New COL6A6 variant detected by whole-exome sequencing is linked to break points in intron 4 and 3′-UTR, deleting exon 5 of RHO, and causing adRP

PURPOSE: This study aimed to test a newly devised cost-effective multiplex PCR assay for the molecular diagnosis of autosomal dominant retinitis pigmentosa (adRP), as well as the use of whole-exome sequencing (WES) to detect disease-causing mutations in adRP. METHODS: Genomic DNA was extracted from...

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Autores principales: de Sousa Dias, Miguel, Hernan, Imma, Delás, Barbara, Pascual, Beatriz, Borràs, Emma, Gamundi, Maria José, Mañé, Begoña, Fernández-San José, Patricia, Ayuso, Carmen, Carballo, Miguel
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Molecular Vision 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4539015/
https://www.ncbi.nlm.nih.gov/pubmed/26321861
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author de Sousa Dias, Miguel
Hernan, Imma
Delás, Barbara
Pascual, Beatriz
Borràs, Emma
Gamundi, Maria José
Mañé, Begoña
Fernández-San José, Patricia
Ayuso, Carmen
Carballo, Miguel
author_facet de Sousa Dias, Miguel
Hernan, Imma
Delás, Barbara
Pascual, Beatriz
Borràs, Emma
Gamundi, Maria José
Mañé, Begoña
Fernández-San José, Patricia
Ayuso, Carmen
Carballo, Miguel
author_sort de Sousa Dias, Miguel
collection PubMed
description PURPOSE: This study aimed to test a newly devised cost-effective multiplex PCR assay for the molecular diagnosis of autosomal dominant retinitis pigmentosa (adRP), as well as the use of whole-exome sequencing (WES) to detect disease-causing mutations in adRP. METHODS: Genomic DNA was extracted from peripheral blood lymphocytes of index patients with adRP and their affected and unaffected family members. We used a newly devised multiplex PCR assay capable of amplifying the genetic loci of RHO, PRPH2, RP1, PRPF3, PRPF8, PRPF31, IMPDH1, NRL, CRX, KLHL7, and NR2E3 to molecularly diagnose 18 index patients with adRP. We also performed WES in affected and unaffected members of four families with adRP in whom a disease-causing mutation was previously not found. RESULTS: We identified five previously reported mutations (p.Arg677X in the RP1 gene, p.Asp133Val and p.Arg195Leu in the PRPH2 gene, and p.Pro171Leu and p.Pro215Leu in the RHO gene) and one novel mutation (p.Val345Gly in the RHO gene) representing 33% detection of causative mutations in our adRP cohort. Comparative WES analysis showed a new variant (p.Gly103Arg in the COL6A6 gene) that segregated with the disease in one family with adRP. As this variant was linked with the RHO locus, we sequenced the complete RHO gene, which revealed a deletion in intron 4 that encompassed all of exon 5 and 28 bp of the 3′-untranslated region (UTR). CONCLUSIONS: The novel multiplex PCR assay with next-generation sequencing (NGS) proved effective for detecting most of the adRP-causing mutations. A WES approach led to identification of a deletion in RHO through detection of a new linked variant in COL6A6. No pathogenic variants were identified in the remaining three families. Moreover, NGS and WES were inefficient for detecting the complete deletion of exon 5 in the RHO gene in one family with adRP. Carriers of this deletion showed variable clinical status, and two of these carriers had not previously been diagnosed with RP.
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spelling pubmed-45390152015-08-28 New COL6A6 variant detected by whole-exome sequencing is linked to break points in intron 4 and 3′-UTR, deleting exon 5 of RHO, and causing adRP de Sousa Dias, Miguel Hernan, Imma Delás, Barbara Pascual, Beatriz Borràs, Emma Gamundi, Maria José Mañé, Begoña Fernández-San José, Patricia Ayuso, Carmen Carballo, Miguel Mol Vis Research Article PURPOSE: This study aimed to test a newly devised cost-effective multiplex PCR assay for the molecular diagnosis of autosomal dominant retinitis pigmentosa (adRP), as well as the use of whole-exome sequencing (WES) to detect disease-causing mutations in adRP. METHODS: Genomic DNA was extracted from peripheral blood lymphocytes of index patients with adRP and their affected and unaffected family members. We used a newly devised multiplex PCR assay capable of amplifying the genetic loci of RHO, PRPH2, RP1, PRPF3, PRPF8, PRPF31, IMPDH1, NRL, CRX, KLHL7, and NR2E3 to molecularly diagnose 18 index patients with adRP. We also performed WES in affected and unaffected members of four families with adRP in whom a disease-causing mutation was previously not found. RESULTS: We identified five previously reported mutations (p.Arg677X in the RP1 gene, p.Asp133Val and p.Arg195Leu in the PRPH2 gene, and p.Pro171Leu and p.Pro215Leu in the RHO gene) and one novel mutation (p.Val345Gly in the RHO gene) representing 33% detection of causative mutations in our adRP cohort. Comparative WES analysis showed a new variant (p.Gly103Arg in the COL6A6 gene) that segregated with the disease in one family with adRP. As this variant was linked with the RHO locus, we sequenced the complete RHO gene, which revealed a deletion in intron 4 that encompassed all of exon 5 and 28 bp of the 3′-untranslated region (UTR). CONCLUSIONS: The novel multiplex PCR assay with next-generation sequencing (NGS) proved effective for detecting most of the adRP-causing mutations. A WES approach led to identification of a deletion in RHO through detection of a new linked variant in COL6A6. No pathogenic variants were identified in the remaining three families. Moreover, NGS and WES were inefficient for detecting the complete deletion of exon 5 in the RHO gene in one family with adRP. Carriers of this deletion showed variable clinical status, and two of these carriers had not previously been diagnosed with RP. Molecular Vision 2015-08-18 /pmc/articles/PMC4539015/ /pubmed/26321861 Text en Copyright © 2015 Molecular Vision. http://creativecommons.org/licenses/by-nc-nd/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited, used for non-commercial purposes, and is not altered or transformed.
spellingShingle Research Article
de Sousa Dias, Miguel
Hernan, Imma
Delás, Barbara
Pascual, Beatriz
Borràs, Emma
Gamundi, Maria José
Mañé, Begoña
Fernández-San José, Patricia
Ayuso, Carmen
Carballo, Miguel
New COL6A6 variant detected by whole-exome sequencing is linked to break points in intron 4 and 3′-UTR, deleting exon 5 of RHO, and causing adRP
title New COL6A6 variant detected by whole-exome sequencing is linked to break points in intron 4 and 3′-UTR, deleting exon 5 of RHO, and causing adRP
title_full New COL6A6 variant detected by whole-exome sequencing is linked to break points in intron 4 and 3′-UTR, deleting exon 5 of RHO, and causing adRP
title_fullStr New COL6A6 variant detected by whole-exome sequencing is linked to break points in intron 4 and 3′-UTR, deleting exon 5 of RHO, and causing adRP
title_full_unstemmed New COL6A6 variant detected by whole-exome sequencing is linked to break points in intron 4 and 3′-UTR, deleting exon 5 of RHO, and causing adRP
title_short New COL6A6 variant detected by whole-exome sequencing is linked to break points in intron 4 and 3′-UTR, deleting exon 5 of RHO, and causing adRP
title_sort new col6a6 variant detected by whole-exome sequencing is linked to break points in intron 4 and 3′-utr, deleting exon 5 of rho, and causing adrp
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4539015/
https://www.ncbi.nlm.nih.gov/pubmed/26321861
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