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Mutations in CCDC39 and CCDC40 are a major cause of primary ciliary dyskinesia with microtubule disorganisation

Mutations in CCDC39 and CCDC40 are a major cause of primary ciliary dyskinesia with microtubule disorganisation
Mutations in CCDC39 and CCDC40 are a major cause of primary ciliary dyskinesia with microtubule disorganisation
Primary ciliary dyskinesia (PCD) is a genetically heterogeneous inherited disorder characterised by recurrent respiratory tract infections, bronchiectasis and subfertility which arises from cilia/sperm dysmotility associated with axonemal ultrastructural abnormalities. Laterality is randomized with ~50% of patients having situs inversus. Up to 15% of PCD cases show perturbation of the 9+2 microtubule structure and loss of the inner dynein arms, and these have tended to be referred to as ‘radial spoke defect’ cases. The radial spokes are essential for axoneme motility, mediating signal transduction between the central microtubular pair and dynein arm motors. Two genes causing this specific ultrastructural defect are known: CCDC39 (Merveille et. al., Nat Genet. 2011 43:72-8) and CCDC40 (Becker-Heck et. al. Nat Genet. 2011 43:79-84). We sequenced these genes in 22 PCD families with an ultrastructural defect involving microtubule disorganisation, either with or without accompanying loss of the inner dynein arms. We found recesively inherited CCDC39 mutations in 8/22 families and CCDC40 mutations in 7/22 families in the cohort, jointly accounting for a remarkable 68% (15/22) of families. The majority of CCDC39 and CCDC40 mutations were nonsense or frameshift resulting in early protein truncation, predicted to cause major disruption to the axoneme. Furthermore, there was a preponderance of homozygous mutations accounting for disease, even in families from outbred populations. Our results highlight the key role of the CCDC39 and CCDC40 genes in PCD with radial spoke defect, and suggest that disease is associated with complete protein loss (null alleles). These two genes represent prime targets for genetic testing in this disease phenotype. Work is in progress to identify the disease genes in the remaining patients within this subgroup, by next generation whole exome sequencing.
2046-2530
Anthony, D.
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Becker-Heck, Anita
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Forouhan, Mitra
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Schmidts, M.
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Onoufriadis, Alexandros
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Shoemark, Amelia
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Dixon, M.
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Jackson, Claire
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Goggin, P.
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Olbrich, Heike
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O'Callaghan, C.
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Lucas, Jane
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Hogg, C.
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Chung, Eddie M. K.
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Omran, H.
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Mitchison, H.M.
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Anthony, D.
e5e33045-5b7e-43f2-87c3-203e38194af1
Becker-Heck, Anita
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Forouhan, Mitra
bf3eaacb-0079-4b59-9a43-f69ae0189779
Schmidts, M.
fa4e63c0-3093-4b31-8e32-5365b4ee6511
Onoufriadis, Alexandros
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Shoemark, Amelia
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Dixon, M.
256196be-8533-4dea-abeb-77797094db2b
Jackson, Claire
64cdd6fa-74c3-4ac6-94ef-070620a6efd9
Goggin, P.
17ad12f7-2ad0-416e-81d2-b20d5c6e3833
Olbrich, Heike
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O'Callaghan, C.
e5de56f9-edda-4d91-80da-f246e86f090c
Lucas, Jane
5cb3546c-87b2-4e59-af48-402076e25313
Hogg, C.
76a3dfd1-d8b4-4c01-a4fd-2eae59f5384d
Chung, Eddie M. K.
8f35e12e-70e1-40ef-921f-444baf128ca0
Omran, H.
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Mitchison, H.M.
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Anthony, D., Becker-Heck, Anita, Forouhan, Mitra, Schmidts, M., Onoufriadis, Alexandros, Shoemark, Amelia, Dixon, M., Jackson, Claire, Goggin, P., Olbrich, Heike, O'Callaghan, C., Lucas, Jane, Hogg, C., Chung, Eddie M. K., Omran, H. and Mitchison, H.M. (2012) Mutations in CCDC39 and CCDC40 are a major cause of primary ciliary dyskinesia with microtubule disorganisation. Cilia, 1 (Suppl 1). (doi:10.1186/2046-2530-1-S1-P1).

Record type: Meeting abstract

Abstract

Primary ciliary dyskinesia (PCD) is a genetically heterogeneous inherited disorder characterised by recurrent respiratory tract infections, bronchiectasis and subfertility which arises from cilia/sperm dysmotility associated with axonemal ultrastructural abnormalities. Laterality is randomized with ~50% of patients having situs inversus. Up to 15% of PCD cases show perturbation of the 9+2 microtubule structure and loss of the inner dynein arms, and these have tended to be referred to as ‘radial spoke defect’ cases. The radial spokes are essential for axoneme motility, mediating signal transduction between the central microtubular pair and dynein arm motors. Two genes causing this specific ultrastructural defect are known: CCDC39 (Merveille et. al., Nat Genet. 2011 43:72-8) and CCDC40 (Becker-Heck et. al. Nat Genet. 2011 43:79-84). We sequenced these genes in 22 PCD families with an ultrastructural defect involving microtubule disorganisation, either with or without accompanying loss of the inner dynein arms. We found recesively inherited CCDC39 mutations in 8/22 families and CCDC40 mutations in 7/22 families in the cohort, jointly accounting for a remarkable 68% (15/22) of families. The majority of CCDC39 and CCDC40 mutations were nonsense or frameshift resulting in early protein truncation, predicted to cause major disruption to the axoneme. Furthermore, there was a preponderance of homozygous mutations accounting for disease, even in families from outbred populations. Our results highlight the key role of the CCDC39 and CCDC40 genes in PCD with radial spoke defect, and suggest that disease is associated with complete protein loss (null alleles). These two genes represent prime targets for genetic testing in this disease phenotype. Work is in progress to identify the disease genes in the remaining patients within this subgroup, by next generation whole exome sequencing.

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Published date: 16 November 2012

Identifiers

Local EPrints ID: 470025
URI: http://eprints.soton.ac.uk/id/eprint/470025
ISSN: 2046-2530
PURE UUID: bd0a4fba-cf5a-4337-be90-5caea6a22dbd
ORCID for Claire Jackson: ORCID iD orcid.org/0000-0002-1200-0935
ORCID for Jane Lucas: ORCID iD orcid.org/0000-0001-8701-9975

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Date deposited: 30 Sep 2022 16:44
Last modified: 17 Mar 2024 03:02

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Contributors

Author: D. Anthony
Author: Anita Becker-Heck
Author: Mitra Forouhan
Author: M. Schmidts
Author: Alexandros Onoufriadis
Author: Amelia Shoemark
Author: M. Dixon
Author: Claire Jackson ORCID iD
Author: P. Goggin
Author: Heike Olbrich
Author: C. O'Callaghan
Author: Jane Lucas ORCID iD
Author: C. Hogg
Author: Eddie M. K. Chung
Author: H. Omran
Author: H.M. Mitchison

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