Human stem cells from single blastomeres reveal pathways of embryonic or trophoblast fate specification

Tamara Zdravkovic; Kristopher L. Nazor; Nicholas Larocque; Matthew Gormley; Matthew Donne; Nathan Hunkapillar; Gnanaratnam Giritharan; Harold S. Bernstein; Grace Wei; Matthias Hebrok; Xianmin Zeng; Olga Genbacev; Aras Mattis; Michael T. McMaster; Ana Krtolica; Diana Valbuena; Carlos Simón; Louise C. Laurent; Jeanne F. Loring; Susan J. Fisher

doi:10.1242/dev.122846

Human stem cells from single blastomeres reveal pathways of embryonic or trophoblast fate specification

Tamara Zdravkovic
, Kristopher L. Nazor
, Nicholas Larocque
, Matthew Gormley
, Matthew Donne
, Nathan Hunkapillar
, Gnanaratnam Giritharan
, Harold S. Bernstein
, Grace Wei
, Matthias Hebrok
, Xianmin Zeng
, Olga Genbacev
, Aras Mattis
, Michael T. McMaster
, Ana Krtolica
, Diana Valbuena
, Carlos Simón
, Louise C. Laurent
, Jeanne F. Loring
, Susan J. Fisher

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

78 Scopus citations

Abstract

Mechanisms of initial cell fate decisions differ among species. To gain insights into lineage allocation in humans, we derived ten human embryonic stem cell lines (designated UCSFB1-10) from single blastomeres of four 8-cell embryos and one 12-cell embryo from a single couple. Compared with numerous conventional lines from blastocysts, they had unique gene expression and DNA methylation patterns that were, in part, indicative of trophoblast competence. At a transcriptional level, UCSFB lines from different embryos were often more closely related than those from the same embryo. As predicted by the transcriptomic data, immunolocalization of EOMES, T brachyury, GDF15 and active β-catenin revealed differential expression among blastomeres of 8-to 10-cell human embryos. The UCSFB lines formed derivatives of the three germ layers and CDX2-positive progeny, from which we derived the first human trophoblast stem cell line. Our data suggest heterogeneity among early-stage blastomeres and that the UCSFB lines have unique properties, indicative of a more immature state than conventional lines.

Original language	English
Pages (from-to)	4010-4025
Number of pages	16
Journal	Development (Cambridge)
Volume	142
Issue number	23
DOIs	https://doi.org/10.1242/dev.122846
State	Published - 1 Dec 2015
Externally published	Yes

Keywords

Blastomere
Epigenome
Fate specification
Human embryo
Human embryonic stem cell
Human trophoblast stem cell
Transcriptome

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10.1242/dev.122846

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Zdravkovic, T., Nazor, K. L., Larocque, N., Gormley, M., Donne, M., Hunkapillar, N., Giritharan, G., Bernstein, H. S., Wei, G., Hebrok, M., Zeng, X., Genbacev, O., Mattis, A., McMaster, M. T., Krtolica, A., Valbuena, D., Simón, C., Laurent, L. C., Loring, J. F., & Fisher, S. J. (2015). Human stem cells from single blastomeres reveal pathways of embryonic or trophoblast fate specification. Development (Cambridge), 142(23), 4010-4025. https://doi.org/10.1242/dev.122846

@article{eead5afe94b04484908505421e50f695,

title = "Human stem cells from single blastomeres reveal pathways of embryonic or trophoblast fate specification",

abstract = "Mechanisms of initial cell fate decisions differ among species. To gain insights into lineage allocation in humans, we derived ten human embryonic stem cell lines (designated UCSFB1-10) from single blastomeres of four 8-cell embryos and one 12-cell embryo from a single couple. Compared with numerous conventional lines from blastocysts, they had unique gene expression and DNA methylation patterns that were, in part, indicative of trophoblast competence. At a transcriptional level, UCSFB lines from different embryos were often more closely related than those from the same embryo. As predicted by the transcriptomic data, immunolocalization of EOMES, T brachyury, GDF15 and active β-catenin revealed differential expression among blastomeres of 8-to 10-cell human embryos. The UCSFB lines formed derivatives of the three germ layers and CDX2-positive progeny, from which we derived the first human trophoblast stem cell line. Our data suggest heterogeneity among early-stage blastomeres and that the UCSFB lines have unique properties, indicative of a more immature state than conventional lines.",

keywords = "Blastomere, Epigenome, Fate specification, Human embryo, Human embryonic stem cell, Human trophoblast stem cell, Transcriptome",

