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Primary Ciliary Dyskinesia Associated Disease-Causing Variants in CCDC39 and CCDC40 Cause Axonemal Absence of Inner Dynein Arm Heavy Chains DNAH1, DNAH6, and DNAH7

Disease-causing bi-allelic DNA variants in and are frequent causes of the hereditary disorder of primary ciliary dyskinesia (PCD). The encoded proteins form a molecular ruler complex, crucial for maintaining the 96 nm repeat units along the ciliary axonemes. Defects of those proteins cause a stiff,...

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Published in:	Cells (Basel, Switzerland) Switzerland), 2024-07, Vol.13 (14), p.1200
Main Authors:	Wilken, Alina, Höben, Inga Marlena, Wolter, Alexander, Loges, Niki Tomas, Olbrich, Heike, Aprea, Isabella, Dworniczak, Bernd, Raidt, Johanna, Omran, Heymut
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Language:	English
Subjects:	Analysis Antibodies axonemal disorganization Axonemal Dyneins - genetics Axonemal Dyneins - metabolism Axoneme - metabolism Axonemes Biopsy Cilia Cilia - metabolism Cilia - pathology Ciliary Motility Disorders - genetics Ciliary Motility Disorders - metabolism Ciliary Motility Disorders - pathology Cytoskeletal Proteins diagnostics Dynein Dyneins - genetics Dyneins - metabolism Dyskinesia Humans IDA Immunofluorescence Lung diseases Male Membranes Microscopy motile cilia Movement disorders Mutation - genetics Next-generation sequencing PCD Primary ciliary dyskinesia Proteins Respiration Respiratory tract infection ruler Siblings
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description	Disease-causing bi-allelic DNA variants in and are frequent causes of the hereditary disorder of primary ciliary dyskinesia (PCD). The encoded proteins form a molecular ruler complex, crucial for maintaining the 96 nm repeat units along the ciliary axonemes. Defects of those proteins cause a stiff, rapid, and flickery ciliary beating pattern, recurrent respiratory infections, axonemal disorganization, and abnormal assembly of GAS8, CCDC39, and DNALI1. We performed molecular characterization of the defects in the 96 nm axonemal ruler due to disease-causing variants in and and analyzed the effect on additional axonemal components. We identified a cohort of 51 individuals with disease-causing variants in and via next-generation sequencing techniques and demonstrated that the IDA heavy chains DNAH1, DNAH6, and DNAH7 are conspicuously absent within the respiratory ciliary axonemes by immunofluorescence analyses. Hence, we show for the first time that the centrin2 (CETN2) containing IDAs are also affected. These findings underscore the crucial role of CCDC39 and CCDC40 in the assembly and function of IDAs in human respiratory cilia. Thus, our data improve the diagnostics of axonemal ruler defects by further characterizing the associated molecular IDA defects.
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These findings underscore the crucial role of CCDC39 and CCDC40 in the assembly and function of IDAs in human respiratory cilia. Thus, our data improve the diagnostics of axonemal ruler defects by further characterizing the associated molecular IDA defects.</description><identifier>ISSN: 2073-4409</identifier><identifier>EISSN: 2073-4409</identifier><identifier>DOI: 10.3390/cells13141200</identifier><identifier>PMID: 39056782</identifier><language>eng</language><publisher>Switzerland: MDPI AG</publisher><subject>Analysis ; Antibodies ; axonemal disorganization ; Axonemal Dyneins - genetics ; Axonemal Dyneins - metabolism ; Axoneme - metabolism ; Axonemes ; Biopsy ; Cilia ; Cilia - metabolism ; Cilia - pathology ; Ciliary Motility Disorders - genetics ; Ciliary Motility Disorders - metabolism ; Ciliary Motility Disorders - pathology ; Cytoskeletal Proteins ; diagnostics ; Dynein ; Dyneins - genetics ; Dyneins - metabolism ; Dyskinesia ; Humans ; IDA ; Immunofluorescence ; Lung diseases ; Male ; Membranes ; Microscopy ; motile cilia ; Movement disorders ; Mutation - genetics ; Next-generation sequencing ; PCD ; Primary ciliary dyskinesia ; Proteins ; Respiration ; Respiratory tract infection ; ruler ; Siblings</subject><ispartof>Cells (Basel, Switzerland), 2024-07, Vol.13 (14), p.1200</ispartof><rights>COPYRIGHT 2024 MDPI AG</rights><rights>2024 by the authors. 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The encoded proteins form a molecular ruler complex, crucial for maintaining the 96 nm repeat units along the ciliary axonemes. Defects of those proteins cause a stiff, rapid, and flickery ciliary beating pattern, recurrent respiratory infections, axonemal disorganization, and abnormal assembly of GAS8, CCDC39, and DNALI1. We performed molecular characterization of the defects in the 96 nm axonemal ruler due to disease-causing variants in and and analyzed the effect on additional axonemal components. We identified a cohort of 51 individuals with disease-causing variants in and via next-generation sequencing techniques and demonstrated that the IDA heavy chains DNAH1, DNAH6, and DNAH7 are conspicuously absent within the respiratory ciliary axonemes by immunofluorescence analyses. Hence, we show for the first time that the centrin2 (CETN2) containing IDAs are also affected. These findings underscore the crucial role of CCDC39 and CCDC40 in the assembly and function of IDAs in human respiratory cilia. 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The encoded proteins form a molecular ruler complex, crucial for maintaining the 96 nm repeat units along the ciliary axonemes. Defects of those proteins cause a stiff, rapid, and flickery ciliary beating pattern, recurrent respiratory infections, axonemal disorganization, and abnormal assembly of GAS8, CCDC39, and DNALI1. We performed molecular characterization of the defects in the 96 nm axonemal ruler due to disease-causing variants in and and analyzed the effect on additional axonemal components. We identified a cohort of 51 individuals with disease-causing variants in and via next-generation sequencing techniques and demonstrated that the IDA heavy chains DNAH1, DNAH6, and DNAH7 are conspicuously absent within the respiratory ciliary axonemes by immunofluorescence analyses. Hence, we show for the first time that the centrin2 (CETN2) containing IDAs are also affected. These findings underscore the crucial role of CCDC39 and CCDC40 in the assembly and function of IDAs in human respiratory cilia. Thus, our data improve the diagnostics of axonemal ruler defects by further characterizing the associated molecular IDA defects.</abstract><cop>Switzerland</cop><pub>MDPI AG</pub><pmid>39056782</pmid><doi>10.3390/cells13141200</doi><orcidid>https://orcid.org/0000-0003-0282-6765</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Analysis Antibodies axonemal disorganization Axonemal Dyneins - genetics Axonemal Dyneins - metabolism Axoneme - metabolism Axonemes Biopsy Cilia Cilia - metabolism Cilia - pathology Ciliary Motility Disorders - genetics Ciliary Motility Disorders - metabolism Ciliary Motility Disorders - pathology Cytoskeletal Proteins diagnostics Dynein Dyneins - genetics Dyneins - metabolism Dyskinesia Humans IDA Immunofluorescence Lung diseases Male Membranes Microscopy motile cilia Movement disorders Mutation - genetics Next-generation sequencing PCD Primary ciliary dyskinesia Proteins Respiration Respiratory tract infection ruler Siblings
title	Primary Ciliary Dyskinesia Associated Disease-Causing Variants in CCDC39 and CCDC40 Cause Axonemal Absence of Inner Dynein Arm Heavy Chains DNAH1, DNAH6, and DNAH7
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