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Literature DB >> 31630787

De Novo Mutations in FOXJ1 Result in a Motile Ciliopathy with Hydrocephalus and Randomization of Left/Right Body Asymmetry.

Julia Wallmeier¹, Diana Frank¹, Amelia Shoemark², Tabea Nöthe-Menchen¹, Sandra Cindric¹, Heike Olbrich¹, Niki T Loges¹, Isabella Aprea¹, Gerard W Dougherty¹, Petra Pennekamp¹, Thomas Kaiser¹, Hannah M Mitchison³, Claire Hogg⁴, Siobhán B Carr⁴, Maimoona A Zariwala⁵, Thomas Ferkol⁶, Margaret W Leigh⁷, Stephanie D Davis⁸, Jeffrey Atkinson⁹, Susan K Dutcher¹⁰, Michael R Knowles¹¹, Holger Thiele¹², Janine Altmüller¹², Henrike Krenz¹³, Marius Wöste¹³, Angela Brentrup¹⁴, Frank Ahrens¹⁵, Christian Vogelberg¹⁶, Deborah J Morris-Rosendahl¹⁷, Heymut Omran¹⁸.

Abstract

Hydrocephalus is one of the most prevalent form of developmental central nervous system (CNS) malformations. Cerebrospinal fluid (CSF) flow depends on both heartbeat and body movement. Furthermore, it has been shown that CSF flow within and across brain ventricles depends on cilia motility of the ependymal cells lining the brain ventricles, which play a crucial role to maintain patency of the narrow sites of CSF passage during brain formation in mice. Using whole-exome and whole-genome sequencing, we identified an autosomal-dominant cause of a distinct motile ciliopathy related to defective ciliogenesis of the ependymal cilia in six individuals. Heterozygous de novo mutations in FOXJ1, which encodes a well-known member of the forkhead transcription factors important for ciliogenesis of motile cilia, cause a motile ciliopathy that is characterized by hydrocephalus internus, chronic destructive airway disease, and randomization of left/right body asymmetry. Mutant respiratory epithelial cells are unable to generate a fluid flow and exhibit a reduced number of cilia per cell, as documented by high-speed video microscopy (HVMA), transmission electron microscopy (TEM), and immunofluorescence analysis (IF). TEM and IF demonstrate mislocalized basal bodies. In line with this finding, the focal adhesion protein PTK2 displays aberrant localization in the cytoplasm of the mutant respiratory epithelial cells.

Entities: Disease Gene Species

Keywords: FOXJ1; cilia; ciliogenesis; ependyma; hydrocephalus; lung disease

Mesh：

Substances：

Year: 2019 PMID： 31630787 PMCID： PMC6849114 DOI： 10.1016/j.ajhg.2019.09.022

Source DB: PubMed Journal: Am J Hum Genet ISSN： 0002-9297 Impact factor: 11.025

42 in total

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Authors: Xianwen Yu; Chee Peng Ng; Hermann Habacher; Sudipto Roy
Journal: Nat Genet Date: 2008-11-16 Impact factor: 38.330

10. PICADAR: a diagnostic predictive tool for primary ciliary dyskinesia.

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3. Super-Resolution Microscopy and FIB-SEM Imaging Reveal Parental Centriole-Derived, Hybrid Cilium in Mammalian Multiciliated Cells.

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Review 4. Syndromic Hydrocephalus.

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Journal: Neurosurg Clin N Am Date: 2022-01 Impact factor: 2.509

Review 5. Understanding Primary Ciliary Dyskinesia and Other Ciliopathies.

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6. Mutations in TP73 cause impaired mucociliary clearance and lissencephaly.

Authors: Julia Wallmeier; Diana Bracht; Hessa S Alsaif; Gerard W Dougherty; Heike Olbrich; Sandra Cindric; Mark Dzietko; Christoph Heyer; Norbert Teig; Charlotte Thiels; Eissa Faqeih; Aqeela Al-Hashim; Sameena Khan; Ibrahim Mogarri; Mohammed Almannai; Wadha Al Otaibi; Fowzan S Alkuraya; Cordula Koerner-Rettberg; Heymut Omran
Journal: Am J Hum Genet Date: 2021-06-01 Impact factor: 11.025

Review 7. Motile cilia genetics and cell biology: big results from little mice.

Authors: Lance Lee; Lawrence E Ostrowski
Journal: Cell Mol Life Sci Date: 2020-09-11 Impact factor: 9.261

Review 8. Role of cilia in the pathogenesis of congenital heart disease.

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9. Genomics of human congenital hydrocephalus.

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10. SARS-CoV-2 infection induces the dedifferentiation of multiciliated cells and impairs mucociliary clearance.

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