Distinct Imprinting Signatures and Biased Differentiation of Human Androgenetic and Parthenogenetic Embryonic Stem Cells

Ido Sagi; Joao C. De Pinho; Michael V. Zuccaro; Chen Atzmon; Tamar Golan-Lev; Ofra Yanuka; Robert Prosser; Alexandra Sadowy; Gloria Perez; Thiago Cabral; Benjamin Glaser; Stephen H. Tsang; Robin Goland; Mark V. Sauer; Rogerio Lobo; Nissim Benvenisty; Dieter Egli

doi:10.1016/j.stem.2019.06.013

Distinct Imprinting Signatures and Biased Differentiation of Human Androgenetic and Parthenogenetic Embryonic Stem Cells

Ido Sagi, Joao C. De Pinho, Michael V. Zuccaro, Chen Atzmon, Tamar Golan-Lev, Ofra Yanuka, Robert Prosser, Alexandra Sadowy, Gloria Perez, Thiago Cabral, Benjamin Glaser, Stephen H. Tsang, Robin Goland, Mark V. Sauer, Rogerio Lobo, Nissim Benvenisty, Dieter Egli

Department of Genetics

The Hebrew University of Jerusalem

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

Abstract

Genomic imprinting is an epigenetic mechanism that results in parent-of-origin monoallelic expression of specific genes, which precludes uniparental development and underlies various diseases. Here, we explored molecular and developmental aspects of imprinting in humans by generating exclusively paternal human androgenetic embryonic stem cells (aESCs) and comparing them with exclusively maternal parthenogenetic ESCs (pESCs) and bi-parental ESCs, establishing a pluripotent cell system of distinct parental backgrounds. Analyzing the transcriptomes and methylomes of human aESCs, pESCs, and bi-parental ESCs enabled the characterization of regulatory relations at known imprinted regions and uncovered imprinted gene candidates within and outside known imprinted regions. Investigating the consequences of uniparental differentiation, we showed the known paternal-genome preference for placental contribution, revealed a similar bias toward liver differentiation, and implicated the involvement of the imprinted gene IGF2 in this process. Our results demonstrate the utility of parent-specific human ESCs for dissecting the role of imprinting in human development and disease.

Original language	English
Pages (from-to)	419-432.e9
Journal	Cell Stem Cell
Volume	25
Issue number	3
DOIs	https://doi.org/10.1016/j.stem.2019.06.013
State	Published - 5 Sep 2019

Keywords

IGF2
androgenesis
differentiation bias
genomic imprinting
human embryonic stem cells
human pluripotent stem cells
parental imprinting
parthenogenesis

All Science Journal Classification (ASJC) codes

Molecular Medicine
Genetics
Cell Biology

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10.1016/j.stem.2019.06.013

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Sagi, I., De Pinho, J. C., Zuccaro, M. V., Atzmon, C., Golan-Lev, T., Yanuka, O., Prosser, R., Sadowy, A., Perez, G., Cabral, T., Glaser, B., Tsang, S. H., Goland, R., Sauer, M. V., Lobo, R., Benvenisty, N., & Egli, D. (2019). Distinct Imprinting Signatures and Biased Differentiation of Human Androgenetic and Parthenogenetic Embryonic Stem Cells. Cell Stem Cell, 25(3), 419-432.e9. https://doi.org/10.1016/j.stem.2019.06.013

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title = "Distinct Imprinting Signatures and Biased Differentiation of Human Androgenetic and Parthenogenetic Embryonic Stem Cells",

abstract = "Genomic imprinting is an epigenetic mechanism that results in parent-of-origin monoallelic expression of specific genes, which precludes uniparental development and underlies various diseases. Here, we explored molecular and developmental aspects of imprinting in humans by generating exclusively paternal human androgenetic embryonic stem cells (aESCs) and comparing them with exclusively maternal parthenogenetic ESCs (pESCs) and bi-parental ESCs, establishing a pluripotent cell system of distinct parental backgrounds. Analyzing the transcriptomes and methylomes of human aESCs, pESCs, and bi-parental ESCs enabled the characterization of regulatory relations at known imprinted regions and uncovered imprinted gene candidates within and outside known imprinted regions. Investigating the consequences of uniparental differentiation, we showed the known paternal-genome preference for placental contribution, revealed a similar bias toward liver differentiation, and implicated the involvement of the imprinted gene IGF2 in this process. Our results demonstrate the utility of parent-specific human ESCs for dissecting the role of imprinting in human development and disease.",

keywords = "IGF2, androgenesis, differentiation bias, genomic imprinting, human embryonic stem cells, human pluripotent stem cells, parental imprinting, parthenogenesis",

author = "Ido Sagi and \{De Pinho\}, \{Joao C.\} and Zuccaro, \{Michael V.\} and Chen Atzmon and Tamar Golan-Lev and Ofra Yanuka and Robert Prosser and Alexandra Sadowy and Gloria Perez and Thiago Cabral and Benjamin Glaser and Tsang, \{Stephen H.\} and Robin Goland and Sauer, \{Mark V.\} and Rogerio Lobo and Nissim Benvenisty and Dieter Egli",

