Functional characterization of novel NR5A1 variants reveals multiple complex roles in disorders of sex development

Gorjana Robevska; Jocelyn A. van den Bergen; Thomas Ohnesorg; Stefanie Eggers; Chloe Hanna; Remko Hersmus; Elizabeth M. Thompson; Anne Baxendale; Charles F. Verge; Antony R. Lafferty; Nanis S. Marzuki; Ardy Santosa; Nurin A. Listyasari; Stefan Riedl; Garry Warne; Leendert Looijenga; Sultana Faradz; Katie L. Ayers; Andrew H. Sinclair

doi:10.1002/humu.23354

Functional characterization of novel NR5A1 variants reveals multiple complex roles in disorders of sex development

Gorjana Robevska, Jocelyn A. van den Bergen, Thomas Ohnesorg, Stefanie Eggers, Chloe Hanna, Remko Hersmus, Elizabeth M. Thompson, Anne Baxendale, Charles F. Verge, Antony R. Lafferty, Nanis S. Marzuki, Ardy Santosa, Nurin A. Listyasari, Stefan Riedl, Garry Warne, Leendert Looijenga, Sultana Faradz, Katie L. Ayers^*, Andrew H. Sinclair

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

45 Citations (SciVal)

Abstract

Variants in the NR5A1 gene encoding SF1 have been described in a diverse spectrum of disorders of sex development (DSD). Recently, we reported the use of a targeted gene panel for DSD where we identified 15 individuals with a variant in NR5A1, nine of which are novel. Here, we examine the functional effect of these changes in relation to the patient phenotype. All novel variants tested had reduced trans-activational activity, while several had altered protein level, localization, or conformation. In addition, we found evidence of new roles for SF1 protein domains including a region within the ligand binding domain that appears to contribute to SF1 regulation of Müllerian development. There was little correlation between the severity of the phenotype and the nature of the NR5A1 variant. We report two familial cases of NR5A1 deficiency with evidence of variable expressivity; we also report on individuals with oligogenic inheritance. Finally, we found that the nature of the NR5A1 variant does not inform patient outcomes (including pubertal androgenization and malignancy risk). This study adds nine novel pathogenic NR5A1 variants to the pool of diagnostic variants. It highlights a greater need for understanding the complexity of SF1 function and the additional factors that contribute.

Original language	English
Pages (from-to)	124-139
Number of pages	16
Journal	Human Mutation
Volume	39
Issue number	1
DOIs	https://doi.org/10.1002/humu.23354
Publication status	Published - Jan 2018

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Robevska, G., van den Bergen, J. A., Ohnesorg, T., Eggers, S., Hanna, C., Hersmus, R., Thompson, E. M., Baxendale, A., Verge, C. F., Lafferty, A. R., Marzuki, N. S., Santosa, A., Listyasari, N. A., Riedl, S., Warne, G., Looijenga, L., Faradz, S., Ayers, K. L., & Sinclair, A. H. (2018). Functional characterization of novel NR5A1 variants reveals multiple complex roles in disorders of sex development. Human Mutation, 39(1), 124-139. https://doi.org/10.1002/humu.23354

@article{2b36821ce1cf4230a0f9f0218d56ad77,

title = "Functional characterization of novel NR5A1 variants reveals multiple complex roles in disorders of sex development",

abstract = "Variants in the NR5A1 gene encoding SF1 have been described in a diverse spectrum of disorders of sex development (DSD). Recently, we reported the use of a targeted gene panel for DSD where we identified 15 individuals with a variant in NR5A1, nine of which are novel. Here, we examine the functional effect of these changes in relation to the patient phenotype. All novel variants tested had reduced trans-activational activity, while several had altered protein level, localization, or conformation. In addition, we found evidence of new roles for SF1 protein domains including a region within the ligand binding domain that appears to contribute to SF1 regulation of M{\"u}llerian development. There was little correlation between the severity of the phenotype and the nature of the NR5A1 variant. We report two familial cases of NR5A1 deficiency with evidence of variable expressivity; we also report on individuals with oligogenic inheritance. Finally, we found that the nature of the NR5A1 variant does not inform patient outcomes (including pubertal androgenization and malignancy risk). This study adds nine novel pathogenic NR5A1 variants to the pool of diagnostic variants. It highlights a greater need for understanding the complexity of SF1 function and the additional factors that contribute.",

keywords = "NR5A1, disorders of sex development, genotype–phenotype correlation, mutation, oligogenic, variable expressivity",

author = "Gorjana Robevska and \{van den Bergen\}, \{Jocelyn A.\} and Thomas Ohnesorg and Stefanie Eggers and Chloe Hanna and Remko Hersmus and Thompson, \{Elizabeth M.\} and Anne Baxendale and Verge, \{Charles F.\} and Lafferty, \{Antony R.\} and Marzuki, \{Nanis S.\} and Ardy Santosa and Listyasari, \{Nurin A.\} and Stefan Riedl and Garry Warne and Leendert Looijenga and Sultana Faradz and Ayers, \{Katie L.\} and Sinclair, \{Andrew H.\}",

