Deep-intronic ABCA4 variants explain missing heritability in Stargardt disease and allow correction of splice defects by antisense oligonucleotides

PURPOSE: Using exome sequencing, the underlying variants in many persons with autosomal recessive diseases remain undetected. We explored autosomal recessive Stargardt disease (STGD1) as a model to identify the missing heritability. METHODS: Sequencing of ABCA4 was performed in 8 STGD1 cases with on...

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Autores principales: Sangermano, Riccardo, Garanto, Alejandro, Khan, Mubeen, Runhart, Esmee H., Bauwens, Miriam, Bax, Nathalie M., van den Born, L. Ingeborgh, Khan, Muhammad Imran, Cornelis, Stéphanie S., Verheij, Joke B. G. M., Pott, Jan-Willem R., Thiadens, Alberta A. H. J., Klaver, Caroline C. W., Puech, Bernard, Meunier, Isabelle, Naessens, Sarah, Arno, Gavin, Fakin, Ana, Carss, Keren J., Raymond, F. Lucy, Webster, Andrew R., Dhaenens, Claire-Marie, Stöhr, Heidi, Grassmann, Felix, Weber, Bernhard H. F., Hoyng, Carel B., De Baere, Elfride, Albert, Silvia, Collin, Rob W. J., Cremers, Frans P. M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group US 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6752325/
https://www.ncbi.nlm.nih.gov/pubmed/30643219
http://dx.doi.org/10.1038/s41436-018-0414-9
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author Sangermano, Riccardo
Garanto, Alejandro
Khan, Mubeen
Runhart, Esmee H.
Bauwens, Miriam
Bax, Nathalie M.
van den Born, L. Ingeborgh
Khan, Muhammad Imran
Cornelis, Stéphanie S.
Verheij, Joke B. G. M.
Pott, Jan-Willem R.
Thiadens, Alberta A. H. J.
Klaver, Caroline C. W.
Puech, Bernard
Meunier, Isabelle
Naessens, Sarah
Arno, Gavin
Fakin, Ana
Carss, Keren J.
Raymond, F. Lucy
Webster, Andrew R.
Dhaenens, Claire-Marie
Stöhr, Heidi
Grassmann, Felix
Weber, Bernhard H. F.
Hoyng, Carel B.
De Baere, Elfride
Albert, Silvia
Collin, Rob W. J.
Cremers, Frans P. M.
author_facet Sangermano, Riccardo
Garanto, Alejandro
Khan, Mubeen
Runhart, Esmee H.
Bauwens, Miriam
Bax, Nathalie M.
van den Born, L. Ingeborgh
Khan, Muhammad Imran
Cornelis, Stéphanie S.
Verheij, Joke B. G. M.
Pott, Jan-Willem R.
Thiadens, Alberta A. H. J.
Klaver, Caroline C. W.
Puech, Bernard
Meunier, Isabelle
Naessens, Sarah
Arno, Gavin
Fakin, Ana
Carss, Keren J.
Raymond, F. Lucy
Webster, Andrew R.
Dhaenens, Claire-Marie
Stöhr, Heidi
Grassmann, Felix
Weber, Bernhard H. F.
Hoyng, Carel B.
De Baere, Elfride
Albert, Silvia
Collin, Rob W. J.
Cremers, Frans P. M.
author_sort Sangermano, Riccardo
collection PubMed
description PURPOSE: Using exome sequencing, the underlying variants in many persons with autosomal recessive diseases remain undetected. We explored autosomal recessive Stargardt disease (STGD1) as a model to identify the missing heritability. METHODS: Sequencing of ABCA4 was performed in 8 STGD1 cases with one variant and p.Asn1868Ile in trans, 25 cases with one variant, and 3 cases with no ABCA4 variant. The effect of intronic variants was analyzed using in vitro splice assays in HEK293T cells and patient-derived fibroblasts. Antisense oligonucleotides were used to correct splice defects. RESULTS: In 24 of the probands (67%), one known and five novel deep-intronic variants were found. The five novel variants resulted in messenger RNA pseudoexon inclusions, due to strengthening of cryptic splice sites or by disrupting a splicing silencer motif. Variant c.769-784C>T showed partial insertion of a pseudoexon and was found in cis with c.5603A>T (p.Asn1868Ile), so its causal role could not be fully established. Variant c.4253+43G>A resulted in partial skipping of exon 28. Remarkably, antisense oligonucleotides targeting the aberrant splice processes resulted in (partial) correction of all splicing defects. CONCLUSION: Our data demonstrate the importance of assessing noncoding variants in genetic diseases, and show the great potential of splice modulation therapy for deep-intronic variants.
