Rare disruptive mutations in ciliary function genes contribute to testicular cancer susceptibility

Testicular germ cell tumour (TGCT) is the most common cancer in young men. Here we sought to identify risk factors for TGCT by performing whole-exome sequencing on 328 TGCT cases from 153 families, 634 sporadic TGCT cases and 1,644 controls. We search for genes that are recurrently affected by rare...

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Autores principales: Litchfield, Kevin, Levy, Max, Dudakia, Darshna, Proszek, Paula, Shipley, Claire, Basten, Sander, Rapley, Elizabeth, Bishop, D. Timothy, Reid, Alison, Huddart, Robert, Broderick, Peter, Castro, David Gonzalez de, O'Connor, Simon, Giles, Rachel H., Houlston, Richard S., Turnbull, Clare
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2016
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5187424/
https://www.ncbi.nlm.nih.gov/pubmed/27996046
http://dx.doi.org/10.1038/ncomms13840
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author Litchfield, Kevin
Levy, Max
Dudakia, Darshna
Proszek, Paula
Shipley, Claire
Basten, Sander
Rapley, Elizabeth
Bishop, D. Timothy
Reid, Alison
Huddart, Robert
Broderick, Peter
Castro, David Gonzalez de
O'Connor, Simon
Giles, Rachel H.
Houlston, Richard S.
Turnbull, Clare
author_facet Litchfield, Kevin
Levy, Max
Dudakia, Darshna
Proszek, Paula
Shipley, Claire
Basten, Sander
Rapley, Elizabeth
Bishop, D. Timothy
Reid, Alison
Huddart, Robert
Broderick, Peter
Castro, David Gonzalez de
O'Connor, Simon
Giles, Rachel H.
Houlston, Richard S.
Turnbull, Clare
author_sort Litchfield, Kevin
collection PubMed
description Testicular germ cell tumour (TGCT) is the most common cancer in young men. Here we sought to identify risk factors for TGCT by performing whole-exome sequencing on 328 TGCT cases from 153 families, 634 sporadic TGCT cases and 1,644 controls. We search for genes that are recurrently affected by rare variants (minor allele frequency <0.01) with potentially damaging effects and evidence of segregation in families. A total of 8.7% of TGCT families carry rare disruptive mutations in the cilia-microtubule genes (CMG) as compared with 0.5% of controls (P=2.1 × 10(−8)). The most significantly mutated CMG is DNAAF1 with biallelic inactivation and loss of DNAAF1 expression shown in tumours from carriers. DNAAF1 mutation as a cause of TGCT is supported by a dnaaf1(hu255h)(+/−) zebrafish model, which has a 94% risk of TGCT. Our data implicate cilia-microtubule inactivation as a cause of TGCT and provide evidence for CMGs as cancer susceptibility genes.
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spelling pubmed-51874242017-01-03 Rare disruptive mutations in ciliary function genes contribute to testicular cancer susceptibility Litchfield, Kevin Levy, Max Dudakia, Darshna Proszek, Paula Shipley, Claire Basten, Sander Rapley, Elizabeth Bishop, D. Timothy Reid, Alison Huddart, Robert Broderick, Peter Castro, David Gonzalez de O'Connor, Simon Giles, Rachel H. Houlston, Richard S. Turnbull, Clare Nat Commun Article Testicular germ cell tumour (TGCT) is the most common cancer in young men. Here we sought to identify risk factors for TGCT by performing whole-exome sequencing on 328 TGCT cases from 153 families, 634 sporadic TGCT cases and 1,644 controls. We search for genes that are recurrently affected by rare variants (minor allele frequency <0.01) with potentially damaging effects and evidence of segregation in families. A total of 8.7% of TGCT families carry rare disruptive mutations in the cilia-microtubule genes (CMG) as compared with 0.5% of controls (P=2.1 × 10(−8)). The most significantly mutated CMG is DNAAF1 with biallelic inactivation and loss of DNAAF1 expression shown in tumours from carriers. DNAAF1 mutation as a cause of TGCT is supported by a dnaaf1(hu255h)(+/−) zebrafish model, which has a 94% risk of TGCT. Our data implicate cilia-microtubule inactivation as a cause of TGCT and provide evidence for CMGs as cancer susceptibility genes. Nature Publishing Group 2016-12-20 /pmc/articles/PMC5187424/ /pubmed/27996046 http://dx.doi.org/10.1038/ncomms13840 Text en Copyright © 2016, The Author(s) http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article's Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Article
Litchfield, Kevin
Levy, Max
Dudakia, Darshna
Proszek, Paula
Shipley, Claire
Basten, Sander
Rapley, Elizabeth
Bishop, D. Timothy
Reid, Alison
Huddart, Robert
Broderick, Peter
Castro, David Gonzalez de
O'Connor, Simon
Giles, Rachel H.
Houlston, Richard S.
Turnbull, Clare
Rare disruptive mutations in ciliary function genes contribute to testicular cancer susceptibility
title Rare disruptive mutations in ciliary function genes contribute to testicular cancer susceptibility
title_full Rare disruptive mutations in ciliary function genes contribute to testicular cancer susceptibility
title_fullStr Rare disruptive mutations in ciliary function genes contribute to testicular cancer susceptibility
title_full_unstemmed Rare disruptive mutations in ciliary function genes contribute to testicular cancer susceptibility
title_short Rare disruptive mutations in ciliary function genes contribute to testicular cancer susceptibility
title_sort rare disruptive mutations in ciliary function genes contribute to testicular cancer susceptibility
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5187424/
https://www.ncbi.nlm.nih.gov/pubmed/27996046
http://dx.doi.org/10.1038/ncomms13840
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