Identification of novel mutations in X-linked retinitis pigmentosa families and implications for diagnostic testing

John Neidhardt; Esther Glaus; Birgit Lorenz; Christian Netzer; Yuen Li; Maria Schambeck; Mariana Wittmer; Silke Feil; Renate Kirschner-Schwabe; Thomas Rosenberg; Frans P. M. Cremers; Arthur A. B. Bergen; Daniel Barthelmes; Husnia Baraki; Fabian Schmid; Gaby Tanner; Johannes Fleischhauer; Ulrike Orth; Christian Becker; Erika Wegscheider; Gudrun Nuernberg; Peter Nuernberg; Hanno Joern Bolz; Andreas Gal; Wolfgang Berger

Identification of novel mutations in X-linked retinitis pigmentosa families and implications for diagnostic testing

John Neidhardt, Esther Glaus, Birgit Lorenz, Christian Netzer, Yuen Li, Maria Schambeck, Mariana Wittmer, Silke Feil, Renate Kirschner-Schwabe, Thomas Rosenberg, Frans P. M. Cremers, Arthur A. B. Bergen, Daniel Barthelmes, Husnia Baraki, Fabian Schmid, Gaby Tanner, Johannes Fleischhauer, Ulrike Orth, Christian Becker, Erika WegscheiderGudrun Nuernberg, Peter Nuernberg, Hanno Joern Bolz, Andreas Gal, Wolfgang Berger

Research output: Contribution to journal › Article › Academic › peer-review

69 Citations (Scopus)

Abstract

Purpose: The goal of this study was to identify mutations in X-chromosomal genes associated with retinitis pigmentosa (RP) in patients from Germany, The Netherlands, Denmark, and Switzerland. Methods: In addition to all coding exons of RP2, exons 1 through 15, 9a, ORF15, 15a and 15b of RPGR were screened for mutations. PCR products were amplified from genomic DNA extracted from blood samples and analyzed by direct sequencing. In one family with apparently dominant inheritance of RP, linkage analysis identified an interval on the X chromosome containing RPGR, and mutation screening revealed a pathogenic variant in this gene. Patients of this family were examined clinically and by X-inactivation studies. Results: This study included 141 RP families with possible X-chromosomal inheritance. In total, we identified 46 families with pathogenic sequence alterations in RPGR and RP2, of which 17 mutations have not been described previously. Two of the novel mutations represent the most 3'-terminal pathogenic sequence variants in RPGR and RP2 reported to date. In exon ORF15 of RPGR, we found eight novel and 14 known mutations. All lead to a disruption of open reading frame. Of the families with suggested X-chromosomal inheritance, 35% showed mutations in ORF15. In addition, we found five novel mutations in other exons of RPGR and four in RP2. Deletions in ORF15 of RPGR were identified in three families in which female carriers showed variable manifestation of the phenotype. Furthermore, an ORF15 mutation was found in an RP patient who additionally carries a 6.4 kbp deletion downstream of the coding region of exon ORF15. We did not identify mutations in 39 sporadic male cases from Switzerland. Conclusions: RPGR mutations were confirmed to be the most frequent cause of RP in families with an X-chromosomal inheritance pattern. We propose a screening strategy to provide molecular diagnostics in these families

Original language	English
Pages (from-to)	1081-1093
Journal	Molecular vision
Volume	14
Issue number	129
Publication status	Published - 2008

Cite this

Neidhardt, J., Glaus, E., Lorenz, B., Netzer, C., Li, Y., Schambeck, M., Wittmer, M., Feil, S., Kirschner-Schwabe, R., Rosenberg, T., Cremers, F. P. M., Bergen, A. A. B., Barthelmes, D., Baraki, H., Schmid, F., Tanner, G., Fleischhauer, J., Orth, U., Becker, C., ... Berger, W. (2008). Identification of novel mutations in X-linked retinitis pigmentosa families and implications for diagnostic testing. Molecular vision, 14(129), 1081-1093.

