Genetic control of mRNA splicing as a potential mechanism for incomplete penetrance of rare coding variants

Exonic variants present some of the strongest links between genotype and phenotype. However, these variants can have significant inter-individual pathogenicity differences, known as variable penetrance. In this study, we propose a model where genetically controlled mRNA splicing modulates the pathog...

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Autores principales: Einson, Jonah, Glinos, Dafni, Boerwinkle, Eric, Castaldi, Peter, Darbar, Dawood, de Andrade, Mariza, Ellinor, Patrick, Fornage, Myriam, Gabriel, Stacey, Germer, Soren, Gibbs, Richard, Hersh, Craig P., Johnsen, Jill, Kaplan, Robert, Konkle, Barbara A., Kooperberg, Charles, Nassir, Rami, Loos, Ruth J.F., Meyers, Deborah A, Mitchell, Braxton D., Psaty, Bruce, Vasan, Ramachandran S., Rich, Stephen S., Rienstra, Michael, Rotter, Jerome I., Saferali, Aabida, Shoemaker, M. Benjamin, Silverman, Edwin, Smith, Albert Vernon, Mohammadi, Pejman, Castel, Stephane E., Iossifov, Ivan, Lappalainen, Tuuli
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9915611/
https://www.ncbi.nlm.nih.gov/pubmed/36778406
http://dx.doi.org/10.1101/2023.01.31.526505
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author Einson, Jonah
Glinos, Dafni
Boerwinkle, Eric
Castaldi, Peter
Darbar, Dawood
de Andrade, Mariza
Ellinor, Patrick
Fornage, Myriam
Gabriel, Stacey
Germer, Soren
Gibbs, Richard
Hersh, Craig P.
Johnsen, Jill
Kaplan, Robert
Konkle, Barbara A.
Kooperberg, Charles
Nassir, Rami
Loos, Ruth J.F.
Meyers, Deborah A
Mitchell, Braxton D.
Psaty, Bruce
Vasan, Ramachandran S.
Rich, Stephen S.
Rienstra, Michael
Rotter, Jerome I.
Saferali, Aabida
Shoemaker, M. Benjamin
Silverman, Edwin
Smith, Albert Vernon
Mohammadi, Pejman
Castel, Stephane E.
Iossifov, Ivan
Lappalainen, Tuuli
author_facet Einson, Jonah
Glinos, Dafni
Boerwinkle, Eric
Castaldi, Peter
Darbar, Dawood
de Andrade, Mariza
Ellinor, Patrick
Fornage, Myriam
Gabriel, Stacey
Germer, Soren
Gibbs, Richard
Hersh, Craig P.
Johnsen, Jill
Kaplan, Robert
Konkle, Barbara A.
Kooperberg, Charles
Nassir, Rami
Loos, Ruth J.F.
Meyers, Deborah A
Mitchell, Braxton D.
Psaty, Bruce
Vasan, Ramachandran S.
Rich, Stephen S.
Rienstra, Michael
Rotter, Jerome I.
Saferali, Aabida
Shoemaker, M. Benjamin
Silverman, Edwin
Smith, Albert Vernon
Mohammadi, Pejman
Castel, Stephane E.
Iossifov, Ivan
Lappalainen, Tuuli
author_sort Einson, Jonah
collection PubMed
description Exonic variants present some of the strongest links between genotype and phenotype. However, these variants can have significant inter-individual pathogenicity differences, known as variable penetrance. In this study, we propose a model where genetically controlled mRNA splicing modulates the pathogenicity of exonic variants. By first cataloging exonic inclusion from RNA-seq data in GTEx v8, we find that pathogenic alleles are depleted on highly included exons. Using a large-scale phased WGS data from the TOPMed consortium, we observe that this effect may be driven by common splice-regulatory genetic variants, and that natural selection acts on haplotype configurations that reduce the transcript inclusion of putatively pathogenic variants, especially when limiting to haploinsufficient genes. Finally, we test if this effect may be relevant for autism risk using families from the Simons Simplex Collection, but find that splicing of pathogenic alleles has a penetrance reducing effect here as well. Overall, our results indicate that common splice-regulatory variants may play a role in reducing the damaging effects of rare exonic variants.
