Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human Placenta

Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human Placenta

Summary: Defective placentation is the underlying cause of various pregnancy complications, such as severe intrauterine growth restriction and preeclampsia. However, studies on human placental development are hampered by the lack of a self-renewing in vitro model that would recapitulate formation of...

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Main Authors: Sandra Haider, Gudrun Meinhardt, Leila Saleh, Viktoria Kunihs, Magdalena Gamperl, Ulrich Kaindl, Adolf Ellinger, Thomas R. Burkard, Christian Fiala, Jürgen Pollheimer, Sasha Mendjan, Paulina A. Latos, Martin Knöfler
Format: Article
Language:English
Published: Elsevier 2018-08-01
Series:Stem Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2213671118303096
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spelling doaj-515e775289b64da4908029b0adba64972020-11-25T01:58:21ZengElsevierStem Cell Reports2213-67112018-08-01112537551Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human PlacentaSandra Haider0Gudrun Meinhardt1Leila Saleh2Viktoria Kunihs3Magdalena Gamperl4Ulrich Kaindl5Adolf Ellinger6Thomas R. Burkard7Christian Fiala8Jürgen Pollheimer9Sasha Mendjan10Paulina A. Latos11Martin Knöfler12Department of Obstetrics and Gynaecology, Medical University of Vienna, Reproductive Biology Unit, Währinger Gürtel 18-20, 5Q, 1090 Vienna, AustriaDepartment of Obstetrics and Gynaecology, Medical University of Vienna, Reproductive Biology Unit, Währinger Gürtel 18-20, 5Q, 1090 Vienna, AustriaDepartment of Obstetrics and Gynaecology, Medical University of Vienna, Reproductive Biology Unit, Währinger Gürtel 18-20, 5Q, 1090 Vienna, AustriaDepartment of Obstetrics and Gynaecology, Medical University of Vienna, Reproductive Biology Unit, Währinger Gürtel 18-20, 5Q, 1090 Vienna, AustriaCenter for Anatomy and Cell Biology, Medical University of Vienna, Schwarzspanierstrasse 17, 1090 Vienna, AustriaCenter for Anatomy and Cell Biology, Medical University of Vienna, Schwarzspanierstrasse 17, 1090 Vienna, AustriaCenter for Anatomy and Cell Biology, Medical University of Vienna, Schwarzspanierstrasse 17, 1090 Vienna, AustriaInstitute of Molecular Biotechnology, Austrian Academy of Sciences, 1030 Vienna, AustriaGynmed Clinic, 1150 Vienna, AustriaDepartment of Obstetrics and Gynaecology, Medical University of Vienna, Reproductive Biology Unit, Währinger Gürtel 18-20, 5Q, 1090 Vienna, AustriaInstitute of Molecular Biotechnology, Austrian Academy of Sciences, 1030 Vienna, AustriaCenter for Anatomy and Cell Biology, Medical University of Vienna, Schwarzspanierstrasse 17, 1090 Vienna, Austria; Corresponding authorDepartment of Obstetrics and Gynaecology, Medical University of Vienna, Reproductive Biology Unit, Währinger Gürtel 18-20, 5Q, 1090 Vienna, Austria; Corresponding authorSummary: Defective placentation is the underlying cause of various pregnancy complications, such as severe intrauterine growth restriction and preeclampsia. However, studies on human placental development are hampered by the lack of a self-renewing in vitro model that would recapitulate formation of trophoblast progenitors and differentiated subtypes, syncytiotrophoblast (STB) and invasive extravillous trophoblast (EVT), in a 3D orientation. Hence, we established long-term expanding organoid cultures from purified first-trimester cytotrophoblasts (CTBs). Molecular analyses revealed that the CTB organoid cultures (CTB-ORGs) express markers of trophoblast stemness and proliferation and are highly similar to primary CTBs at the level of global gene expression. Whereas CTB-ORGs spontaneously generated STBs, withdrawal of factors for self-renewal induced trophoblast outgrowth, expressing the EVT progenitor marker NOTCH1, and provoked formation of adjacent, distally located HLA-G+ EVTs. In summary, we established human CTB-ORGs that grow and differentiate under defined culture conditions, allowing future human placental