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spelling pubmed-67523252019-09-23 Deep-intronic ABCA4 variants explain missing heritability in Stargardt disease and allow correction of splice defects by antisense oligonucleotides Sangermano, Riccardo Garanto, Alejandro Khan, Mubeen Runhart, Esmee H. Bauwens, Miriam Bax, Nathalie M. van den Born, L. Ingeborgh Khan, Muhammad Imran Cornelis, Stéphanie S. Verheij, Joke B. G. M. Pott, Jan-Willem R. Thiadens, Alberta A. H. J. Klaver, Caroline C. W. Puech, Bernard Meunier, Isabelle Naessens, Sarah Arno, Gavin Fakin, Ana Carss, Keren J. Raymond, F. Lucy Webster, Andrew R. Dhaenens, Claire-Marie Stöhr, Heidi Grassmann, Felix Weber, Bernhard H. F. Hoyng, Carel B. De Baere, Elfride Albert, Silvia Collin, Rob W. J. Cremers, Frans P. M. Genet Med Article PURPOSE: Using exome sequencing, the underlying variants in many persons with autosomal recessive diseases remain undetected. We explored autosomal recessive Stargardt disease (STGD1) as a model to identify the missing heritability. METHODS: Sequencing of ABCA4 was performed in 8 STGD1 cases with one variant and p.Asn1868Ile in trans, 25 cases with one variant, and 3 cases with no ABCA4 variant. The effect of intronic variants was analyzed using in vitro splice assays in HEK293T cells and patient-derived fibroblasts. Antisense oligonucleotides were used to correct splice defects. RESULTS: In 24 of the probands (67%), one known and five novel deep-intronic variants were found. The five novel variants resulted in messenger RNA pseudoexon inclusions, due to strengthening of cryptic splice sites or by disrupting a splicing silencer motif. Variant c.769-784C>T showed partial insertion of a pseudoexon and was found in cis with c.5603A>T (p.Asn1868Ile), so its causal role could not be fully established. Variant c.4253+43G>A resulted in partial skipping of exon 28. Remarkably, antisense oligonucleotides targeting the aberrant splice processes resulted in (partial) correction of all splicing defects. CONCLUSION: Our data demonstrate the importance of assessing noncoding variants in genetic diseases, and show the great potential of splice modulation therapy for deep-intronic variants. Nature Publishing Group US 2019-01-15 2019 /pmc/articles/PMC6752325/ /pubmed/30643219 http://dx.doi.org/10.1038/s41436-018-0414-9 Text en © The Author(s) 2019 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Sangermano, Riccardo
Garanto, Alejandro
Khan, Mubeen
Runhart, Esmee H.
Bauwens, Miriam
Bax, Nathalie M.
van den Born, L. Ingeborgh
Khan, Muhammad Imran
Cornelis, Stéphanie S.
Verheij, Joke B. G. M.
Pott, Jan-Willem R.
Thiadens, Alberta A. H. J.
Klaver, Caroline C. W.
Puech, Bernard
Meunier, Isabelle
Naessens, Sarah
Arno, Gavin
Fakin, Ana
Carss, Keren J.
Raymond, F. Lucy
Webster, Andrew R.
Dhaenens, Claire-Marie
Stöhr, Heidi
Grassmann, Felix
Weber, Bernhard H. F.
Hoyng, Carel B.
De Baere, Elfride
Albert, Silvia
Collin, Rob W. J.
Cremers, Frans P. M.
Deep-intronic ABCA4 variants explain missing heritability in Stargardt disease and allow correction of splice defects by antisense oligonucleotides
title Deep-intronic ABCA4 variants explain missing heritability in Stargardt disease and allow correction of splice defects by antisense oligonucleotides
title_full Deep-intronic ABCA4 variants explain missing heritability in Stargardt disease and allow correction of splice defects by antisense oligonucleotides
title_fullStr Deep-intronic ABCA4 variants explain missing heritability in Stargardt disease and allow correction of splice defects by antisense oligonucleotides
title_full_unstemmed Deep-intronic ABCA4 variants explain missing heritability in Stargardt disease and allow correction of splice defects by antisense oligonucleotides
title_short Deep-intronic ABCA4 variants explain missing heritability in Stargardt disease and allow correction of splice defects by antisense oligonucleotides
title_sort deep-intronic abca4 variants explain missing heritability in stargardt disease and allow correction of splice defects by antisense oligonucleotides
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6752325/
https://www.ncbi.nlm.nih.gov/pubmed/30643219
http://dx.doi.org/10.1038/s41436-018-0414-9
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