Differentiation of uniparental human embryonic stem cells into granulosa cells reveals a paternal contribution to gonadal development

Gal Keshet; Shiran Bar; Roni Sarel-Gallily; Ofra Yanuka; Nissim Benvenisty; Talia Eldar-Geva

doi:10.1016/j.stemcr.2023.03.004

Differentiation of uniparental human embryonic stem cells into granulosa cells reveals a paternal contribution to gonadal development

Gal Keshet^*, Shiran Bar, Roni Sarel-Gallily, Ofra Yanuka, Nissim Benvenisty^*, Talia Eldar-Geva^*

^*Corresponding author for this work

Department of Genetics

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

Abstract

Genomic imprinting underlies the mammalian requirement for sexual reproduction. Nonetheless, the relative contribution of the two parental genomes during human development is not fully understood. Specifically, a fascinating question is whether the formation of the gonad, which holds the ability to reproduce, depends on equal contribution from both parental genomes. Here, we differentiated androgenetic and parthenogenetic human pluripotent stem cells (hPSCs) into ovarian granulosa-like cells (GLCs). We show that in contrast to biparental and androgenetic cells, parthenogenetic hPSCs present a reduced capacity to differentiate into GLCs. We further identify the paternally expressed gene IGF2 as the most upregulated imprinted gene upon differentiation. Remarkably, while IGF2 knockout androgenetic cells fail to differentiate into GLCs, the differentiation of parthenogenetic cells supplemented with IGF2 is partly rescued. Thus, our findings unravel a surprising essentiality of genes that are only expressed from the paternal genome to the development of the female reproductive system.

Original language	American English
Pages (from-to)	817-828
Number of pages	12
Journal	Stem Cell Reports
Volume	18
Issue number	4
DOIs	https://doi.org/10.1016/j.stemcr.2023.03.004
State	Published - 11 Apr 2023

Bibliographical note

Funding Information:
We thank all members of The Azrieli Center for Stem Cells and Genetic Research for their input and critical reading of the manuscript. This work was partially supported by the Israel Science Foundation (2054/22), the ISF-Israel Precision Medicine Partnership (IPMP) Program (3605/21), the Rosetrees Trust, and the Azrieli Foundation. N.B. is the Herbert Cohn Chair in Cancer Research. N.B. is CSO of NewStem Ltd.

Funding Information:
We thank all members of The Azrieli Center for Stem Cells and Genetic Research for their input and critical reading of the manuscript. This work was partially supported by the Israel Science Foundation ( 2054/22 ), the ISF-Israel Precision Medicine Partnership ( IPMP ) Program ( 3605/21 ), the Rosetrees Trust , and the Azrieli Foundation . N.B. is the Herbert Cohn Chair in Cancer Research.

Publisher Copyright:
© 2023 The Author(s)

Keywords

Androgenesis
Epigenetics
Genomic imprinting
Gonadal development
Granulosa
Human pluripotent stem cells
Parthenogenesis

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10.1016/j.stemcr.2023.03.004

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title = "Differentiation of uniparental human embryonic stem cells into granulosa cells reveals a paternal contribution to gonadal development",

abstract = "Genomic imprinting underlies the mammalian requirement for sexual reproduction. Nonetheless, the relative contribution of the two parental genomes during human development is not fully understood. Specifically, a fascinating question is whether the formation of the gonad, which holds the ability to reproduce, depends on equal contribution from both parental genomes. Here, we differentiated androgenetic and parthenogenetic human pluripotent stem cells (hPSCs) into ovarian granulosa-like cells (GLCs). We show that in contrast to biparental and androgenetic cells, parthenogenetic hPSCs present a reduced capacity to differentiate into GLCs. We further identify the paternally expressed gene IGF2 as the most upregulated imprinted gene upon differentiation. Remarkably, while IGF2 knockout androgenetic cells fail to differentiate into GLCs, the differentiation of parthenogenetic cells supplemented with IGF2 is partly rescued. Thus, our findings unravel a surprising essentiality of genes that are only expressed from the paternal genome to the development of the female reproductive system.",

keywords = "Androgenesis, Epigenetics, Genomic imprinting, Gonadal development, Granulosa, Human pluripotent stem cells, Parthenogenesis",

author = "Gal Keshet and Shiran Bar and Roni Sarel-Gallily and Ofra Yanuka and Nissim Benvenisty and Talia Eldar-Geva",

