RPGR mutations might cause reduced orientation of respiratory cilia

RPGR gene encodes retinitis pigmentosa guanosine triphosphatase regulator protein, mutations of which cause 70% of the X‐linked retinitis pigmentosa (XLRP) cases. Rarely, RPGR mutations can also cause primary ciliary dyskinesia (PCD), a multisystem disorder characterized by recurrent respiratory tra...

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Veröffentlicht in:	Pediatric pulmonology 2013-04, Vol.48 (4), p.352-363
Hauptverfasser:	Bukowy-Bieryłło, Zuzanna, Ziętkiewicz, Ewa, Loges, Niki Tomas, Wittmer, Mariana, Geremek, Maciej, Olbrich, Heike, Fliegauf, Manfred, Voelkel, Katarzyna, Rutkiewicz, Ewa, Rutland, Jonathan, Morgan, Lucy, Pogorzelski, Andrzej, Martin, James, Haan, Eric, Berger, Wolfgang, Omran, Heymut, Witt, Michał
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Sprache:	eng
Schlagworte:	Adolescent Cilia - ultrastructure Eye Proteins - genetics Fluorescent Antibody Technique Genetic Markers Genotyping Techniques Humans in vitro ciliogenesis Kartagener Syndrome - complications Kartagener Syndrome - genetics Kartagener Syndrome - pathology Male Microscopy, Electron, Transmission Microscopy, Video mucociliary clearance Nasal Mucosa - ultrastructure Point Mutation primary ciliary dyskinesia Retinitis Pigmentosa - complications Retinitis Pigmentosa - genetics Retinitis Pigmentosa - pathology retinitis pigmentosa guanosine triphosphatase regulator
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creator	Bukowy-Bieryłło, Zuzanna Ziętkiewicz, Ewa Loges, Niki Tomas Wittmer, Mariana Geremek, Maciej Olbrich, Heike Fliegauf, Manfred Voelkel, Katarzyna Rutkiewicz, Ewa Rutland, Jonathan Morgan, Lucy Pogorzelski, Andrzej Martin, James Haan, Eric Berger, Wolfgang Omran, Heymut Witt, Michał
description	RPGR gene encodes retinitis pigmentosa guanosine triphosphatase regulator protein, mutations of which cause 70% of the X‐linked retinitis pigmentosa (XLRP) cases. Rarely, RPGR mutations can also cause primary ciliary dyskinesia (PCD), a multisystem disorder characterized by recurrent respiratory tract infections, sinusitis, bronchiectasis, and male subfertility. Two patients with PCD_RP and their relatives were analyzed using DNA sequencing, transmission electron microscopy (TEM), immunofluorescence (IF), photometry, and high‐speed videomicroscopy. The Polish patient carried a previously known c.154G>A substitution (p.Gly52Arg) in exon 2 (known to affect splicing); the mutation was co‐segregating with the XLRP symptoms in his family. The c.824 G>T mutation (p. Gly275Val) in the Australian patient was a de novo mutation. In both patients, TEM and IF did not reveal any changes in the respiratory cilia structure. However, following ciliogenesis in vitro, in contrast to the ciliary beat frequency, the ciliary beat coordination in the spheroids from the Polish proband and his relatives carrying the c.154G>A mutation was reduced. Analysis of the ciliary alignment indicated severely disturbed orientation of cilia. Therefore, we confirm that defects in the RPGR protein may contribute to syndromic PCD. Lack of ultrastructural defects in respiratory cilia of the probands, the reduced ciliary orientation and the decreased coordination of the ciliary bundles observed in the Polish patient suggested that the RPGR protein may play a role in the establishment of the proper respiratory cilia orientation. Pediatr Pulmonol. 2013; 48:352–363. © 2012 Wiley Periodicals, Inc.
