Generation of functional oocytes from male mice in vitro

Kenta Murakami; Nobuhiko Hamazaki; Norio Hamada; Go Nagamatsu; Ikuhiro Okamoto; Hiroshi Ohta; Yoshiaki Nosaka; Yukiko Ishikura; Tomoya S. Kitajima; Yuichiro Semba; Yuya Kunisaki; Fumio Arai; Koichi Akashi; Mitinori Saitou; Kiyoko Kato; Katsuhiko Hayashi

doi:10.1038/s41586-023-05834-x

Generation of functional oocytes from male mice in vitro

Kenta Murakami, Nobuhiko Hamazaki, Norio Hamada, Go Nagamatsu, Ikuhiro Okamoto, Hiroshi Ohta, Yoshiaki Nosaka, Yukiko Ishikura, Tomoya S. Kitajima, Yuichiro Semba, Yuya Kunisaki, Fumio Arai, Koichi Akashi, Mitinori Saitou, Kiyoko Kato, Katsuhiko Hayashi

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51 Citations (Scopus)

Abstract

Sex chromosome disorders severely compromise gametogenesis in both males and females. In oogenesis, the presence of an additional Y chromosome or the loss of an X chromosome disturbs the robust production of oocytes^1–5. Here we efficiently converted the XY chromosome set to XX without an additional Y chromosome in mouse pluripotent stem (PS) cells. In addition, this chromosomal alteration successfully eradicated trisomy 16, a model of Down’s syndrome, in PS cells. Artificially produced euploid XX PS cells differentiated into mature oocytes in culture with similar efficiency to native XX PS cells. Using this method, we differentiated induced pluripotent stem cells from the tail of a sexually mature male mouse into fully potent oocytes, which gave rise to offspring after fertilization. This study provides insights that could ameliorate infertility caused by sex chromosome or autosomal disorders, and opens the possibility of bipaternal reproduction.

Original language	English
Pages (from-to)	900-906
Number of pages	7
Journal	Nature
Volume	615
Issue number	7954
DOIs	https://doi.org/10.1038/s41586-023-05834-x
Publication status	Published - Mar 30 2023

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title = "Generation of functional oocytes from male mice in vitro",

abstract = "Sex chromosome disorders severely compromise gametogenesis in both males and females. In oogenesis, the presence of an additional Y chromosome or the loss of an X chromosome disturbs the robust production of oocytes1–5. Here we efficiently converted the XY chromosome set to XX without an additional Y chromosome in mouse pluripotent stem (PS) cells. In addition, this chromosomal alteration successfully eradicated trisomy 16, a model of Down{\textquoteright}s syndrome, in PS cells. Artificially produced euploid XX PS cells differentiated into mature oocytes in culture with similar efficiency to native XX PS cells. Using this method, we differentiated induced pluripotent stem cells from the tail of a sexually mature male mouse into fully potent oocytes, which gave rise to offspring after fertilization. This study provides insights that could ameliorate infertility caused by sex chromosome or autosomal disorders, and opens the possibility of bipaternal reproduction.",

author = "Kenta Murakami and Nobuhiko Hamazaki and Norio Hamada and Go Nagamatsu and Ikuhiro Okamoto and Hiroshi Ohta and Yoshiaki Nosaka and Yukiko Ishikura and Kitajima, \{Tomoya S.\} and Yuichiro Semba and Yuya Kunisaki and Fumio Arai and Koichi Akashi and Mitinori Saitou and Kiyoko Kato and Katsuhiko Hayashi",

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doi = "10.1038/s41586-023-05834-x",

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AU - Murakami, Kenta

AU - Hamazaki, Nobuhiko

AU - Hamada, Norio

AU - Nagamatsu, Go

AU - Okamoto, Ikuhiro

AU - Ohta, Hiroshi

AU - Nosaka, Yoshiaki

AU - Ishikura, Yukiko

AU - Kitajima, Tomoya S.

AU - Semba, Yuichiro

AU - Kunisaki, Yuya

AU - Arai, Fumio

AU - Akashi, Koichi

AU - Saitou, Mitinori

AU - Kato, Kiyoko

AU - Hayashi, Katsuhiko

PY - 2023/3/30

Y1 - 2023/3/30

N2 - Sex chromosome disorders severely compromise gametogenesis in both males and females. In oogenesis, the presence of an additional Y chromosome or the loss of an X chromosome disturbs the robust production of oocytes1–5. Here we efficiently converted the XY chromosome set to XX without an additional Y chromosome in mouse pluripotent stem (PS) cells. In addition, this chromosomal alteration successfully eradicated trisomy 16, a model of Down’s syndrome, in PS cells. Artificially produced euploid XX PS cells differentiated into mature oocytes in culture with similar efficiency to native XX PS cells. Using this method, we differentiated induced pluripotent stem cells from the tail of a sexually mature male mouse into fully potent oocytes, which gave rise to offspring after fertilization. This study provides insights that could ameliorate infertility caused by sex chromosome or autosomal disorders, and opens the possibility of bipaternal reproduction.

AB - Sex chromosome disorders severely compromise gametogenesis in both males and females. In oogenesis, the presence of an additional Y chromosome or the loss of an X chromosome disturbs the robust production of oocytes1–5. Here we efficiently converted the XY chromosome set to XX without an additional Y chromosome in mouse pluripotent stem (PS) cells. In addition, this chromosomal alteration successfully eradicated trisomy 16, a model of Down’s syndrome, in PS cells. Artificially produced euploid XX PS cells differentiated into mature oocytes in culture with similar efficiency to native XX PS cells. Using this method, we differentiated induced pluripotent stem cells from the tail of a sexually mature male mouse into fully potent oocytes, which gave rise to offspring after fertilization. This study provides insights that could ameliorate infertility caused by sex chromosome or autosomal disorders, and opens the possibility of bipaternal reproduction.

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VL - 615

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Generation of functional oocytes from male mice in vitro

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