Next-generation sequencing identifies mutations of SMPX, which encodes the small muscle protein, X-linked, as a cause of progressive hearing impairment

Margit Schraders; Stefan A. Haas; Nicole J.D. Weegerink; Jaap Oostrik; Hao Hu; Lies H. Hoefsloot; Sriram Kannan; Patrick L.M. Huygen; Ronald J.E. Pennings; Ronald J.C. Admiraal; Vera M. Kalscheuer; Henricus P.M. Kunst; Hannie Kremer

doi:10.1016/j.ajhg.2011.04.012

Next-generation sequencing identifies mutations of SMPX, which encodes the small muscle protein, X-linked, as a cause of progressive hearing impairment

Margit Schraders, Stefan A. Haas, Nicole J.D. Weegerink, Jaap Oostrik, Hao Hu, Lies H. Hoefsloot, Sriram Kannan, Patrick L.M. Huygen, Ronald J.E. Pennings, Ronald J.C. Admiraal, Vera M. Kalscheuer, Henricus P.M. Kunst, Hannie Kremer

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Abstract

In a Dutch family with an X-linked postlingual progressive hearing impairment, a critical linkage interval was determined to span a region of 12.9 Mb flanked by the markers DXS7108 and DXS7110. This interval overlaps with the previously described DFNX4 locus and contains 75 annotated genes. Subsequent next-generation sequencing (NGS) detected one variant within the linkage interval, a nonsense mutation in SMPX. SMPX encodes the small muscle protein, X-linked (SMPX). Further screening was performed on 26 index patients from small families for which X-linked inheritance of nonsyndromic hearing impairment (NSHI) was not excluded. We detected a frameshift mutation in SMPX in one of the patients. Segregation analysis of both mutations in the families in whom they were found revealed that the mutations cosegregated with hearing impairment. Although we show that SMPX is expressed in many different organs, including the human inner ear, no obvious symptoms other than hearing impairment were observed in the patients. SMPX had previously been demonstrated to be specifically expressed in striated muscle and, therefore, seemed an unlikely candidate gene for hearing impairment. We hypothesize that SMPX functions in inner ear development and/or maintenance in the IGF-1 pathway, the integrin pathway through Rac1, or both.

Original language	English
Pages (from-to)	628-634
Number of pages	7
Journal	American Journal of Human Genetics
Volume	88
Issue number	5
DOIs	https://doi.org/10.1016/j.ajhg.2011.04.012
State	Published - 13 May 2011
Externally published	Yes

Bibliographical note

Funding Information:
We thank the families for their participation in this study. We would like to thank Suzanne Granneman for her contribution to the linkage analysis; Anne-Katrin Emde, Sean O'Keeffe, and Wei Chen for their help with establishing the bioinformatic tools; Claudia Langnick for construction of the single-end Illumina sequencing library; and Corinna Jensen and Melanie Bienek for NGS. The work was financially supported by the Heinsius Houbolt Foundation, the INTERREG IV A-program Germany-the Netherlands, The Oticon Foundation (09-3742), the Netherlands Genomics Initiative (40-41009-98-9073), and ZonMW (40-00812-98-09047).

Funding

We thank the families for their participation in this study. We would like to thank Suzanne Granneman for her contribution to the linkage analysis; Anne-Katrin Emde, Sean O'Keeffe, and Wei Chen for their help with establishing the bioinformatic tools; Claudia Langnick for construction of the single-end Illumina sequencing library; and Corinna Jensen and Melanie Bienek for NGS. The work was financially supported by the Heinsius Houbolt Foundation, the INTERREG IV A-program Germany-the Netherlands, The Oticon Foundation (09-3742), the Netherlands Genomics Initiative (40-41009-98-9073), and ZonMW (40-00812-98-09047).

Funders	Funder number
Heinsius Houbolt Foundation
Netherlands Genomics Initiative	40-41009-98-9073
ZonMw	40-00812-98-09047
Oticon Fonden	09-3742

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10.1016/j.ajhg.2011.04.012

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Schraders, M., Haas, S. A., Weegerink, N. J. D., Oostrik, J., Hu, H., Hoefsloot, L. H., Kannan, S., Huygen, P. L. M., Pennings, R. J. E., Admiraal, R. J. C., Kalscheuer, V. M., Kunst, H. P. M., & Kremer, H. (2011). Next-generation sequencing identifies mutations of SMPX, which encodes the small muscle protein, X-linked, as a cause of progressive hearing impairment. American Journal of Human Genetics, 88(5), 628-634. https://doi.org/10.1016/j.ajhg.2011.04.012

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title = "Next-generation sequencing identifies mutations of SMPX, which encodes the small muscle protein, X-linked, as a cause of progressive hearing impairment",

abstract = "In a Dutch family with an X-linked postlingual progressive hearing impairment, a critical linkage interval was determined to span a region of 12.9 Mb flanked by the markers DXS7108 and DXS7110. This interval overlaps with the previously described DFNX4 locus and contains 75 annotated genes. Subsequent next-generation sequencing (NGS) detected one variant within the linkage interval, a nonsense mutation in SMPX. SMPX encodes the small muscle protein, X-linked (SMPX). Further screening was performed on 26 index patients from small families for which X-linked inheritance of nonsyndromic hearing impairment (NSHI) was not excluded. We detected a frameshift mutation in SMPX in one of the patients. Segregation analysis of both mutations in the families in whom they were found revealed that the mutations cosegregated with hearing impairment. Although we show that SMPX is expressed in many different organs, including the human inner ear, no obvious symptoms other than hearing impairment were observed in the patients. SMPX had previously been demonstrated to be specifically expressed in striated muscle and, therefore, seemed an unlikely candidate gene for hearing impairment. We hypothesize that SMPX functions in inner ear development and/or maintenance in the IGF-1 pathway, the integrin pathway through Rac1, or both.",

