Autosomal dominant variants in FOXJ1 causing primary ciliary dyskinesia in two patients with obstructive hydrocephalus

Autosomal dominant variants in FOXJ1 causing primary ciliary dyskinesia in two patients with obstructive hydrocephalus

Abstract Background Primary ciliary dyskinesia (PCD) is a mostly autosomal recessive, genetic disease of abnormal motile cilia function, resulting in bronchiectasis, infertility, organ laterality defects, and chronic otolaryngology disease. Though motile, ependymal cilia influencing cerebrospinal fl...

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Main Authors: Adam J. Shapiro, Kimberley Kaspy, M. Leigh Ann Daniels, Jaclyn R. Stonebraker, Van‐Hung Nguyen, Lyne Joyal, Michael R. Knowles, Maimoona A. Zariwala
Format: Article
Language:English
Published: Wiley 2021-07-01
Series:Molecular Genetics & Genomic Medicine
Online Access:https://doi.org/10.1002/mgg3.1726
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spelling doaj-88d3f62e6430487ba83e8d3d4331ea812021-08-18T12:19:56ZengWileyMolecular Genetics & Genomic Medicine2324-92692021-07-0197n/an/a10.1002/mgg3.1726Autosomal dominant variants in FOXJ1 causing primary ciliary dyskinesia in two patients with obstructive hydrocephalusAdam J. Shapiro0Kimberley Kaspy1M. Leigh Ann Daniels2Jaclyn R. Stonebraker3Van‐Hung Nguyen4Lyne Joyal5Michael R. Knowles6Maimoona A. Zariwala7Division of Pediatric Respiratory Medicine McGill University Health Centre Research Institute Montreal QC CanadaDivision of Pediatric Respiratory Medicine McGill University Health Centre Research Institute Montreal QC CanadaDivision of Pulmonary Diseases and Critical Care Medicine Department of Medicine University of North Carolina at Chapel Hill Chapel Hill NC USASchool of Medicine Marsico Lung InstituteUniversity of North Carolina at Chapel Hill Chapel Hill NC USADepartment of Pathology McGill University Health Centre Montreal QC CanadaDepartment of Pathology McGill University Health Centre Montreal QC CanadaDepartment of Medicine Marsico Lung InstituteUniversity of North Carolina at Chapel Hill Chapel Hill NC USADepartment of Pathology and Laboratory Medicine Marsico Lung InstituteUniversity of North Carolina at Chapel Hill Chapel Hill NC USAAbstract Background Primary ciliary dyskinesia (PCD) is a mostly autosomal recessive, genetic disease of abnormal motile cilia function, resulting in bronchiectasis, infertility, organ laterality defects, and chronic otolaryngology disease. Though motile, ependymal cilia influencing cerebrospinal fluid flow in the central nervous system share many aspects of structure and function with motile cilia in the respiratory tract, hydrocephalus is rarely associated with PCD. Recently, pathogenic variants in FOXJ1 (Chr 17q25.1) were identified causing PCD associated with hydrocephalus, reduced respiratory cilia number, axonemal microtubule disorganization, and occurring in a de novo, autosomal dominant inheritance pattern. Method Two patients with chronic oto‐sino‐pulmonary disease and hydrocephalus underwent candidate testing of FOXJ1. Coding region and splice junctions were sequenced and analyzed under the auspices of Genetic Disorders of Mucociliary Clearance Consortium. Results Upon sequencing of the entire coding region and splice‐junctions, heterozygous, pathogenic variants in FOXJ1 were discovered in exon 3 of two patients: an 11‐month‐old female with situs inversus totalis (NM_001454.4: c.945delC (p.Phe315Leufs*18)) and a 51 year‐old male, post‐double lung transplantation (NM_001454.4: c.929_932delACTG (p.Asp310Glyfs*22)). FOXJ1 variants were not detected in the available parents and the siblings of these probands. Conclusion FOXJ1 pathogenic variants cause PCD in a de novo, autosomal dominant inheritance pattern, and are associated with hydrocephalus. Physicians treating patients with hydrocephalus and chronic oto‐sino‐pulmonary disease should be aware of this PCD association and test for FOXJ1 variants.https://doi.org/10.1002/mgg3.1726
