Defective airway intraflagellar transport underlies a combined motile and primary ciliopathy syndrome caused by IFT74 mutations
Defective airway intraflagellar transport underlies a combined motile and primary ciliopathy syndrome caused by IFT74 mutations
Ciliopathies are inherited disorders caused by defective cilia. Mutations affecting motile cilia usually cause the chronic muco-obstructive sinopulmonary disease primary ciliary dyskinesia (PCD) and are associated with laterality defects, while a broad spectrum of early developmental as well as degenerative syndromes arise from mutations affecting signalling of primary (non-motile) cilia. Cilia assembly and functioning requires intraflagellar transport (IFT) of cargos assisted by IFT-B and IFT-A adaptor complexes. Within IFT-B, the N-termini of partner proteins IFT74 and IFT81 govern tubulin transport to build the ciliary microtubular cytoskeleton. We detected a homozygous 3-kb intragenic IFT74 deletion removing the exon 2 initiation codon and 40 N-terminal amino acids in two affected siblings. Both had clinical features of PCD with bronchiectasis, but no laterality defects. They also had retinal dysplasia and abnormal bone growth, with a narrowed thorax and short ribs, shortened long bones and digits, and abnormal skull shape. This resembles short-rib thoracic dysplasia, a skeletal ciliopathy previously linked to IFT defects in primary cilia, not motile cilia. Ciliated nasal epithelial cells collected from affected individuals had reduced numbers of shortened motile cilia with disarranged microtubules, some misorientation of the basal feet, and disrupted cilia structural and IFT protein distributions. No full-length IFT74 was expressed, only truncated forms that were consistent with N-terminal deletion and inframe translation from downstream initiation codons. In affinity purification mass spectrometry, exon 2-deleted IFT74 initiated from the nearest inframe downstream methionine 41 still interacts as part of the IFT-B complex, but only with reduced interaction levels and not with all its usual IFT-B partners. We propose that this is a hypomorphic mutation with some residual protein function retained, which gives rise to a primary skeletal ciliopathy combined with defective motile cilia and PCD.
IFT-B, IFT74, ciliopathies, intraflagellar transport, primary ciliary dyskinesia
3090-3104
Fassad, Mahmoud R.
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Rumman, Nisreen
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Junger, Katrin
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Patel, Mitali.P
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Thompson, James
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Goggin, Patricia
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Ueffing, Marius
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Beyer, Tina
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Boldt, Karsten
a72c5ddd-1905-4957-a797-fb8ad7a07f02
Lucas, Jane
5cb3546c-87b2-4e59-af48-402076e25313
Mitchison, Hannah
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1 November 2023
Fassad, Mahmoud R.
8de9f7df-4d23-4546-9bcb-3064adf16345
Rumman, Nisreen
2fa983a0-2b5d-44cb-bbb4-79b1eb0a632c
Junger, Katrin
46b2e214-ad61-48a6-8894-048184b41acb
Patel, Mitali.P
c50a1656-745e-4207-816b-afbad7e0770c
Thompson, James
a0a1e940-d720-47de-81d7-ebcd48738239
Goggin, Patricia
e1e6172b-6e76-47aa-a2a6-3f2a7f4a0a7d
Ueffing, Marius
78950547-aa52-4955-a65d-527ca4302075
Beyer, Tina
774c930e-bf49-4a2c-b3e7-2e767fd989d0
Boldt, Karsten
a72c5ddd-1905-4957-a797-fb8ad7a07f02
Lucas, Jane
5cb3546c-87b2-4e59-af48-402076e25313
Mitchison, Hannah
f9aba178-6502-4a86-b247-db629d666bdd
Fassad, Mahmoud R., Rumman, Nisreen, Junger, Katrin, Patel, Mitali.P, Thompson, James, Goggin, Patricia, Ueffing, Marius, Beyer, Tina, Boldt, Karsten, Lucas, Jane and Mitchison, Hannah
(2023)
Defective airway intraflagellar transport underlies a combined motile and primary ciliopathy syndrome caused by IFT74 mutations.
Human Molecular Genetics, 32 (21), .
(doi:10.1093/hmg/ddad132).