author = "Margit Schraders and Haas, \{Stefan A.\} and Weegerink, \{Nicole J.D.\} and Jaap Oostrik and Hao Hu and Hoefsloot, \{Lies H.\} and Sriram Kannan and Huygen, \{Patrick L.M.\} and Pennings, \{Ronald J.E.\} and Admiraal, \{Ronald J.C.\} and Kalscheuer, \{Vera M.\} and Kunst, \{Henricus P.M.\} and Hannie Kremer",

note = "Funding Information: We thank the families for their participation in this study. We would like to thank Suzanne Granneman for her contribution to the linkage analysis; Anne-Katrin Emde, Sean O'Keeffe, and Wei Chen for their help with establishing the bioinformatic tools; Claudia Langnick for construction of the single-end Illumina sequencing library; and Corinna Jensen and Melanie Bienek for NGS. The work was financially supported by the Heinsius Houbolt Foundation, the INTERREG IV A-program Germany-the Netherlands, The Oticon Foundation (09-3742), the Netherlands Genomics Initiative (40-41009-98-9073), and ZonMW (40-00812-98-09047). ",

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Schraders, M, Haas, SA, Weegerink, NJD, Oostrik, J, Hu, H, Hoefsloot, LH, Kannan, S, Huygen, PLM, Pennings, RJE, Admiraal, RJC, Kalscheuer, VM, Kunst, HPM & Kremer, H 2011, 'Next-generation sequencing identifies mutations of SMPX, which encodes the small muscle protein, X-linked, as a cause of progressive hearing impairment', American Journal of Human Genetics, vol. 88, no. 5, pp. 628-634. https://doi.org/10.1016/j.ajhg.2011.04.012

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T1 - Next-generation sequencing identifies mutations of SMPX, which encodes the small muscle protein, X-linked, as a cause of progressive hearing impairment

AU - Schraders, Margit

AU - Haas, Stefan A.

AU - Weegerink, Nicole J.D.

AU - Oostrik, Jaap

AU - Hu, Hao

AU - Hoefsloot, Lies H.

AU - Kannan, Sriram

AU - Huygen, Patrick L.M.

AU - Pennings, Ronald J.E.

AU - Admiraal, Ronald J.C.

AU - Kalscheuer, Vera M.

AU - Kunst, Henricus P.M.

AU - Kremer, Hannie

N1 - Funding Information: We thank the families for their participation in this study. We would like to thank Suzanne Granneman for her contribution to the linkage analysis; Anne-Katrin Emde, Sean O'Keeffe, and Wei Chen for their help with establishing the bioinformatic tools; Claudia Langnick for construction of the single-end Illumina sequencing library; and Corinna Jensen and Melanie Bienek for NGS. The work was financially supported by the Heinsius Houbolt Foundation, the INTERREG IV A-program Germany-the Netherlands, The Oticon Foundation (09-3742), the Netherlands Genomics Initiative (40-41009-98-9073), and ZonMW (40-00812-98-09047).

PY - 2011/5/13

Y1 - 2011/5/13

N2 - In a Dutch family with an X-linked postlingual progressive hearing impairment, a critical linkage interval was determined to span a region of 12.9 Mb flanked by the markers DXS7108 and DXS7110. This interval overlaps with the previously described DFNX4 locus and contains 75 annotated genes. Subsequent next-generation sequencing (NGS) detected one variant within the linkage interval, a nonsense mutation in SMPX. SMPX encodes the small muscle protein, X-linked (SMPX). Further screening was performed on 26 index patients from small families for which X-linked inheritance of nonsyndromic hearing impairment (NSHI) was not excluded. We detected a frameshift mutation in SMPX in one of the patients. Segregation analysis of both mutations in the families in whom they were found revealed that the mutations cosegregated with hearing impairment. Although we show that SMPX is expressed in many different organs, including the human inner ear, no obvious symptoms other than hearing impairment were observed in the patients. SMPX had previously been demonstrated to be specifically expressed in striated muscle and, therefore, seemed an unlikely candidate gene for hearing impairment. We hypothesize that SMPX functions in inner ear development and/or maintenance in the IGF-1 pathway, the integrin pathway through Rac1, or both.

AB - In a Dutch family with an X-linked postlingual progressive hearing impairment, a critical linkage interval was determined to span a region of 12.9 Mb flanked by the markers DXS7108 and DXS7110. This interval overlaps with the previously described DFNX4 locus and contains 75 annotated genes. Subsequent next-generation sequencing (NGS) detected one variant within the linkage interval, a nonsense mutation in SMPX. SMPX encodes the small muscle protein, X-linked (SMPX). Further screening was performed on 26 index patients from small families for which X-linked inheritance of nonsyndromic hearing impairment (NSHI) was not excluded. We detected a frameshift mutation in SMPX in one of the patients. Segregation analysis of both mutations in the families in whom they were found revealed that the mutations cosegregated with hearing impairment. Although we show that SMPX is expressed in many different organs, including the human inner ear, no obvious symptoms other than hearing impairment were observed in the patients. SMPX had previously been demonstrated to be specifically expressed in striated muscle and, therefore, seemed an unlikely candidate gene for hearing impairment. We hypothesize that SMPX functions in inner ear development and/or maintenance in the IGF-1 pathway, the integrin pathway through Rac1, or both.

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JF - American Journal of Human Genetics

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ER -

Next-generation sequencing identifies mutations of SMPX, which encodes the small muscle protein, X-linked, as a cause of progressive hearing impairment

Abstract

Bibliographical note

Funding

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