Quantitative high-speed video profiling discriminates between DNAH11 and HYDIN variants of primary ciliary dyskinesia
Quantitative high-speed video profiling discriminates between DNAH11 and HYDIN variants of primary ciliary dyskinesia
Primary ciliary dyskinesia (PCD) is a genetically heterogeneous condition. The number of genes associated with primary ciliary dyskinesia is rising, and the link between genotype and clinical phenotype is largely unknown (1). Recent advances in molecular genotyping have helped establish the association between genetic defects and aberrant cilia ultrastructure in PCD, as detected by transmission electron microscopy. However, up to 30% of PCD cases do not show any specific ultrastructural defects and thus cannot be detected using this method. A classic example of this occurs in PCD cases caused by mutations in the DNAH11 (dynein axonemal heavy chain 1) protein, where aberrant ciliary beating can be detected via high-speed video microscopy (HSVM) analysis, but no ultrastructural defect is observed (2, 3). Even in cases where ultrastructural defects do exist, they can be difficult to detect using standard transmission electron microscopy techniques, and therefore patients who harbor such subtle defects are at risk of being misdiagnosed. PCD caused by mutations in the protein HYDIN, for example, display normal ciliary beat frequency and rarely exhibit abnormal ciliary transmission electron microscopy, yet mucociliary clearance is compromised.
1436-1438
Chioccioli, Maurizio
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Feriani, Luigi
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Nguyen, Quynh
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Kotar, Jurij
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Dell, Sharon D
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Mennella, Vito
43c60e29-c0a7-4ab8-8e5c-fcb59f70a28a
Amirav, Israel
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Cicuta, Pietro
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1 June 2019
Chioccioli, Maurizio
bad2730d-334a-4204-add2-8e94f72ffc8d
Feriani, Luigi
bf5487ec-689b-4a84-b76d-ae6e84c504bb
Nguyen, Quynh
e630d895-f19c-46c3-a0d8-fb73d5e520bc
Kotar, Jurij
9b332c03-9e3b-40ac-a640-2a6f0070f4d3
Dell, Sharon D
736623b0-32d7-45a4-811b-af3debee2eae
Mennella, Vito
43c60e29-c0a7-4ab8-8e5c-fcb59f70a28a
Amirav, Israel
0c6853d6-3b94-4ef1-b36e-4b669c12d155
Cicuta, Pietro
80bc9499-6c6a-4d7a-8d45-b5b3b76a4695
Chioccioli, Maurizio, Feriani, Luigi, Nguyen, Quynh, Kotar, Jurij, Dell, Sharon D, Mennella, Vito, Amirav, Israel and Cicuta, Pietro
(2019)
Quantitative high-speed video profiling discriminates between DNAH11 and HYDIN variants of primary ciliary dyskinesia.
American Journal of Respiratory and Critical Care Medicine, 199 (11), .
(doi:10.1164/rccm.201812-2256LE).
Abstract
Primary ciliary dyskinesia (PCD) is a genetically heterogeneous condition. The number of genes associated with primary ciliary dyskinesia is rising, and the link between genotype and clinical phenotype is largely unknown (1). Recent advances in molecular genotyping have helped establish the association between genetic defects and aberrant cilia ultrastructure in PCD, as detected by transmission electron microscopy. However, up to 30% of PCD cases do not show any specific ultrastructural defects and thus cannot be detected using this method. A classic example of this occurs in PCD cases caused by mutations in the DNAH11 (dynein axonemal heavy chain 1) protein, where aberrant ciliary beating can be detected via high-speed video microscopy (HSVM) analysis, but no ultrastructural defect is observed (2, 3). Even in cases where ultrastructural defects do exist, they can be difficult to detect using standard transmission electron microscopy techniques, and therefore patients who harbor such subtle defects are at risk of being misdiagnosed. PCD caused by mutations in the protein HYDIN, for example, display normal ciliary beat frequency and rarely exhibit abnormal ciliary transmission electron microscopy, yet mucociliary clearance is compromised.
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Accepted/In Press date: 1 April 2016
e-pub ahead of print date: 1 June 2019
Published date: 1 June 2019
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Local EPrints ID: 434164
URI: http://eprints.soton.ac.uk/id/eprint/434164
ISSN: 1073-449X
PURE UUID: f96db8bf-34d9-433d-870f-b7292859aabb
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Date deposited: 13 Sep 2019 16:30
Last modified: 16 Mar 2024 04:03
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Contributors
Author:
Maurizio Chioccioli
Author:
Luigi Feriani
Author:
Quynh Nguyen
Author:
Jurij Kotar
Author:
Sharon D Dell
Author:
Israel Amirav
Author:
Pietro Cicuta
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