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Combined approaches, including long-read sequencing, address the diagnostic challenge of HYDIN in primary ciliary dyskinesia

Combined approaches, including long-read sequencing, address the diagnostic challenge of HYDIN in primary ciliary dyskinesia
Combined approaches, including long-read sequencing, address the diagnostic challenge of HYDIN in primary ciliary dyskinesia
Primary ciliary dyskinesia (PCD), a disorder of the motile cilia, is now recognised as an underdiagnosed cause of bronchiectasis. Accurate PCD diagnosis comprises clinical assessment, analysis of cilia and the identification of biallelic variants in one of 50 known PCD-related genes, including HYDIN. HYDIN-related PCD is underdiagnosed due to the presence of a pseudogene, HYDIN2, with 98% sequence homology to HYDIN. This presents a significant challenge for Short-Read Next Generation Sequencing (SR-NGS) and analysis, and many diagnostic PCD gene panels do not include HYDIN. We have used a combined approach of SR-NGS with bioinformatic masking of HYDIN2, and state-of-the-art long-read Nanopore sequencing (LR_NGS), together with analysis of respiratory cilia including transmission electron microscopy and immunofluorescence to address the underdiagnosis of HYDIN as a cause of PCD. Bioinformatic masking of HYDIN2 after SR-NGS facilitated the detection of biallelic HYDIN variants in 15 of 437 families, but compromised the detection of copy number variants. Supplementing testing with LR-NGS detected HYDIN deletions in 2 families, where SR-NGS had detected a single heterozygous HYDIN variant. LR-NGS was also able to confirm true homozygosity in 2 families when parental testing was not possible. Utilising a combined genomic diagnostic approach, biallelic HYDIN variants were detected in 17 families from 242 genetically confirmed PCD cases, comprising 7% of our PCD cohort. This represents the largest reported HYDIN cohort to date and highlights previous underdiagnosis of HYDIN-associated PCD. Moreover this provides further evidence for the utility of LR-NGS in diagnostic testing, particularly for regions of high genomic complexity.
1018-4813
1074-1085
Fleming, Andrew
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Galey, Miranda
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Briggs, Lizi
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Edwards, M.
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Hogg, Claire
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John, S.
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Wilkinson, S.
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Quinn, Ellie
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Rai, R.
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Burgoyne, Tom
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Rogers, Andy
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Patel, M P
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Griffin, Paul
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Muller, Steven
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Carr, Siobhán B.
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Loebinger, Michael R.
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Lucas, Jane
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et al.
Fleming, Andrew
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Galey, Miranda
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Briggs, Lizi
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Edwards, M.
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Hogg, Claire
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John, S.
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Wilkinson, S.
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Quinn, Ellie
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Rai, R.
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Burgoyne, Tom
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Rogers, Andy
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Patel, M P
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Griffin, Paul
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Muller, Steven
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Carr, Siobhán B.
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Loebinger, Michael R.
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Lucas, Jane
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Shah, Anand
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Jose, Richardo
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Mitchison, Hannah
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Shoemark, Amelia
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Miller, Danny
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Morris-Rosendahl, Deborah
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Fleming, Andrew, Galey, Miranda and Briggs, Lizi , et al. (2024) Combined approaches, including long-read sequencing, address the diagnostic challenge of HYDIN in primary ciliary dyskinesia. European Journal of Human Genetics, 32, 1074-1085. (doi:10.1038/s41431-024-01599-7).

Record type: Article

Abstract

Primary ciliary dyskinesia (PCD), a disorder of the motile cilia, is now recognised as an underdiagnosed cause of bronchiectasis. Accurate PCD diagnosis comprises clinical assessment, analysis of cilia and the identification of biallelic variants in one of 50 known PCD-related genes, including HYDIN. HYDIN-related PCD is underdiagnosed due to the presence of a pseudogene, HYDIN2, with 98% sequence homology to HYDIN. This presents a significant challenge for Short-Read Next Generation Sequencing (SR-NGS) and analysis, and many diagnostic PCD gene panels do not include HYDIN. We have used a combined approach of SR-NGS with bioinformatic masking of HYDIN2, and state-of-the-art long-read Nanopore sequencing (LR_NGS), together with analysis of respiratory cilia including transmission electron microscopy and immunofluorescence to address the underdiagnosis of HYDIN as a cause of PCD. Bioinformatic masking of HYDIN2 after SR-NGS facilitated the detection of biallelic HYDIN variants in 15 of 437 families, but compromised the detection of copy number variants. Supplementing testing with LR-NGS detected HYDIN deletions in 2 families, where SR-NGS had detected a single heterozygous HYDIN variant. LR-NGS was also able to confirm true homozygosity in 2 families when parental testing was not possible. Utilising a combined genomic diagnostic approach, biallelic HYDIN variants were detected in 17 families from 242 genetically confirmed PCD cases, comprising 7% of our PCD cohort. This represents the largest reported HYDIN cohort to date and highlights previous underdiagnosis of HYDIN-associated PCD. Moreover this provides further evidence for the utility of LR-NGS in diagnostic testing, particularly for regions of high genomic complexity.

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s41431-024-01599-7 - Version of Record
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Accepted/In Press date: 18 March 2024
e-pub ahead of print date: 11 April 2024
Published date: 30 September 2024

Identifiers

Local EPrints ID: 500893
URI: http://eprints.soton.ac.uk/id/eprint/500893
DOI: doi:10.1038/s41431-024-01599-7
ISSN: 1018-4813
PURE UUID: 30853fab-61f9-4e52-b73f-7f137bce7c36
ORCID for Jane Lucas: ORCID iD orcid.org/0000-0001-8701-9975

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Date deposited: 15 May 2025 16:32
Last modified: 16 May 2025 01:39

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Contributors

Author: Andrew Fleming
Author: Miranda Galey
Author: Lizi Briggs
Author: M. Edwards
Author: Claire Hogg
Author: S. John
Author: S. Wilkinson
Author: Ellie Quinn
Author: R. Rai
Author: Tom Burgoyne
Author: Andy Rogers
Author: M P Patel
Author: Paul Griffin
Author: Steven Muller
Author: Siobhán B. Carr
Author: Michael R. Loebinger
Author: Jane Lucas ORCID iD
Author: Anand Shah
Author: Richardo Jose
Author: Hannah Mitchison
Author: Amelia Shoemark
Author: Danny Miller
Author: Deborah Morris-Rosendahl
Corporate Author: et al.

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