Mutations in TP73 cause impaired mucociliary clearance and lissencephaly

TP73 belongs to the TP53 family of transcription factors and has therefore been well studied in cancer research. Studies in mice, however, have revealed non-oncogenic activities related to multiciliogenesis. Utilizing whole-exome sequencing analysis in a cohort of individuals with a mucociliary clea...

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Veröffentlicht in:	American journal of human genetics 2021-07, Vol.108 (7), p.1318-1329
Hauptverfasser:	Wallmeier, Julia, Bracht, Diana, Alsaif, Hessa S., Dougherty, Gerard W., Olbrich, Heike, Cindric, Sandra, Dzietko, Mark, Heyer, Christoph, Teig, Norbert, Thiels, Charlotte, Faqeih, Eissa, Al-Hashim, Aqeela, Khan, Sameena, Mogarri, Ibrahim, Almannai, Mohammed, Al Otaibi, Wadha, Alkuraya, Fowzan S., Koerner-Rettberg, Cordula, Omran, Heymut
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Sprache:	eng
Schlagworte:	Cell Differentiation - genetics Cells, Cultured cilia ciliogenesis Ciliopathies - genetics Genes, Recessive Homozygote Humans lissencephaly Lissencephaly - genetics Loss of Function Mutation Microscopy, Video motile ciliopathy Mucociliary Clearance - genetics PCD primary ciliary dyskinesia reduced generation of multiple motile cilia Respiratory Mucosa - cytology Respiratory Mucosa - metabolism Respiratory Mucosa - ultrastructure RGMC TP73 Tumor Protein p73 - genetics Whole Exome Sequencing
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container_title	American journal of human genetics
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creator	Wallmeier, Julia Bracht, Diana Alsaif, Hessa S. Dougherty, Gerard W. Olbrich, Heike Cindric, Sandra Dzietko, Mark Heyer, Christoph Teig, Norbert Thiels, Charlotte Faqeih, Eissa Al-Hashim, Aqeela Khan, Sameena Mogarri, Ibrahim Almannai, Mohammed Al Otaibi, Wadha Alkuraya, Fowzan S. Koerner-Rettberg, Cordula Omran, Heymut
description	TP73 belongs to the TP53 family of transcription factors and has therefore been well studied in cancer research. Studies in mice, however, have revealed non-oncogenic activities related to multiciliogenesis. Utilizing whole-exome sequencing analysis in a cohort of individuals with a mucociliary clearance disorder and cortical malformation, we identified homozygous loss-of-function variants in TP73 in seven individuals from five unrelated families. All affected individuals exhibit a chronic airway disease as well as a brain malformation consistent with lissencephaly. We performed high-speed video microscopy, immunofluorescence analyses, and transmission electron microscopy in respiratory epithelial cells after spheroid or air liquid interface culture to analyze ciliary function, ciliary length, and number of multiciliated cells (MCCs). The respiratory epithelial cells studied display reduced ciliary length and basal bodies mislocalized within the cytoplasm. The number of MCCs is severely reduced, consistent with a reduced number of cells expressing the transcription factors crucial for multiciliogenesis (FOXJ1, RFX2). Our data demonstrate that autosomal-recessive deleterious variants in the TP53 family member TP73 cause a mucociliary clearance disorder due to a defect in MCC differentiation.
doi_str_mv	10.1016/j.ajhg.2021.05.002
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Studies in mice, however, have revealed non-oncogenic activities related to multiciliogenesis. Utilizing whole-exome sequencing analysis in a cohort of individuals with a mucociliary clearance disorder and cortical malformation, we identified homozygous loss-of-function variants in TP73 in seven individuals from five unrelated families. All affected individuals exhibit a chronic airway disease as well as a brain malformation consistent with lissencephaly. We performed high-speed video microscopy, immunofluorescence analyses, and transmission electron microscopy in respiratory epithelial cells after spheroid or air liquid interface culture to analyze ciliary function, ciliary length, and number of multiciliated cells (MCCs). The respiratory epithelial cells studied display reduced ciliary length and basal bodies mislocalized within the cytoplasm. The number of MCCs is severely reduced, consistent with a reduced number of cells expressing the transcription factors crucial for multiciliogenesis (FOXJ1, RFX2). Our data demonstrate that autosomal-recessive deleterious variants in the TP53 family member TP73 cause a mucociliary clearance disorder due to a defect in MCC differentiation.</description><identifier>ISSN: 0002-9297</identifier><identifier>EISSN: 1537-6605</identifier><identifier>DOI: 10.1016/j.ajhg.2021.05.002</identifier><identifier>PMID: 34077761</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Cell Differentiation - genetics ; Cells, Cultured ; cilia ; ciliogenesis ; Ciliopathies - genetics ; Genes, Recessive ; Homozygote ; Humans ; lissencephaly ; Lissencephaly - genetics ; Loss of Function Mutation ; Microscopy, Video ; motile ciliopathy ; Mucociliary Clearance - genetics ; PCD ; primary ciliary dyskinesia ; reduced generation of multiple motile cilia ; Respiratory Mucosa - cytology ; Respiratory Mucosa - metabolism ; Respiratory Mucosa - ultrastructure ; RGMC ; TP73 ; Tumor Protein p73 - genetics ; Whole Exome Sequencing</subject><ispartof>American journal of human genetics, 2021-07, Vol.108 (7), p.1318-1329</ispartof><rights>2021 American Society of Human Genetics</rights><rights>Copyright © 2021 American Society of Human Genetics. 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Studies in mice, however, have revealed non-oncogenic activities related to multiciliogenesis. Utilizing whole-exome sequencing analysis in a cohort of individuals with a mucociliary clearance disorder and cortical malformation, we identified homozygous loss-of-function variants in TP73 in seven individuals from five unrelated families. All affected individuals exhibit a chronic airway disease as well as a brain malformation consistent with lissencephaly. We performed high-speed video microscopy, immunofluorescence analyses, and transmission electron microscopy in respiratory epithelial cells after spheroid or air liquid interface culture to analyze ciliary function, ciliary length, and number of multiciliated cells (MCCs). The respiratory epithelial cells studied display reduced ciliary length and basal bodies mislocalized within the cytoplasm. The number of MCCs is severely reduced, consistent with a reduced number of cells expressing the transcription factors crucial for multiciliogenesis (FOXJ1, RFX2). 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source	MEDLINE; Cell Press Free Archives; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; ScienceDirect Journals (5 years ago - present); PubMed Central
subjects	Cell Differentiation - genetics Cells, Cultured cilia ciliogenesis Ciliopathies - genetics Genes, Recessive Homozygote Humans lissencephaly Lissencephaly - genetics Loss of Function Mutation Microscopy, Video motile ciliopathy Mucociliary Clearance - genetics PCD primary ciliary dyskinesia reduced generation of multiple motile cilia Respiratory Mucosa - cytology Respiratory Mucosa - metabolism Respiratory Mucosa - ultrastructure RGMC TP73 Tumor Protein p73 - genetics Whole Exome Sequencing
title	Mutations in TP73 cause impaired mucociliary clearance and lissencephaly
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