Lgr5+ stem and progenitor cells reside at the apex of a heterogeneous embryonic hepatoblast pool
Lgr5+ stem and progenitor cells reside at the apex of a heterogeneous embryonic hepatoblast pool
During mouse embryogenesis, progenitors within the liver known as hepatoblasts give rise to adult hepatocytes and cholangiocytes. Hepatoblasts, which are specified at E8.5-E9.0, have been regarded as a homogeneous progenitor population that initiate differentiation from E13.5. Recently, scRNA-seq analysis has identified sub-populations of transcriptionally distinct hepatoblasts at E11.5. Here, we show that hepatoblasts are not only transcriptionally but also functionally heterogeneous, and that a subpopulation of E9.5-E10.0 hepatoblasts exhibit a previously unidentified early commitment to cholangiocyte fate. Importantly, we also identify a subpopulation constituting 2% of E9.5-E10.0 hepatoblasts that express the adult stem cell marker Lgr5, and generate both hepatocyte and cholangiocyte progeny that persist for the lifespan of the mouse. Combining lineage tracing and scRNA-seq, we show that Lgr5 marks E9.5-E10.0 bipotent liver progenitors residing at the apex of a hepatoblast hierarchy. Furthermore, isolated Lgr5+ hepatoblasts can be clonally expanded in vitro into embryonic liver organoids, which can commit to either hepatocyte or cholangiocyte fates. Our study demonstrates functional heterogeneity within E9.5 hepatoblasts and identifies Lgr5 as a marker for a subpopulation of bipotent liver progenitors.
Bipotent,Hepatoblast,Lgr5,Liver development,Liver stem/progenitor cells,Organoid
dev174557
Prior, Nicole
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Hindley, Christopher J.
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Rost, Fabian
da280e93-1e09-474c-90fb-09ea194a8771
Meléndez, Elena
91dcfe9d-b52b-4fbf-b50f-6831442ccdd4
Lau, Winnie W.Y.
add9cd52-0a5a-447c-9399-4bc25f8c0fbe
Göttgens, Berthold
f52a1769-e5f6-4ceb-818c-8615b1e12b88
Rulands, Steffen
a7e89444-6d35-4f18-804c-0c8b32c61fa7
Simons, Benjamin D.
02e0ea52-9b7f-4b80-a856-a22cc1991ba3
Huch, Meritxell
defdc21f-6ca2-4a97-ab38-436adce9d37c
12 June 2019
Prior, Nicole
27851f03-6041-4409-a15c-a2a164b883e0
Hindley, Christopher J.
3f009c77-55b7-4810-b741-6a67618e1406
Rost, Fabian
da280e93-1e09-474c-90fb-09ea194a8771
Meléndez, Elena
91dcfe9d-b52b-4fbf-b50f-6831442ccdd4
Lau, Winnie W.Y.
add9cd52-0a5a-447c-9399-4bc25f8c0fbe
Göttgens, Berthold
f52a1769-e5f6-4ceb-818c-8615b1e12b88
Rulands, Steffen
a7e89444-6d35-4f18-804c-0c8b32c61fa7
Simons, Benjamin D.
02e0ea52-9b7f-4b80-a856-a22cc1991ba3
Huch, Meritxell
defdc21f-6ca2-4a97-ab38-436adce9d37c
Prior, Nicole, Hindley, Christopher J., Rost, Fabian, Meléndez, Elena, Lau, Winnie W.Y., Göttgens, Berthold, Rulands, Steffen, Simons, Benjamin D. and Huch, Meritxell
(2019)
Lgr5+ stem and progenitor cells reside at the apex of a heterogeneous embryonic hepatoblast pool.
Development, 146 (12), .
(doi:10.1242/dev.174557).
Abstract
During mouse embryogenesis, progenitors within the liver known as hepatoblasts give rise to adult hepatocytes and cholangiocytes. Hepatoblasts, which are specified at E8.5-E9.0, have been regarded as a homogeneous progenitor population that initiate differentiation from E13.5. Recently, scRNA-seq analysis has identified sub-populations of transcriptionally distinct hepatoblasts at E11.5. Here, we show that hepatoblasts are not only transcriptionally but also functionally heterogeneous, and that a subpopulation of E9.5-E10.0 hepatoblasts exhibit a previously unidentified early commitment to cholangiocyte fate. Importantly, we also identify a subpopulation constituting 2% of E9.5-E10.0 hepatoblasts that express the adult stem cell marker Lgr5, and generate both hepatocyte and cholangiocyte progeny that persist for the lifespan of the mouse. Combining lineage tracing and scRNA-seq, we show that Lgr5 marks E9.5-E10.0 bipotent liver progenitors residing at the apex of a hepatoblast hierarchy. Furthermore, isolated Lgr5+ hepatoblasts can be clonally expanded in vitro into embryonic liver organoids, which can commit to either hepatocyte or cholangiocyte fates. Our study demonstrates functional heterogeneity within E9.5 hepatoblasts and identifies Lgr5 as a marker for a subpopulation of bipotent liver progenitors.
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Lgr5+
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Accepted/In Press date: 15 May 2019
Published date: 12 June 2019
Keywords:
Bipotent,Hepatoblast,Lgr5,Liver development,Liver stem/progenitor cells,Organoid
Identifiers
Local EPrints ID: 441627
URI: http://eprints.soton.ac.uk/id/eprint/441627
ISSN: 1477-9129
PURE UUID: fb30e021-d1c7-4a4b-b09d-09d940beb951
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Date deposited: 22 Jun 2020 16:30
Last modified: 17 Mar 2024 04:02
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Contributors
Author:
Christopher J. Hindley
Author:
Fabian Rost
Author:
Elena Meléndez
Author:
Winnie W.Y. Lau
Author:
Berthold Göttgens
Author:
Steffen Rulands
Author:
Benjamin D. Simons
Author:
Meritxell Huch
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