collection DOAJ
language English
format Article
sources DOAJ
author Adam J. Shapiro
Kimberley Kaspy
M. Leigh Ann Daniels
Jaclyn R. Stonebraker
Van‐Hung Nguyen
Lyne Joyal
Michael R. Knowles
Maimoona A. Zariwala
spellingShingle Adam J. Shapiro
Kimberley Kaspy
M. Leigh Ann Daniels
Jaclyn R. Stonebraker
Van‐Hung Nguyen
Lyne Joyal
Michael R. Knowles
Maimoona A. Zariwala
Autosomal dominant variants in FOXJ1 causing primary ciliary dyskinesia in two patients with obstructive hydrocephalus
Molecular Genetics & Genomic Medicine
author_facet Adam J. Shapiro
Kimberley Kaspy
M. Leigh Ann Daniels
Jaclyn R. Stonebraker
Van‐Hung Nguyen
Lyne Joyal
Michael R. Knowles
Maimoona A. Zariwala
author_sort Adam J. Shapiro
title Autosomal dominant variants in FOXJ1 causing primary ciliary dyskinesia in two patients with obstructive hydrocephalus
title_short Autosomal dominant variants in FOXJ1 causing primary ciliary dyskinesia in two patients with obstructive hydrocephalus
title_full Autosomal dominant variants in FOXJ1 causing primary ciliary dyskinesia in two patients with obstructive hydrocephalus
title_fullStr Autosomal dominant variants in FOXJ1 causing primary ciliary dyskinesia in two patients with obstructive hydrocephalus
title_full_unstemmed Autosomal dominant variants in FOXJ1 causing primary ciliary dyskinesia in two patients with obstructive hydrocephalus
title_sort autosomal dominant variants in foxj1 causing primary ciliary dyskinesia in two patients with obstructive hydrocephalus
publisher Wiley
series Molecular Genetics & Genomic Medicine
issn 2324-9269
publishDate 2021-07-01
description Abstract Background Primary ciliary dyskinesia (PCD) is a mostly autosomal recessive, genetic disease of abnormal motile cilia function, resulting in bronchiectasis, infertility, organ laterality defects, and chronic otolaryngology disease. Though motile, ependymal cilia influencing cerebrospinal fluid flow in the central nervous system share many aspects of structure and function with motile cilia in the respiratory tract, hydrocephalus is rarely associated with PCD. Recently, pathogenic variants in FOXJ1 (Chr 17q25.1) were identified causing PCD associated with hydrocephalus, reduced respiratory cilia number, axonemal microtubule disorganization, and occurring in a de novo, autosomal dominant inheritance pattern. Method Two patients with chronic oto‐sino‐pulmonary disease and hydrocephalus underwent candidate testing of FOXJ1. Coding region and splice junctions were sequenced and analyzed under the auspices of Genetic Disorders of Mucociliary Clearance Consortium. Results Upon sequencing of the entire coding region and splice‐junctions, heterozygous, pathogenic variants in FOXJ1 were discovered in exon 3 of two patients: an 11‐month‐old female with situs inversus totalis (NM_001454.4: c.945delC (p.Phe315Leufs*18)) and a 51 year‐old male, post‐double lung transplantation (NM_001454.4: c.929_932delACTG (p.Asp310Glyfs*22)). FOXJ1 variants were not detected in the available parents and the siblings of these probands. Conclusion FOXJ1 pathogenic variants cause PCD in a de novo, autosomal dominant inheritance pattern, and are associated with hydrocephalus. Physicians treating patients with hydrocephalus and chronic oto‐sino‐pulmonary disease should be aware of this PCD association and test for FOXJ1 variants.
url https://doi.org/10.1002/mgg3.1726
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