Differentiation of human embryonic stem cells into pancreatic endoderm in patterned size-controlled clusters

Pancreatic β-cells function optimally when clustered in islet-like structures. However, nutrient and oxygen deprivation limits the viability of cells at the core of excessively large clusters. Hence, production of functional β-cells from human embryonic stem cells (hESCs) for patients with diabetes...

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Veröffentlicht in:	Stem cell research 2011-05, Vol.6 (3), p.276-285
Hauptverfasser:	Van Hoof, Dennis, Mendelsohn, Adam D., Seerke, Rina, Desai, Tejal A., German, Michael S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Cell Culture Techniques - methods Cell Differentiation Cell Size Embryonic Stem Cells - cytology Embryonic Stem Cells - metabolism Endoderm - cytology Endoderm - metabolism Gene Expression Homeodomain Proteins - genetics Homeodomain Proteins - metabolism Humans Insulin-Secreting Cells - cytology Insulin-Secreting Cells - metabolism Pancreas - cytology Pancreas - growth & development Pancreas - metabolism Trans-Activators - genetics Trans-Activators - metabolism
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container_title	Stem cell research
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creator	Van Hoof, Dennis Mendelsohn, Adam D. Seerke, Rina Desai, Tejal A. German, Michael S.
description	Pancreatic β-cells function optimally when clustered in islet-like structures. However, nutrient and oxygen deprivation limits the viability of cells at the core of excessively large clusters. Hence, production of functional β-cells from human embryonic stem cells (hESCs) for patients with diabetes would benefit from the growth and differentiation of these cells in size-controlled aggregates. In this study, we controlled cluster size by seeding hESCs onto glass cover slips patterned by the covalent microcontact-printing of laminin in circular patches of 120μm in diameter. These were used as substrates to grow and differentiate hESCs first into SOX17-positive/SOX7-negative definitive endoderm, after which many clusters released and formed uniformly sized three-dimensional clusters. Both released clusters and those that remained attached differentiated into HNF1β-positive primitive gut tube-like cells with high efficiency. Further differentiation yielded pancreatic endoderm-like cells that co-expressed PDX1 and NKX6.1. Controlling aggregate size allows efficient production of uniformly-clustered pancreatic endocrine precursors for in vivo engraftment or further in vitro maturation.
doi_str_mv	10.1016/j.scr.2011.02.004
format	Article
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However, nutrient and oxygen deprivation limits the viability of cells at the core of excessively large clusters. Hence, production of functional β-cells from human embryonic stem cells (hESCs) for patients with diabetes would benefit from the growth and differentiation of these cells in size-controlled aggregates. In this study, we controlled cluster size by seeding hESCs onto glass cover slips patterned by the covalent microcontact-printing of laminin in circular patches of 120μm in diameter. These were used as substrates to grow and differentiate hESCs first into SOX17-positive/SOX7-negative definitive endoderm, after which many clusters released and formed uniformly sized three-dimensional clusters. Both released clusters and those that remained attached differentiated into HNF1β-positive primitive gut tube-like cells with high efficiency. Further differentiation yielded pancreatic endoderm-like cells that co-expressed PDX1 and NKX6.1. 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However, nutrient and oxygen deprivation limits the viability of cells at the core of excessively large clusters. Hence, production of functional β-cells from human embryonic stem cells (hESCs) for patients with diabetes would benefit from the growth and differentiation of these cells in size-controlled aggregates. In this study, we controlled cluster size by seeding hESCs onto glass cover slips patterned by the covalent microcontact-printing of laminin in circular patches of 120μm in diameter. These were used as substrates to grow and differentiate hESCs first into SOX17-positive/SOX7-negative definitive endoderm, after which many clusters released and formed uniformly sized three-dimensional clusters. Both released clusters and those that remained attached differentiated into HNF1β-positive primitive gut tube-like cells with high efficiency. Further differentiation yielded pancreatic endoderm-like cells that co-expressed PDX1 and NKX6.1. 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subjects	Cell Culture Techniques - methods Cell Differentiation Cell Size Embryonic Stem Cells - cytology Embryonic Stem Cells - metabolism Endoderm - cytology Endoderm - metabolism Gene Expression Homeodomain Proteins - genetics Homeodomain Proteins - metabolism Humans Insulin-Secreting Cells - cytology Insulin-Secreting Cells - metabolism Pancreas - cytology Pancreas - growth & development Pancreas - metabolism Trans-Activators - genetics Trans-Activators - metabolism
title	Differentiation of human embryonic stem cells into pancreatic endoderm in patterned size-controlled clusters
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