The p.R92W variant of NR5A1/Nr5a1 induces testicular development of 46,XX gonads in humans, but not in mice: phenotypic comparison of human patients and mutation-induced mice

Mami Miyado; Masafumi Inui; Maki Igarashi; Yuko Katoh-Fukui; Kei Takasawa; Akiko Hakoda; Junko Kanno; Kenichi Kashimada; Kenji Miyado; Moe Tamano; Tsutomu Ogata; Shuji Takada; Maki Fukami

doi:10.1186/s13293-016-0114-6

The p.R92W variant of NR5A1/Nr5a1 induces testicular development of 46,XX gonads in humans, but not in mice: phenotypic comparison of human patients and mutation-induced mice

Mami Miyado, Masafumi Inui, Maki Igarashi, Yuko Katoh-Fukui, Kei Takasawa, Akiko Hakoda, Junko Kanno, Kenichi Kashimada, Kenji Miyado, Moe Tamano, Tsutomu Ogata, Shuji Takada, Maki Fukami

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

16 Citations (Scopus)

Abstract

NR5A1 is the key regulator of adrenal and gonadal development in both humans and mice. Recently, a missense substitution in human NR5A1, p.R92W, was shown to underlie gonadal dysgenesis in genetic males and testicular formation in genetic females. Here, we investigated the phenotypic effects of the p.R92W mutation on murine development. Mice carrying the p.R92W mutation manifested a similar but milder phenotype than that of the previously described Nr5a1 knockout mice. Importantly, mutation-positive XX mice showed no signs of masculinization. These results, together with prior observations, indicate that the p.R92W mutation in NR5A1/Nr5a1 encodes unique molecules that disrupt male gonadal development in both humans and mice and induces testicular formation specifically in human females. Our findings provide novel insights into the conservation and divergence in the molecular networks underlying mammalian sexual development.

Original language	English
Pages (from-to)	1-5
Number of pages	5
Journal	Biology of Sex Differences
Volume	7
Issue number	1
DOIs	https://doi.org/10.1186/s13293-016-0114-6
Publication status	Published - 2016 Nov 8
Externally published	Yes

Keywords

Disorders of sex development
Genome editing
Gonadal development
Gonadal dysgenesis
Mouse model
Mutation
SF-1
Sex differentiation

ASJC Scopus subject areas

Gender Studies
Endocrinology

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Miyado, M., Inui, M., Igarashi, M., Katoh-Fukui, Y., Takasawa, K., Hakoda, A., Kanno, J., Kashimada, K., Miyado, K., Tamano, M., Ogata, T., Takada, S., & Fukami, M. (2016). The p.R92W variant of NR5A1/Nr5a1 induces testicular development of 46,XX gonads in humans, but not in mice: phenotypic comparison of human patients and mutation-induced mice. Biology of Sex Differences, 7(1), 1-5. https://doi.org/10.1186/s13293-016-0114-6

Miyado, M, Inui, M, Igarashi, M, Katoh-Fukui, Y, Takasawa, K, Hakoda, A, Kanno, J, Kashimada, K, Miyado, K, Tamano, M, Ogata, T, Takada, S & Fukami, M 2016, 'The p.R92W variant of NR5A1/Nr5a1 induces testicular development of 46,XX gonads in humans, but not in mice: phenotypic comparison of human patients and mutation-induced mice', Biology of Sex Differences, vol. 7, no. 1, pp. 1-5. https://doi.org/10.1186/s13293-016-0114-6

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title = "The p.R92W variant of NR5A1/Nr5a1 induces testicular development of 46,XX gonads in humans, but not in mice: phenotypic comparison of human patients and mutation-induced mice",

abstract = "NR5A1 is the key regulator of adrenal and gonadal development in both humans and mice. Recently, a missense substitution in human NR5A1, p.R92W, was shown to underlie gonadal dysgenesis in genetic males and testicular formation in genetic females. Here, we investigated the phenotypic effects of the p.R92W mutation on murine development. Mice carrying the p.R92W mutation manifested a similar but milder phenotype than that of the previously described Nr5a1 knockout mice. Importantly, mutation-positive XX mice showed no signs of masculinization. These results, together with prior observations, indicate that the p.R92W mutation in NR5A1/Nr5a1 encodes unique molecules that disrupt male gonadal development in both humans and mice and induces testicular formation specifically in human females. Our findings provide novel insights into the conservation and divergence in the molecular networks underlying mammalian sexual development.",