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spelling pubmed-99156112023-02-11 Genetic control of mRNA splicing as a potential mechanism for incomplete penetrance of rare coding variants Einson, Jonah Glinos, Dafni Boerwinkle, Eric Castaldi, Peter Darbar, Dawood de Andrade, Mariza Ellinor, Patrick Fornage, Myriam Gabriel, Stacey Germer, Soren Gibbs, Richard Hersh, Craig P. Johnsen, Jill Kaplan, Robert Konkle, Barbara A. Kooperberg, Charles Nassir, Rami Loos, Ruth J.F. Meyers, Deborah A Mitchell, Braxton D. Psaty, Bruce Vasan, Ramachandran S. Rich, Stephen S. Rienstra, Michael Rotter, Jerome I. Saferali, Aabida Shoemaker, M. Benjamin Silverman, Edwin Smith, Albert Vernon Mohammadi, Pejman Castel, Stephane E. Iossifov, Ivan Lappalainen, Tuuli bioRxiv Article Exonic variants present some of the strongest links between genotype and phenotype. However, these variants can have significant inter-individual pathogenicity differences, known as variable penetrance. In this study, we propose a model where genetically controlled mRNA splicing modulates the pathogenicity of exonic variants. By first cataloging exonic inclusion from RNA-seq data in GTEx v8, we find that pathogenic alleles are depleted on highly included exons. Using a large-scale phased WGS data from the TOPMed consortium, we observe that this effect may be driven by common splice-regulatory genetic variants, and that natural selection acts on haplotype configurations that reduce the transcript inclusion of putatively pathogenic variants, especially when limiting to haploinsufficient genes. Finally, we test if this effect may be relevant for autism risk using families from the Simons Simplex Collection, but find that splicing of pathogenic alleles has a penetrance reducing effect here as well. Overall, our results indicate that common splice-regulatory variants may play a role in reducing the damaging effects of rare exonic variants. Cold Spring Harbor Laboratory 2023-01-31 /pmc/articles/PMC9915611/ /pubmed/36778406 http://dx.doi.org/10.1101/2023.01.31.526505 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (https://creativecommons.org/licenses/by-nc-nd/4.0/) , which allows reusers to copy and distribute the material in any medium or format in unadapted form only, for noncommercial purposes only, and only so long as attribution is given to the creator.
spellingShingle Article
Einson, Jonah
Glinos, Dafni
Boerwinkle, Eric
Castaldi, Peter
Darbar, Dawood
de Andrade, Mariza
Ellinor, Patrick
Fornage, Myriam
Gabriel, Stacey
Germer, Soren
Gibbs, Richard
Hersh, Craig P.
Johnsen, Jill
Kaplan, Robert
Konkle, Barbara A.
Kooperberg, Charles
Nassir, Rami
Loos, Ruth J.F.
Meyers, Deborah A
Mitchell, Braxton D.
Psaty, Bruce
Vasan, Ramachandran S.
Rich, Stephen S.
Rienstra, Michael
Rotter, Jerome I.
Saferali, Aabida
Shoemaker, M. Benjamin
Silverman, Edwin
Smith, Albert Vernon
Mohammadi, Pejman
Castel, Stephane E.
Iossifov, Ivan
Lappalainen, Tuuli
Genetic control of mRNA splicing as a potential mechanism for incomplete penetrance of rare coding variants
title Genetic control of mRNA splicing as a potential mechanism for incomplete penetrance of rare coding variants
title_full Genetic control of mRNA splicing as a potential mechanism for incomplete penetrance of rare coding variants
title_fullStr Genetic control of mRNA splicing as a potential mechanism for incomplete penetrance of rare coding variants
title_full_unstemmed Genetic control of mRNA splicing as a potential mechanism for incomplete penetrance of rare coding variants
title_short Genetic control of mRNA splicing as a potential mechanism for incomplete penetrance of rare coding variants
title_sort genetic control of mrna splicing as a potential mechanism for incomplete penetrance of rare coding variants
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9915611/
https://www.ncbi.nlm.nih.gov/pubmed/36778406
http://dx.doi.org/10.1101/2023.01.31.526505
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