A germline mutation in SRRM2, a splicing factor gene, is implicated in papillary thyroid carcinoma predisposition

Jerneja Tomsic; Huiling He; Keiko Akagi; Sandya Liyanarachchi; Qun Pan; Blake Bertani; Rebecca Nagy; David E. Symer; Benjamin J. Blencowe; Albert de la Chapelle

doi:10.1038/SREP10566

A germline mutation in SRRM2, a splicing factor gene, is implicated in papillary thyroid carcinoma predisposition

Jerneja Tomsic, Huiling He, Keiko Akagi, Sandya Liyanarachchi, Qun Pan, Blake Bertani, Rebecca Nagy, David E. Symer, Benjamin J. Blencowe, Albert de la Chapelle

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Abstract

Papillary thyroid carcinoma (PTC) displays strong but so far largely uncharacterized heritability. Here we studied genetic predisposition in a family with six affected individuals. We genotyped all available family members and conducted whole exome sequencing of blood DNA from two affected individuals. Haplotype analysis and other genetic criteria narrowed our list of candidates to a germline variant in the serine/arginine repetitive matrix 2 gene (SRRM2). This heterozygous variant, c.1037C >T (Ser346Phe or S346F; rs149019598) cosegregated with PTC in the family. It was not found in 138 other PTC families. It was found in 7/1,170 sporadic PTC cases and in 0/1,404 controls (p = 0.004). The encoded protein SRRM2 (also called SRm300) is part of the RNA splicing machinery. To evaluate the possibility that the S346F missense mutation affects alternative splicing, we compared RNA-Seq data in leukocytes from three mutation carriers and three controls. Significant differences in alternative splicing were identified for 1,642 exons, of which a subset of 7 exons was verified experimentally. The results confirmed a higher ratio of inclusion of exons in mutation carriers. These data suggest that the S346F mutation in SRRM2 predisposes to PTC by affecting alternative splicing of unidentified downstream target genes.

Original language	English (US)
Article number	10566
Journal	Scientific reports
Volume	5
Issue number	1
DOIs	https://doi.org/10.1038/SREP10566
State	Published - 2015
Externally published	Yes

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@article{52805c4146884a49bf4fa94fa29cb223,

title = "A germline mutation in SRRM2, a splicing factor gene, is implicated in papillary thyroid carcinoma predisposition",

abstract = "Papillary thyroid carcinoma (PTC) displays strong but so far largely uncharacterized heritability. Here we studied genetic predisposition in a family with six affected individuals. We genotyped all available family members and conducted whole exome sequencing of blood DNA from two affected individuals. Haplotype analysis and other genetic criteria narrowed our list of candidates to a germline variant in the serine/arginine repetitive matrix 2 gene (SRRM2). This heterozygous variant, c.1037C >T (Ser346Phe or S346F; rs149019598) cosegregated with PTC in the family. It was not found in 138 other PTC families. It was found in 7/1,170 sporadic PTC cases and in 0/1,404 controls (p = 0.004). The encoded protein SRRM2 (also called SRm300) is part of the RNA splicing machinery. To evaluate the possibility that the S346F missense mutation affects alternative splicing, we compared RNA-Seq data in leukocytes from three mutation carriers and three controls. Significant differences in alternative splicing were identified for 1,642 exons, of which a subset of 7 exons was verified experimentally. The results confirmed a higher ratio of inclusion of exons in mutation carriers. These data suggest that the S346F mutation in SRRM2 predisposes to PTC by affecting alternative splicing of unidentified downstream target genes.",

author = "Jerneja Tomsic and Huiling He and Keiko Akagi and Sandya Liyanarachchi and Qun Pan and Blake Bertani and Rebecca Nagy and Symer, {David E.} and Blencowe, {Benjamin J.} and {de la Chapelle}, Albert",

note = "Funding Information: This work was supported in part by National Cancer Institute Grants P01CA124570 and P30CA16058. The OSUCCC Genomics Shared Resource performed SNP genotyping and Sanger sequencing. Whole exome sequencing was performed at the Biomedical Genomics Core of the Research Institute at Nationwide Children{\textquoteright}s Hospital, Columbus, Ohio (part of Illumina Genome Network). Genotyping of rs149019598 was kindly performed by Dr. Julius Gudmundsson at deCODE Inc, Reykjavik, Iceland. The Genomics Core in the Lerner Research Institute at Cleveland Clinic, Cleveland, OH performed genotyping using bead-chip array. The Donnelly Sequencing Centre at the University of Toronto, Toronto, Canada performed the RNA-Seq experiments. This work also was supported in part by an allocation of computing time from the Ohio Supercomputer Center. Publisher Copyright: {\textcopyright} 2015, Nature Research. All rights reserved.",

year = "2015",

doi = "10.1038/SREP10566",

language = "English (US)",

volume = "5",

journal = "Scientific reports",

issn = "2045-2322",

publisher = "Nature Publishing Group",

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T1 - A germline mutation in SRRM2, a splicing factor gene, is implicated in papillary thyroid carcinoma predisposition