Abstract
Ciliopathies are inherited disorders caused by defective cilia. Mutations affecting motile cilia usually cause the chronic muco-obstructive sinopulmonary disease primary ciliary dyskinesia (PCD) and are associated with laterality defects, while a broad spectrum of early developmental as well as degenerative syndromes arise from mutations affecting signalling of primary (non-motile) cilia. Cilia assembly and functioning requires intraflagellar transport (IFT) of cargos assisted by IFT-B and IFT-A adaptor complexes. Within IFT-B, the N-termini of partner proteins IFT74 and IFT81 govern tubulin transport to build the ciliary microtubular cytoskeleton. We detected a homozygous 3-kb intragenic IFT74 deletion removing the exon 2 initiation codon and 40 N-terminal amino acids in two affected siblings. Both had clinical features of PCD with bronchiectasis, but no laterality defects. They also had retinal dysplasia and abnormal bone growth, with a narrowed thorax and short ribs, shortened long bones and digits, and abnormal skull shape. This resembles short-rib thoracic dysplasia, a skeletal ciliopathy previously linked to IFT defects in primary cilia, not motile cilia. Ciliated nasal epithelial cells collected from affected individuals had reduced numbers of shortened motile cilia with disarranged microtubules, some misorientation of the basal feet, and disrupted cilia structural and IFT protein distributions. No full-length IFT74 was expressed, only truncated forms that were consistent with N-terminal deletion and inframe translation from downstream initiation codons. In affinity purification mass spectrometry, exon 2-deleted IFT74 initiated from the nearest inframe downstream methionine 41 still interacts as part of the IFT-B complex, but only with reduced interaction levels and not with all its usual IFT-B partners. We propose that this is a hypomorphic mutation with some residual protein function retained, which gives rise to a primary skeletal ciliopathy combined with defective motile cilia and PCD.
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e-pub ahead of print date: 9 August 2023
Published date: 1 November 2023
Additional Information:
Funding Information:
We thank Thomas Cullup and Lucy Jenkins from the North Thames Genomic Laboratory Hub, Great Ormond Street Hospital for Children NHS Foundation Trust, for supporting the genetic analysis. N.R. was the recipient of a European Respiratory Society (ERS) Fellowship (STRTF 2014-6816) and an Academy of Medical Sciences Daniel Turnberg Travel Fellowship. AAIR Charity (charity number 1129698) funded genetic analysis and Circassia loaned two Niox Mino analysers for this study. The National PCD Diagnostic Service at University Hospital Southampton is commissioned and funded by NHS England. Some authors are participants of BEAT-PCD: Better Evidence to Advance Therapeutic options for PCD (COST Action BM 1407; ERS Clinical Research Collaboration). Some authors participate in European Reference Network for Rare Respiratory Diseases (ERN-LUNG) project identifier number 739546. H.M.M. acknowledges funding from Great Ormond Street Children’s Charity, NIHR Biomedical Research Centre at Great Ormond Street Hospital, the British Council Newton-Mosharafa Fund and Ministry of Higher Education in Egypt.
Funding Information:
M.R.F. is supported by a Wellcome Trust Collaborative Award in Science (210585/Z/18/Z). The project was funded by the Kerstan Foundation to M.U. This work was funded in part by Wellcome Trust (210585/B/18/Z) to K.B. and M.U. and the European Community (H-2020-MSCA-ITN-2019#SCiLS to K.B. and M.U.).
Publisher Copyright:
© 2023 The Author(s). Published by Oxford University Press.
Keywords:
IFT-B, IFT74, ciliopathies, intraflagellar transport, primary ciliary dyskinesia
Identifiers
Local EPrints ID: 481158
URI: http://eprints.soton.ac.uk/id/eprint/481158
ISSN: 0964-6906
PURE UUID: 4ab9c50c-7f9b-4952-8b02-53dde3c4754f
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Date deposited: 16 Aug 2023 16:52
Last modified: 18 Mar 2024 03:25
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Contributors
Author:
Mahmoud R. Fassad
Author:
Nisreen Rumman
Author:
Katrin Junger
Author:
Mitali.P Patel
Author:
James Thompson
Author:
Patricia Goggin
Author:
Marius Ueffing
Author:
Tina Beyer
Author:
Karsten Boldt
Author:
Hannah Mitchison
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