doi_str_mv	10.1002/ppul.22632
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Rarely, RPGR mutations can also cause primary ciliary dyskinesia (PCD), a multisystem disorder characterized by recurrent respiratory tract infections, sinusitis, bronchiectasis, and male subfertility. Two patients with PCD_RP and their relatives were analyzed using DNA sequencing, transmission electron microscopy (TEM), immunofluorescence (IF), photometry, and high‐speed videomicroscopy. The Polish patient carried a previously known c.154G>A substitution (p.Gly52Arg) in exon 2 (known to affect splicing); the mutation was co‐segregating with the XLRP symptoms in his family. The c.824 G>T mutation (p. Gly275Val) in the Australian patient was a de novo mutation. In both patients, TEM and IF did not reveal any changes in the respiratory cilia structure. However, following ciliogenesis in vitro, in contrast to the ciliary beat frequency, the ciliary beat coordination in the spheroids from the Polish proband and his relatives carrying the c.154G>A mutation was reduced. Analysis of the ciliary alignment indicated severely disturbed orientation of cilia. Therefore, we confirm that defects in the RPGR protein may contribute to syndromic PCD. Lack of ultrastructural defects in respiratory cilia of the probands, the reduced ciliary orientation and the decreased coordination of the ciliary bundles observed in the Polish patient suggested that the RPGR protein may play a role in the establishment of the proper respiratory cilia orientation. 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Pulmonol</addtitle><description>RPGR gene encodes retinitis pigmentosa guanosine triphosphatase regulator protein, mutations of which cause 70% of the X‐linked retinitis pigmentosa (XLRP) cases. Rarely, RPGR mutations can also cause primary ciliary dyskinesia (PCD), a multisystem disorder characterized by recurrent respiratory tract infections, sinusitis, bronchiectasis, and male subfertility. Two patients with PCD_RP and their relatives were analyzed using DNA sequencing, transmission electron microscopy (TEM), immunofluorescence (IF), photometry, and high‐speed videomicroscopy. The Polish patient carried a previously known c.154G>A substitution (p.Gly52Arg) in exon 2 (known to affect splicing); the mutation was co‐segregating with the XLRP symptoms in his family. The c.824 G>T mutation (p. Gly275Val) in the Australian patient was a de novo mutation. In both patients, TEM and IF did not reveal any changes in the respiratory cilia structure. However, following ciliogenesis in vitro, in contrast to the ciliary beat frequency, the ciliary beat coordination in the spheroids from the Polish proband and his relatives carrying the c.154G>A mutation was reduced. Analysis of the ciliary alignment indicated severely disturbed orientation of cilia. Therefore, we confirm that defects in the RPGR protein may contribute to syndromic PCD. Lack of ultrastructural defects in respiratory cilia of the probands, the reduced ciliary orientation and the decreased coordination of the ciliary bundles observed in the Polish patient suggested that the RPGR protein may play a role in the establishment of the proper respiratory cilia orientation. 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Pulmonol</addtitle><date>2013-04</date><risdate>2013</risdate><volume>48</volume><issue>4</issue><spage>352</spage><epage>363</epage><pages>352-363</pages><issn>8755-6863</issn><eissn>1099-0496</eissn><abstract>RPGR gene encodes retinitis pigmentosa guanosine triphosphatase regulator protein, mutations of which cause 70% of the X‐linked retinitis pigmentosa (XLRP) cases. Rarely, RPGR mutations can also cause primary ciliary dyskinesia (PCD), a multisystem disorder characterized by recurrent respiratory tract infections, sinusitis, bronchiectasis, and male subfertility. Two patients with PCD_RP and their relatives were analyzed using DNA sequencing, transmission electron microscopy (TEM), immunofluorescence (IF), photometry, and high‐speed videomicroscopy. The Polish patient carried a previously known c.154G>A substitution (p.Gly52Arg) in exon 2 (known to affect splicing); the mutation was co‐segregating with the XLRP symptoms in his family. The c.824 G>T mutation (p. Gly275Val) in the Australian patient was a de novo mutation. In both patients, TEM and IF did not reveal any changes in the respiratory cilia structure. However, following ciliogenesis in vitro, in contrast to the ciliary beat frequency, the ciliary beat coordination in the spheroids from the Polish proband and his relatives carrying the c.154G>A mutation was reduced. Analysis of the ciliary alignment indicated severely disturbed orientation of cilia. Therefore, we confirm that defects in the RPGR protein may contribute to syndromic PCD. Lack of ultrastructural defects in respiratory cilia of the probands, the reduced ciliary orientation and the decreased coordination of the ciliary bundles observed in the Polish patient suggested that the RPGR protein may play a role in the establishment of the proper respiratory cilia orientation. 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subjects	Adolescent Cilia - ultrastructure Eye Proteins - genetics Fluorescent Antibody Technique Genetic Markers Genotyping Techniques Humans in vitro ciliogenesis Kartagener Syndrome - complications Kartagener Syndrome - genetics Kartagener Syndrome - pathology Male Microscopy, Electron, Transmission Microscopy, Video mucociliary clearance Nasal Mucosa - ultrastructure Point Mutation primary ciliary dyskinesia Retinitis Pigmentosa - complications Retinitis Pigmentosa - genetics Retinitis Pigmentosa - pathology retinitis pigmentosa guanosine triphosphatase regulator
title	RPGR mutations might cause reduced orientation of respiratory cilia
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