AU - Tomsic, Jerneja

AU - He, Huiling

AU - Akagi, Keiko

AU - Liyanarachchi, Sandya

AU - Pan, Qun

AU - Bertani, Blake

AU - Nagy, Rebecca

AU - Symer, David E.

AU - Blencowe, Benjamin J.

AU - de la Chapelle, Albert

N1 - Funding Information: This work was supported in part by National Cancer Institute Grants P01CA124570 and P30CA16058. The OSUCCC Genomics Shared Resource performed SNP genotyping and Sanger sequencing. Whole exome sequencing was performed at the Biomedical Genomics Core of the Research Institute at Nationwide Children’s Hospital, Columbus, Ohio (part of Illumina Genome Network). Genotyping of rs149019598 was kindly performed by Dr. Julius Gudmundsson at deCODE Inc, Reykjavik, Iceland. The Genomics Core in the Lerner Research Institute at Cleveland Clinic, Cleveland, OH performed genotyping using bead-chip array. The Donnelly Sequencing Centre at the University of Toronto, Toronto, Canada performed the RNA-Seq experiments. This work also was supported in part by an allocation of computing time from the Ohio Supercomputer Center. Publisher Copyright: © 2015, Nature Research. All rights reserved.

PY - 2015

Y1 - 2015

N2 - Papillary thyroid carcinoma (PTC) displays strong but so far largely uncharacterized heritability. Here we studied genetic predisposition in a family with six affected individuals. We genotyped all available family members and conducted whole exome sequencing of blood DNA from two affected individuals. Haplotype analysis and other genetic criteria narrowed our list of candidates to a germline variant in the serine/arginine repetitive matrix 2 gene (SRRM2). This heterozygous variant, c.1037C >T (Ser346Phe or S346F; rs149019598) cosegregated with PTC in the family. It was not found in 138 other PTC families. It was found in 7/1,170 sporadic PTC cases and in 0/1,404 controls (p = 0.004). The encoded protein SRRM2 (also called SRm300) is part of the RNA splicing machinery. To evaluate the possibility that the S346F missense mutation affects alternative splicing, we compared RNA-Seq data in leukocytes from three mutation carriers and three controls. Significant differences in alternative splicing were identified for 1,642 exons, of which a subset of 7 exons was verified experimentally. The results confirmed a higher ratio of inclusion of exons in mutation carriers. These data suggest that the S346F mutation in SRRM2 predisposes to PTC by affecting alternative splicing of unidentified downstream target genes.

AB - Papillary thyroid carcinoma (PTC) displays strong but so far largely uncharacterized heritability. Here we studied genetic predisposition in a family with six affected individuals. We genotyped all available family members and conducted whole exome sequencing of blood DNA from two affected individuals. Haplotype analysis and other genetic criteria narrowed our list of candidates to a germline variant in the serine/arginine repetitive matrix 2 gene (SRRM2). This heterozygous variant, c.1037C >T (Ser346Phe or S346F; rs149019598) cosegregated with PTC in the family. It was not found in 138 other PTC families. It was found in 7/1,170 sporadic PTC cases and in 0/1,404 controls (p = 0.004). The encoded protein SRRM2 (also called SRm300) is part of the RNA splicing machinery. To evaluate the possibility that the S346F missense mutation affects alternative splicing, we compared RNA-Seq data in leukocytes from three mutation carriers and three controls. Significant differences in alternative splicing were identified for 1,642 exons, of which a subset of 7 exons was verified experimentally. The results confirmed a higher ratio of inclusion of exons in mutation carriers. These data suggest that the S346F mutation in SRRM2 predisposes to PTC by affecting alternative splicing of unidentified downstream target genes.

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A germline mutation in SRRM2, a splicing factor gene, is implicated in papillary thyroid carcinoma predisposition

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