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year = "2019",

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doi = "10.1016/j.stem.2019.06.013",

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Sagi, I, De Pinho, JC, Zuccaro, MV, Atzmon, C, Golan-Lev, T, Yanuka, O, Prosser, R, Sadowy, A, Perez, G, Cabral, T, Glaser, B, Tsang, SH, Goland, R, Sauer, MV, Lobo, R, Benvenisty, N & Egli, D 2019, 'Distinct Imprinting Signatures and Biased Differentiation of Human Androgenetic and Parthenogenetic Embryonic Stem Cells', Cell Stem Cell, vol. 25, no. 3, pp. 419-432.e9. https://doi.org/10.1016/j.stem.2019.06.013

TY - JOUR

T1 - Distinct Imprinting Signatures and Biased Differentiation of Human Androgenetic and Parthenogenetic Embryonic Stem Cells

AU - Sagi, Ido

AU - De Pinho, Joao C.

AU - Zuccaro, Michael V.

AU - Atzmon, Chen

AU - Golan-Lev, Tamar

AU - Yanuka, Ofra

AU - Prosser, Robert

AU - Sadowy, Alexandra

AU - Perez, Gloria

AU - Cabral, Thiago

AU - Glaser, Benjamin

AU - Tsang, Stephen H.

AU - Goland, Robin

AU - Sauer, Mark V.

AU - Lobo, Rogerio

AU - Benvenisty, Nissim

AU - Egli, Dieter

PY - 2019/9/5

Y1 - 2019/9/5

N2 - Genomic imprinting is an epigenetic mechanism that results in parent-of-origin monoallelic expression of specific genes, which precludes uniparental development and underlies various diseases. Here, we explored molecular and developmental aspects of imprinting in humans by generating exclusively paternal human androgenetic embryonic stem cells (aESCs) and comparing them with exclusively maternal parthenogenetic ESCs (pESCs) and bi-parental ESCs, establishing a pluripotent cell system of distinct parental backgrounds. Analyzing the transcriptomes and methylomes of human aESCs, pESCs, and bi-parental ESCs enabled the characterization of regulatory relations at known imprinted regions and uncovered imprinted gene candidates within and outside known imprinted regions. Investigating the consequences of uniparental differentiation, we showed the known paternal-genome preference for placental contribution, revealed a similar bias toward liver differentiation, and implicated the involvement of the imprinted gene IGF2 in this process. Our results demonstrate the utility of parent-specific human ESCs for dissecting the role of imprinting in human development and disease.

AB - Genomic imprinting is an epigenetic mechanism that results in parent-of-origin monoallelic expression of specific genes, which precludes uniparental development and underlies various diseases. Here, we explored molecular and developmental aspects of imprinting in humans by generating exclusively paternal human androgenetic embryonic stem cells (aESCs) and comparing them with exclusively maternal parthenogenetic ESCs (pESCs) and bi-parental ESCs, establishing a pluripotent cell system of distinct parental backgrounds. Analyzing the transcriptomes and methylomes of human aESCs, pESCs, and bi-parental ESCs enabled the characterization of regulatory relations at known imprinted regions and uncovered imprinted gene candidates within and outside known imprinted regions. Investigating the consequences of uniparental differentiation, we showed the known paternal-genome preference for placental contribution, revealed a similar bias toward liver differentiation, and implicated the involvement of the imprinted gene IGF2 in this process. Our results demonstrate the utility of parent-specific human ESCs for dissecting the role of imprinting in human development and disease.

KW - IGF2

KW - androgenesis

KW - differentiation bias

KW - genomic imprinting

KW - human embryonic stem cells

KW - human pluripotent stem cells

KW - parental imprinting

KW - parthenogenesis

UR - http://www.scopus.com/inward/record.url?scp=85069750016&partnerID=8YFLogxK

U2 - 10.1016/j.stem.2019.06.013

DO - 10.1016/j.stem.2019.06.013

M3 - مقالة

C2 - 31491396

SN - 1934-5909

VL - 25

SP - 419-432.e9

JO - Cell Stem Cell

JF - Cell Stem Cell

IS - 3

ER -

Distinct Imprinting Signatures and Biased Differentiation of Human Androgenetic and Parthenogenetic Embryonic Stem Cells

Abstract

Keywords

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