Genetic programming of macrophages generates an in vitro model for the human erythroid island niche

In vitro differentiation of red blood cells (RBCs) is a desirable therapy for various disorders. Here the authors develop a culture system using stem cell-derived macrophages to show that inducible expression of a transcription factor, KLF1, enhances RBC production, potentially through the induction...

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Autores principales: Martha Lopez-Yrigoyen, Cheng-Tao Yang, Antonella Fidanza, Luca Cassetta, A. Helen Taylor, Angela McCahill, Erica Sellink, Marieke von Lindern, Emile van den Akker, Joanne C. Mountford, Jeffrey W. Pollard, Lesley M. Forrester
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Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/b0cccdc9bb284487980ca46db3249dc4
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spelling oai:doaj.org-article:b0cccdc9bb284487980ca46db3249dc42021-12-02T17:01:58ZGenetic programming of macrophages generates an in vitro model for the human erythroid island niche10.1038/s41467-019-08705-02041-1723https://doaj.org/article/b0cccdc9bb284487980ca46db3249dc42019-02-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-08705-0https://doaj.org/toc/2041-1723In vitro differentiation of red blood cells (RBCs) is a desirable therapy for various disorders. Here the authors develop a culture system using stem cell-derived macrophages to show that inducible expression of a transcription factor, KLF1, enhances RBC production, potentially through the induction of three soluble factors, ANGPTL7, IL33 and SERPINB2.Martha Lopez-YrigoyenCheng-Tao YangAntonella FidanzaLuca CassettaA. Helen TaylorAngela McCahillErica SellinkMarieke von LindernEmile van den AkkerJoanne C. MountfordJeffrey W. PollardLesley M. ForresterNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-11 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Martha Lopez-Yrigoyen
Cheng-Tao Yang
Antonella Fidanza
Luca Cassetta
A. Helen Taylor
Angela McCahill
Erica Sellink
Marieke von Lindern
Emile van den Akker
Joanne C. Mountford
Jeffrey W. Pollard
Lesley M. Forrester
Genetic programming of macrophages generates an in vitro model for the human erythroid island niche
description In vitro differentiation of red blood cells (RBCs) is a desirable therapy for various disorders. Here the authors develop a culture system using stem cell-derived macrophages to show that inducible expression of a transcription factor, KLF1, enhances RBC production, potentially through the induction of three soluble factors, ANGPTL7, IL33 and SERPINB2.
format article
author Martha Lopez-Yrigoyen
Cheng-Tao Yang
Antonella Fidanza
Luca Cassetta
A. Helen Taylor
Angela McCahill
Erica Sellink
Marieke von Lindern
Emile van den Akker
Joanne C. Mountford
Jeffrey W. Pollard
Lesley M. Forrester
author_facet Martha Lopez-Yrigoyen
Cheng-Tao Yang
Antonella Fidanza
Luca Cassetta
A. Helen Taylor
Angela McCahill
Erica Sellink
Marieke von Lindern
Emile van den Akker
Joanne C. Mountford
Jeffrey W. Pollard
Lesley M. Forrester
author_sort Martha Lopez-Yrigoyen
title Genetic programming of macrophages generates an in vitro model for the human erythroid island niche
title_short Genetic programming of macrophages generates an in vitro model for the human erythroid island niche
title_full Genetic programming of macrophages generates an in vitro model for the human erythroid island niche
title_fullStr Genetic programming of macrophages generates an in vitro model for the human erythroid island niche
title_full_unstemmed Genetic programming of macrophages generates an in vitro model for the human erythroid island niche
title_sort genetic programming of macrophages generates an in vitro model for the human erythroid island niche
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/b0cccdc9bb284487980ca46db3249dc4
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