note = "Funding Information: We thank all members of The Azrieli Center for Stem Cells and Genetic Research for their input and critical reading of the manuscript. This work was partially supported by the Israel Science Foundation (2054/22), the ISF-Israel Precision Medicine Partnership (IPMP) Program (3605/21), the Rosetrees Trust, and the Azrieli Foundation. N.B. is the Herbert Cohn Chair in Cancer Research. N.B. is CSO of NewStem Ltd. Funding Information: We thank all members of The Azrieli Center for Stem Cells and Genetic Research for their input and critical reading of the manuscript. This work was partially supported by the Israel Science Foundation ( 2054/22 ), the ISF-Israel Precision Medicine Partnership ( IPMP ) Program ( 3605/21 ), the Rosetrees Trust , and the Azrieli Foundation . N.B. is the Herbert Cohn Chair in Cancer Research. Publisher Copyright: {\textcopyright} 2023 The Author(s)",

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AU - Keshet, Gal

AU - Bar, Shiran

AU - Sarel-Gallily, Roni

AU - Yanuka, Ofra

AU - Benvenisty, Nissim

AU - Eldar-Geva, Talia

N1 - Funding Information: We thank all members of The Azrieli Center for Stem Cells and Genetic Research for their input and critical reading of the manuscript. This work was partially supported by the Israel Science Foundation (2054/22), the ISF-Israel Precision Medicine Partnership (IPMP) Program (3605/21), the Rosetrees Trust, and the Azrieli Foundation. N.B. is the Herbert Cohn Chair in Cancer Research. N.B. is CSO of NewStem Ltd. Funding Information: We thank all members of The Azrieli Center for Stem Cells and Genetic Research for their input and critical reading of the manuscript. This work was partially supported by the Israel Science Foundation ( 2054/22 ), the ISF-Israel Precision Medicine Partnership ( IPMP ) Program ( 3605/21 ), the Rosetrees Trust , and the Azrieli Foundation . N.B. is the Herbert Cohn Chair in Cancer Research. Publisher Copyright: © 2023 The Author(s)

PY - 2023/4/11

Y1 - 2023/4/11

N2 - Genomic imprinting underlies the mammalian requirement for sexual reproduction. Nonetheless, the relative contribution of the two parental genomes during human development is not fully understood. Specifically, a fascinating question is whether the formation of the gonad, which holds the ability to reproduce, depends on equal contribution from both parental genomes. Here, we differentiated androgenetic and parthenogenetic human pluripotent stem cells (hPSCs) into ovarian granulosa-like cells (GLCs). We show that in contrast to biparental and androgenetic cells, parthenogenetic hPSCs present a reduced capacity to differentiate into GLCs. We further identify the paternally expressed gene IGF2 as the most upregulated imprinted gene upon differentiation. Remarkably, while IGF2 knockout androgenetic cells fail to differentiate into GLCs, the differentiation of parthenogenetic cells supplemented with IGF2 is partly rescued. Thus, our findings unravel a surprising essentiality of genes that are only expressed from the paternal genome to the development of the female reproductive system.

AB - Genomic imprinting underlies the mammalian requirement for sexual reproduction. Nonetheless, the relative contribution of the two parental genomes during human development is not fully understood. Specifically, a fascinating question is whether the formation of the gonad, which holds the ability to reproduce, depends on equal contribution from both parental genomes. Here, we differentiated androgenetic and parthenogenetic human pluripotent stem cells (hPSCs) into ovarian granulosa-like cells (GLCs). We show that in contrast to biparental and androgenetic cells, parthenogenetic hPSCs present a reduced capacity to differentiate into GLCs. We further identify the paternally expressed gene IGF2 as the most upregulated imprinted gene upon differentiation. Remarkably, while IGF2 knockout androgenetic cells fail to differentiate into GLCs, the differentiation of parthenogenetic cells supplemented with IGF2 is partly rescued. Thus, our findings unravel a surprising essentiality of genes that are only expressed from the paternal genome to the development of the female reproductive system.

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KW - Epigenetics

KW - Genomic imprinting

KW - Gonadal development

KW - Granulosa

KW - Human pluripotent stem cells

KW - Parthenogenesis

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SN - 2213-6711

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JO - Stem Cell Reports

JF - Stem Cell Reports

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ER -

Differentiation of uniparental human embryonic stem cells into granulosa cells reveals a paternal contribution to gonadal development

Abstract

Bibliographical note

Keywords

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