@article{a5a3fc0584214efba3db3b251ac7c045,

title = "Identification of novel mutations in X-linked retinitis pigmentosa families and implications for diagnostic testing",

abstract = "Purpose: The goal of this study was to identify mutations in X-chromosomal genes associated with retinitis pigmentosa (RP) in patients from Germany, The Netherlands, Denmark, and Switzerland. Methods: In addition to all coding exons of RP2, exons 1 through 15, 9a, ORF15, 15a and 15b of RPGR were screened for mutations. PCR products were amplified from genomic DNA extracted from blood samples and analyzed by direct sequencing. In one family with apparently dominant inheritance of RP, linkage analysis identified an interval on the X chromosome containing RPGR, and mutation screening revealed a pathogenic variant in this gene. Patients of this family were examined clinically and by X-inactivation studies. Results: This study included 141 RP families with possible X-chromosomal inheritance. In total, we identified 46 families with pathogenic sequence alterations in RPGR and RP2, of which 17 mutations have not been described previously. Two of the novel mutations represent the most 3'-terminal pathogenic sequence variants in RPGR and RP2 reported to date. In exon ORF15 of RPGR, we found eight novel and 14 known mutations. All lead to a disruption of open reading frame. Of the families with suggested X-chromosomal inheritance, 35% showed mutations in ORF15. In addition, we found five novel mutations in other exons of RPGR and four in RP2. Deletions in ORF15 of RPGR were identified in three families in which female carriers showed variable manifestation of the phenotype. Furthermore, an ORF15 mutation was found in an RP patient who additionally carries a 6.4 kbp deletion downstream of the coding region of exon ORF15. We did not identify mutations in 39 sporadic male cases from Switzerland. Conclusions: RPGR mutations were confirmed to be the most frequent cause of RP in families with an X-chromosomal inheritance pattern. We propose a screening strategy to provide molecular diagnostics in these families",

author = "John Neidhardt and Esther Glaus and Birgit Lorenz and Christian Netzer and Yuen Li and Maria Schambeck and Mariana Wittmer and Silke Feil and Renate Kirschner-Schwabe and Thomas Rosenberg and Cremers, {Frans P. M.} and Bergen, {Arthur A. B.} and Daniel Barthelmes and Husnia Baraki and Fabian Schmid and Gaby Tanner and Johannes Fleischhauer and Ulrike Orth and Christian Becker and Erika Wegscheider and Gudrun Nuernberg and Peter Nuernberg and Bolz, {Hanno Joern} and Andreas Gal and Wolfgang Berger",

year = "2008",

language = "English",

volume = "14",

pages = "1081--1093",

journal = "Molecular vision",

issn = "1090-0535",

publisher = "Molecular Vision",

number = "129",

}

Neidhardt, J, Glaus, E, Lorenz, B, Netzer, C, Li, Y, Schambeck, M, Wittmer, M, Feil, S, Kirschner-Schwabe, R, Rosenberg, T, Cremers, FPM, Bergen, AAB, Barthelmes, D, Baraki, H, Schmid, F, Tanner, G, Fleischhauer, J, Orth, U, Becker, C, Wegscheider, E, Nuernberg, G, Nuernberg, P, Bolz, HJ, Gal, A & Berger, W 2008, 'Identification of novel mutations in X-linked retinitis pigmentosa families and implications for diagnostic testing', Molecular vision, vol. 14, no. 129, pp. 1081-1093.

TY - JOUR

T1 - Identification of novel mutations in X-linked retinitis pigmentosa families and implications for diagnostic testing

AU - Neidhardt, John

AU - Glaus, Esther

AU - Lorenz, Birgit

AU - Netzer, Christian

AU - Li, Yuen

AU - Schambeck, Maria

AU - Wittmer, Mariana

AU - Feil, Silke

AU - Kirschner-Schwabe, Renate

AU - Rosenberg, Thomas

AU - Cremers, Frans P. M.

AU - Bergen, Arthur A. B.