note = "Publisher Copyright: {\textcopyright} 2017 The Authors. Human Mutation published by Wiley Periodicals, Inc.",

year = "2018",

month = jan,

doi = "10.1002/humu.23354",

language = "English",

volume = "39",

pages = "124--139",

journal = "Human Mutation",

issn = "1059-7794",

publisher = "John Wiley \& Sons Inc.",

number = "1",

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Robevska, G, van den Bergen, JA, Ohnesorg, T, Eggers, S, Hanna, C, Hersmus, R, Thompson, EM, Baxendale, A, Verge, CF, Lafferty, AR, Marzuki, NS, Santosa, A, Listyasari, NA, Riedl, S, Warne, G, Looijenga, L, Faradz, S, Ayers, KL & Sinclair, AH 2018, 'Functional characterization of novel NR5A1 variants reveals multiple complex roles in disorders of sex development', Human Mutation, vol. 39, no. 1, pp. 124-139. https://doi.org/10.1002/humu.23354

TY - JOUR

T1 - Functional characterization of novel NR5A1 variants reveals multiple complex roles in disorders of sex development

AU - Robevska, Gorjana

AU - van den Bergen, Jocelyn A.

AU - Ohnesorg, Thomas

AU - Eggers, Stefanie

AU - Hanna, Chloe

AU - Hersmus, Remko

AU - Thompson, Elizabeth M.

AU - Baxendale, Anne

AU - Verge, Charles F.

AU - Lafferty, Antony R.

AU - Marzuki, Nanis S.

AU - Santosa, Ardy

AU - Listyasari, Nurin A.

AU - Riedl, Stefan

AU - Warne, Garry

AU - Looijenga, Leendert

AU - Faradz, Sultana

AU - Ayers, Katie L.

AU - Sinclair, Andrew H.

PY - 2018/1

Y1 - 2018/1

N2 - Variants in the NR5A1 gene encoding SF1 have been described in a diverse spectrum of disorders of sex development (DSD). Recently, we reported the use of a targeted gene panel for DSD where we identified 15 individuals with a variant in NR5A1, nine of which are novel. Here, we examine the functional effect of these changes in relation to the patient phenotype. All novel variants tested had reduced trans-activational activity, while several had altered protein level, localization, or conformation. In addition, we found evidence of new roles for SF1 protein domains including a region within the ligand binding domain that appears to contribute to SF1 regulation of Müllerian development. There was little correlation between the severity of the phenotype and the nature of the NR5A1 variant. We report two familial cases of NR5A1 deficiency with evidence of variable expressivity; we also report on individuals with oligogenic inheritance. Finally, we found that the nature of the NR5A1 variant does not inform patient outcomes (including pubertal androgenization and malignancy risk). This study adds nine novel pathogenic NR5A1 variants to the pool of diagnostic variants. It highlights a greater need for understanding the complexity of SF1 function and the additional factors that contribute.

AB - Variants in the NR5A1 gene encoding SF1 have been described in a diverse spectrum of disorders of sex development (DSD). Recently, we reported the use of a targeted gene panel for DSD where we identified 15 individuals with a variant in NR5A1, nine of which are novel. Here, we examine the functional effect of these changes in relation to the patient phenotype. All novel variants tested had reduced trans-activational activity, while several had altered protein level, localization, or conformation. In addition, we found evidence of new roles for SF1 protein domains including a region within the ligand binding domain that appears to contribute to SF1 regulation of Müllerian development. There was little correlation between the severity of the phenotype and the nature of the NR5A1 variant. We report two familial cases of NR5A1 deficiency with evidence of variable expressivity; we also report on individuals with oligogenic inheritance. Finally, we found that the nature of the NR5A1 variant does not inform patient outcomes (including pubertal androgenization and malignancy risk). This study adds nine novel pathogenic NR5A1 variants to the pool of diagnostic variants. It highlights a greater need for understanding the complexity of SF1 function and the additional factors that contribute.

KW - NR5A1

KW - disorders of sex development

KW - genotype–phenotype correlation

KW - mutation

KW - oligogenic

KW - variable expressivity

UR - http://www.scopus.com/inward/record.url?scp=85032784627&partnerID=8YFLogxK

U2 - 10.1002/humu.23354

DO - 10.1002/humu.23354

M3 - Article

SN - 1059-7794

VL - 39

SP - 124

EP - 139

JO - Human Mutation

JF - Human Mutation

IS - 1

ER -

Functional characterization of novel NR5A1 variants reveals multiple complex roles in disorders of sex development

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