keywords = "Disorders of sex development, Genome editing, Gonadal development, Gonadal dysgenesis, Mouse model, Mutation, SF-1, Sex differentiation",

author = "Mami Miyado and Masafumi Inui and Maki Igarashi and Yuko Katoh-Fukui and Kei Takasawa and Akiko Hakoda and Junko Kanno and Kenichi Kashimada and Kenji Miyado and Moe Tamano and Tsutomu Ogata and Shuji Takada and Maki Fukami",

note = "Funding Information: This work was supported by the Grants from the Japan Agency for Medical Research and Development, the National Center for Child Health and Development, and the Takeda foundation and by the Grant-in-Aid for Scientific Research (C) (grant number 16K08603) from the Ministry of Education, Culture, Sports, Science and Technology. Publisher Copyright: {\textcopyright} 2016 The Author(s).",

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doi = "10.1186/s13293-016-0114-6",

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T2 - phenotypic comparison of human patients and mutation-induced mice

AU - Miyado, Mami

AU - Inui, Masafumi

AU - Igarashi, Maki

AU - Katoh-Fukui, Yuko

AU - Takasawa, Kei

AU - Hakoda, Akiko

AU - Kanno, Junko

AU - Kashimada, Kenichi

AU - Miyado, Kenji

AU - Tamano, Moe

AU - Ogata, Tsutomu

AU - Takada, Shuji

AU - Fukami, Maki

N1 - Funding Information: This work was supported by the Grants from the Japan Agency for Medical Research and Development, the National Center for Child Health and Development, and the Takeda foundation and by the Grant-in-Aid for Scientific Research (C) (grant number 16K08603) from the Ministry of Education, Culture, Sports, Science and Technology. Publisher Copyright: © 2016 The Author(s).

PY - 2016/11/8

Y1 - 2016/11/8

N2 - NR5A1 is the key regulator of adrenal and gonadal development in both humans and mice. Recently, a missense substitution in human NR5A1, p.R92W, was shown to underlie gonadal dysgenesis in genetic males and testicular formation in genetic females. Here, we investigated the phenotypic effects of the p.R92W mutation on murine development. Mice carrying the p.R92W mutation manifested a similar but milder phenotype than that of the previously described Nr5a1 knockout mice. Importantly, mutation-positive XX mice showed no signs of masculinization. These results, together with prior observations, indicate that the p.R92W mutation in NR5A1/Nr5a1 encodes unique molecules that disrupt male gonadal development in both humans and mice and induces testicular formation specifically in human females. Our findings provide novel insights into the conservation and divergence in the molecular networks underlying mammalian sexual development.

AB - NR5A1 is the key regulator of adrenal and gonadal development in both humans and mice. Recently, a missense substitution in human NR5A1, p.R92W, was shown to underlie gonadal dysgenesis in genetic males and testicular formation in genetic females. Here, we investigated the phenotypic effects of the p.R92W mutation on murine development. Mice carrying the p.R92W mutation manifested a similar but milder phenotype than that of the previously described Nr5a1 knockout mice. Importantly, mutation-positive XX mice showed no signs of masculinization. These results, together with prior observations, indicate that the p.R92W mutation in NR5A1/Nr5a1 encodes unique molecules that disrupt male gonadal development in both humans and mice and induces testicular formation specifically in human females. Our findings provide novel insights into the conservation and divergence in the molecular networks underlying mammalian sexual development.

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KW - Gonadal dysgenesis

KW - Mouse model

KW - Mutation

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KW - Sex differentiation

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The p.R92W variant of NR5A1/Nr5a1 induces testicular development of 46,XX gonads in humans, but not in mice: phenotypic comparison of human patients and mutation-induced mice

Abstract

Keywords

ASJC Scopus subject areas

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