disease modeling. : Failures in human placental development have been associated with severe pregnancy complications. However, due to the lack of a self-renewing model system, mimicking 3D in vivo growth and differentiation of placental trophoblast, the underlying mechanisms remain poorly understood. Herein, long-term expanding trophoblasts organoids were established that proliferate and differentiate under defined culture conditions allowing investigating normal and pathological placentation. Key words: human placenta, cytotrophoblast organoids, self-renewal, extravillous trophoblast lineage, differentiation, cell fusion, Wnt signallinghttp://www.sciencedirect.com/science/article/pii/S2213671118303096
collection DOAJ
language English
format Article
sources DOAJ
author Sandra Haider
Gudrun Meinhardt
Leila Saleh
Viktoria Kunihs
Magdalena Gamperl
Ulrich Kaindl
Adolf Ellinger
Thomas R. Burkard
Christian Fiala
Jürgen Pollheimer
Sasha Mendjan
Paulina A. Latos
Martin Knöfler
spellingShingle Sandra Haider
Gudrun Meinhardt
Leila Saleh
Viktoria Kunihs
Magdalena Gamperl
Ulrich Kaindl
Adolf Ellinger
Thomas R. Burkard
Christian Fiala
Jürgen Pollheimer
Sasha Mendjan
Paulina A. Latos
Martin Knöfler
Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human Placenta
Stem Cell Reports
author_facet Sandra Haider
Gudrun Meinhardt
Leila Saleh
Viktoria Kunihs
Magdalena Gamperl
Ulrich Kaindl
Adolf Ellinger
Thomas R. Burkard
Christian Fiala
Jürgen Pollheimer
Sasha Mendjan
Paulina A. Latos
Martin Knöfler
author_sort Sandra Haider
title Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human Placenta
title_short Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human Placenta
title_full Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human Placenta
title_fullStr Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human Placenta
title_full_unstemmed Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human Placenta
title_sort self-renewing trophoblast organoids recapitulate the developmental program of the early human placenta
publisher Elsevier
series Stem Cell Reports
issn 2213-6711
publishDate 2018-08-01
description Summary: Defective placentation is the underlying cause of various pregnancy complications, such as severe intrauterine growth restriction and preeclampsia. However, studies on human placental development are hampered by the lack of a self-renewing in vitro model that would recapitulate formation of trophoblast progenitors and differentiated subtypes, syncytiotrophoblast (STB) and invasive extravillous trophoblast (EVT), in a 3D orientation. Hence, we established long-term expanding organoid cultures from purified first-trimester cytotrophoblasts (CTBs). Molecular analyses revealed that the CTB organoid cultures (CTB-ORGs) express markers of trophoblast stemness and proliferation and are highly similar to primary CTBs at the level of global gene expression. Whereas CTB-ORGs spontaneously generated STBs, withdrawal of factors for self-renewal induced trophoblast outgrowth, expressing the EVT progenitor marker NOTCH1, and provoked formation of adjacent, distally located HLA-G+ EVTs. In summary, we established human CTB-ORGs that grow and differentiate under defined culture conditions, allowing future human placental disease modeling. : Failures in human placental development have been associated with severe pregnancy complications. However, due to the lack of a self-renewing model system, mimicking 3D in vivo growth and differentiation of placental trophoblast, the underlying mechanisms remain poorly understood. Herein, long-term expanding trophoblasts organoids were established that proliferate and differentiate under defined culture conditions allowing investigating normal and pathological placentation. Key words: human placenta, cytotrophoblast organoids, self-renewal, extravillous trophoblast lineage, differentiation, cell fusion, Wnt signalling
url http://www.sciencedirect.com/science/article/pii/S2213671118303096
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