author = "Tamara Zdravkovic and Nazor, \{Kristopher L.\} and Nicholas Larocque and Matthew Gormley and Matthew Donne and Nathan Hunkapillar and Gnanaratnam Giritharan and Bernstein, \{Harold S.\} and Grace Wei and Matthias Hebrok and Xianmin Zeng and Olga Genbacev and Aras Mattis and McMaster, \{Michael T.\} and Ana Krtolica and Diana Valbuena and Carlos Sim{\'o}n and Laurent, \{Louise C.\} and Loring, \{Jeanne F.\} and Fisher, \{Susan J.\}",

note = "Publisher Copyright: {\textcopyright} 2015. Published by The Company of Biologists Ltd.",

year = "2015",

month = dec,

day = "1",

doi = "10.1242/dev.122846",

language = "English",

volume = "142",

pages = "4010--4025",

journal = "Development (Cambridge)",

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Zdravkovic, T, Nazor, KL, Larocque, N, Gormley, M, Donne, M, Hunkapillar, N, Giritharan, G, Bernstein, HS, Wei, G, Hebrok, M, Zeng, X, Genbacev, O, Mattis, A, McMaster, MT, Krtolica, A, Valbuena, D, Simón, C, Laurent, LC, Loring, JF & Fisher, SJ 2015, 'Human stem cells from single blastomeres reveal pathways of embryonic or trophoblast fate specification', Development (Cambridge), vol. 142, no. 23, pp. 4010-4025. https://doi.org/10.1242/dev.122846

TY - JOUR

T1 - Human stem cells from single blastomeres reveal pathways of embryonic or trophoblast fate specification

AU - Zdravkovic, Tamara

AU - Nazor, Kristopher L.

AU - Larocque, Nicholas

AU - Gormley, Matthew

AU - Donne, Matthew

AU - Hunkapillar, Nathan

AU - Giritharan, Gnanaratnam

AU - Bernstein, Harold S.

AU - Wei, Grace

AU - Hebrok, Matthias

AU - Zeng, Xianmin

AU - Genbacev, Olga

AU - Mattis, Aras

AU - McMaster, Michael T.

AU - Krtolica, Ana

AU - Valbuena, Diana

AU - Simón, Carlos

AU - Laurent, Louise C.

AU - Loring, Jeanne F.

AU - Fisher, Susan J.

PY - 2015/12/1

Y1 - 2015/12/1

N2 - Mechanisms of initial cell fate decisions differ among species. To gain insights into lineage allocation in humans, we derived ten human embryonic stem cell lines (designated UCSFB1-10) from single blastomeres of four 8-cell embryos and one 12-cell embryo from a single couple. Compared with numerous conventional lines from blastocysts, they had unique gene expression and DNA methylation patterns that were, in part, indicative of trophoblast competence. At a transcriptional level, UCSFB lines from different embryos were often more closely related than those from the same embryo. As predicted by the transcriptomic data, immunolocalization of EOMES, T brachyury, GDF15 and active β-catenin revealed differential expression among blastomeres of 8-to 10-cell human embryos. The UCSFB lines formed derivatives of the three germ layers and CDX2-positive progeny, from which we derived the first human trophoblast stem cell line. Our data suggest heterogeneity among early-stage blastomeres and that the UCSFB lines have unique properties, indicative of a more immature state than conventional lines.

AB - Mechanisms of initial cell fate decisions differ among species. To gain insights into lineage allocation in humans, we derived ten human embryonic stem cell lines (designated UCSFB1-10) from single blastomeres of four 8-cell embryos and one 12-cell embryo from a single couple. Compared with numerous conventional lines from blastocysts, they had unique gene expression and DNA methylation patterns that were, in part, indicative of trophoblast competence. At a transcriptional level, UCSFB lines from different embryos were often more closely related than those from the same embryo. As predicted by the transcriptomic data, immunolocalization of EOMES, T brachyury, GDF15 and active β-catenin revealed differential expression among blastomeres of 8-to 10-cell human embryos. The UCSFB lines formed derivatives of the three germ layers and CDX2-positive progeny, from which we derived the first human trophoblast stem cell line. Our data suggest heterogeneity among early-stage blastomeres and that the UCSFB lines have unique properties, indicative of a more immature state than conventional lines.

KW - Blastomere

KW - Epigenome

KW - Fate specification

KW - Human embryo

KW - Human embryonic stem cell

KW - Human trophoblast stem cell

KW - Transcriptome

UR - https://www.scopus.com/pages/publications/84949477631

U2 - 10.1242/dev.122846

DO - 10.1242/dev.122846

M3 - Article

C2 - 26483210

AN - SCOPUS:84949477631

SN - 0950-1991

VL - 142

SP - 4010

EP - 4025

JO - Development (Cambridge)

JF - Development (Cambridge)

IS - 23

ER -

Human stem cells from single blastomeres reveal pathways of embryonic or trophoblast fate specification

Abstract

Keywords

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