AU - Barthelmes, Daniel

AU - Baraki, Husnia

AU - Schmid, Fabian

AU - Tanner, Gaby

AU - Fleischhauer, Johannes

AU - Orth, Ulrike

AU - Becker, Christian

AU - Wegscheider, Erika

AU - Nuernberg, Gudrun

AU - Nuernberg, Peter

AU - Bolz, Hanno Joern

AU - Gal, Andreas

AU - Berger, Wolfgang

PY - 2008

Y1 - 2008

N2 - Purpose: The goal of this study was to identify mutations in X-chromosomal genes associated with retinitis pigmentosa (RP) in patients from Germany, The Netherlands, Denmark, and Switzerland. Methods: In addition to all coding exons of RP2, exons 1 through 15, 9a, ORF15, 15a and 15b of RPGR were screened for mutations. PCR products were amplified from genomic DNA extracted from blood samples and analyzed by direct sequencing. In one family with apparently dominant inheritance of RP, linkage analysis identified an interval on the X chromosome containing RPGR, and mutation screening revealed a pathogenic variant in this gene. Patients of this family were examined clinically and by X-inactivation studies. Results: This study included 141 RP families with possible X-chromosomal inheritance. In total, we identified 46 families with pathogenic sequence alterations in RPGR and RP2, of which 17 mutations have not been described previously. Two of the novel mutations represent the most 3'-terminal pathogenic sequence variants in RPGR and RP2 reported to date. In exon ORF15 of RPGR, we found eight novel and 14 known mutations. All lead to a disruption of open reading frame. Of the families with suggested X-chromosomal inheritance, 35% showed mutations in ORF15. In addition, we found five novel mutations in other exons of RPGR and four in RP2. Deletions in ORF15 of RPGR were identified in three families in which female carriers showed variable manifestation of the phenotype. Furthermore, an ORF15 mutation was found in an RP patient who additionally carries a 6.4 kbp deletion downstream of the coding region of exon ORF15. We did not identify mutations in 39 sporadic male cases from Switzerland. Conclusions: RPGR mutations were confirmed to be the most frequent cause of RP in families with an X-chromosomal inheritance pattern. We propose a screening strategy to provide molecular diagnostics in these families

AB - Purpose: The goal of this study was to identify mutations in X-chromosomal genes associated with retinitis pigmentosa (RP) in patients from Germany, The Netherlands, Denmark, and Switzerland. Methods: In addition to all coding exons of RP2, exons 1 through 15, 9a, ORF15, 15a and 15b of RPGR were screened for mutations. PCR products were amplified from genomic DNA extracted from blood samples and analyzed by direct sequencing. In one family with apparently dominant inheritance of RP, linkage analysis identified an interval on the X chromosome containing RPGR, and mutation screening revealed a pathogenic variant in this gene. Patients of this family were examined clinically and by X-inactivation studies. Results: This study included 141 RP families with possible X-chromosomal inheritance. In total, we identified 46 families with pathogenic sequence alterations in RPGR and RP2, of which 17 mutations have not been described previously. Two of the novel mutations represent the most 3'-terminal pathogenic sequence variants in RPGR and RP2 reported to date. In exon ORF15 of RPGR, we found eight novel and 14 known mutations. All lead to a disruption of open reading frame. Of the families with suggested X-chromosomal inheritance, 35% showed mutations in ORF15. In addition, we found five novel mutations in other exons of RPGR and four in RP2. Deletions in ORF15 of RPGR were identified in three families in which female carriers showed variable manifestation of the phenotype. Furthermore, an ORF15 mutation was found in an RP patient who additionally carries a 6.4 kbp deletion downstream of the coding region of exon ORF15. We did not identify mutations in 39 sporadic male cases from Switzerland. Conclusions: RPGR mutations were confirmed to be the most frequent cause of RP in families with an X-chromosomal inheritance pattern. We propose a screening strategy to provide molecular diagnostics in these families

M3 - Article

C2 - 18552978

SN - 1090-0535

VL - 14

SP - 1081

EP - 1093

JO - Molecular vision

JF - Molecular vision

IS - 129

ER -