroud; Fabian B Haas; Lucas Schneider; Thomas Heimerl; Karen S Renzaglia; Stefan A Rensing
Journal:  New Phytol       Date:  2020-04-13       Impact factor: 10.151

9.  Mutations in C11orf70 Cause Primary Ciliary Dyskinesia with Randomization of Left/Right Body Asymmetry Due to Defects of Outer and Inner Dynein Arms.

Authors:  Inga M Höben; Rim Hjeij; Heike Olbrich; Gerard W Dougherty; Tabea Nöthe-Menchen; Isabella Aprea; Diana Frank; Petra Pennekamp; Bernd Dworniczak; Julia Wallmeier; Johanna Raidt; Kim G Nielsen; Maria C Philipsen; Francesca Santamaria; Laura Venditto; Israel Amirav; Huda Mussaffi; Freerk Prenzel; Kaman Wu; Zeineb Bakey; Miriam Schmidts; Niki T Loges; Heymut Omran
Journal:  Am J Hum Genet       Date:  2018-05-03       Impact factor: 11.025

10.  Zebrafish Ciliopathy Screen Plus Human Mutational Analysis Identifies C21orf59 and CCDC65 Defects as Causing Primary Ciliary Dyskinesia.

Authors:  Christina Austin-Tse; Jan Halbritter; Maimoona A Zariwala; Renée M Gilberti; Heon Yung Gee; Nathan Hellman; Narendra Pathak; Yan Liu; Jennifer R Panizzi; Ramila S Patel-King; Douglas Tritschler; Raqual Bower; Eileen O'Toole; Jonathan D Porath; Toby W Hurd; Moumita Chaki; Katrina A Diaz; Stefan Kohl; Svjetlana Lovric; Daw-Yang Hwang; Daniela A Braun; Markus Schueler; Rannar Airik; Edgar A Otto; Margaret W Leigh; Peadar G Noone; Johnny L Carson; Stephanie D Davis; Jessica E Pittman; Thomas W Ferkol; Jeffry J Atkinson; Kenneth N Olivier; Scott D Sagel; Sharon D Dell; Margaret Rosenfeld; Carlos E Milla; Niki T Loges; Heymut Omran; Mary E Porter; Stephen M King; Michael R Knowles; Iain A Drummond; Friedhelm Hildebrandt
Journal:  Am J Hum Genet       Date:  2013-10-03       Impact factor: 11.025
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