Stable iPSC-derived NKX2-1(+) lung bud tip progenitor organoids give rise to airway and alveolar cell types

Bud tip progenitors (BTPs) in the developing lung give rise to all epithelial cell types found in the airways and alveoli. This work aimed to develop an iPSC organoid model enriched with NKX2-1(+) BTP-like cells. Building on previous studies, we optimized a directed differentiation paradigm to gener...

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Autores principales: Hein, Renee F. C., Conchola, Ansley S., Fine, Alexis S., Xiao, Zhiwei, Frum, Tristan, Brastrom, Lindy K., Akinwale, Mayowa A., Childs, Charlie J., Tsai, Yu-Hwai, Holloway, Emily M., Huang, Sha, Mahoney, John, Heemskerk, Idse, Spence, Jason R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Company of Biologists Ltd 2022
Materias:
Stem Cells and Regeneration
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9534489/
https://www.ncbi.nlm.nih.gov/pubmed/36039869
http://dx.doi.org/10.1242/dev.200693
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author Hein, Renee F. C.
Conchola, Ansley S.
Fine, Alexis S.
Xiao, Zhiwei
Frum, Tristan
Brastrom, Lindy K.
Akinwale, Mayowa A.
Childs, Charlie J.
Tsai, Yu-Hwai
Holloway, Emily M.
Huang, Sha
Mahoney, John
Heemskerk, Idse
Spence, Jason R.
author_facet Hein, Renee F. C.
Conchola, Ansley S.
Fine, Alexis S.
Xiao, Zhiwei
Frum, Tristan
Brastrom, Lindy K.
Akinwale, Mayowa A.
Childs, Charlie J.
Tsai, Yu-Hwai
Holloway, Emily M.
Huang, Sha
Mahoney, John
Heemskerk, Idse
Spence, Jason R.
author_sort Hein, Renee F. C.
collection PubMed
description Bud tip progenitors (BTPs) in the developing lung give rise to all epithelial cell types found in the airways and alveoli. This work aimed to develop an iPSC organoid model enriched with NKX2-1(+) BTP-like cells. Building on previous studies, we optimized a directed differentiation paradigm to generate spheroids with more robust NKX2-1 expression. Spheroids were expanded into organoids that possessed NKX2-1(+)/CPM(+) BTP-like cells, which increased in number over time. Single cell RNA-sequencing analysis revealed a high degree of transcriptional similarity between induced BTPs (iBTPs) and in vivo BTPs. Using FACS, iBTPs were purified and expanded as induced bud tip progenitor organoids (iBTOs), which maintained an enriched population of bud tip progenitors. When iBTOs were directed to differentiate into airway or alveolar cell types using well-established methods, they gave rise to organoids composed of organized airway or alveolar epithelium, respectively. Collectively, iBTOs are transcriptionally and functionally similar to in vivo BTPs, providing an important model for studying human lung development and differentiation.
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spelling pubmed-95344892022-10-25 Stable iPSC-derived NKX2-1(+) lung bud tip progenitor organoids give rise to airway and alveolar cell types Hein, Renee F. C. Conchola, Ansley S. Fine, Alexis S. Xiao, Zhiwei Frum, Tristan Brastrom, Lindy K. Akinwale, Mayowa A. Childs, Charlie J. Tsai, Yu-Hwai Holloway, Emily M. Huang, Sha Mahoney, John Heemskerk, Idse Spence, Jason R. Development Stem Cells and Regeneration Bud tip progenitors (BTPs) in the developing lung give rise to all epithelial cell types found in the airways and alveoli. This work aimed to develop an iPSC organoid model enriched with NKX2-1(+) BTP-like cells. Building on previous studies, we optimized a directed differentiation paradigm to generate spheroids with more robust NKX2-1 expression. Spheroids were expanded into organoids that possessed NKX2-1(+)/CPM(+) BTP-like cells, which increased in number over time. Single cell RNA-sequencing analysis revealed a high degree of transcriptional similarity between induced BTPs (iBTPs) and in vivo BTPs. Using FACS, iBTPs were purified and expanded as induced bud tip progenitor organoids (iBTOs), which maintained an enriched population of bud tip progenitors. When iBTOs were directed to differentiate into airway or alveolar cell types using well-established methods, they gave rise to organoids composed of organized airway or alveolar epithelium, respectively. Collectively, iBTOs are transcriptionally and functionally similar to in vivo BTPs, providing an important model for studying human lung development and differentiation. The Company of Biologists Ltd 2022-08-30 /pmc/articles/PMC9534489/ /pubmed/36039869 http://dx.doi.org/10.1242/dev.200693 Text en © 2022. Published by The Company of Biologists Ltd https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.
spellingShingle Stem Cells and Regeneration
Hein, Renee F. C.
Conchola, Ansley S.
Fine, Alexis S.
Xiao, Zhiwei
Frum, Tristan
Brastrom, Lindy K.
Akinwale, Mayowa A.
Childs, Charlie J.
Tsai, Yu-Hwai
Holloway, Emily M.
Huang, Sha
Mahoney, John
Heemskerk, Idse
Spence, Jason R.
Stable iPSC-derived NKX2-1(+) lung bud tip progenitor organoids give rise to airway and alveolar cell types
title Stable iPSC-derived NKX2-1(+) lung bud tip progenitor organoids give rise to airway and alveolar cell types
title_full Stable iPSC-derived NKX2-1(+) lung bud tip progenitor organoids give rise to airway and alveolar cell types
title_fullStr Stable iPSC-derived NKX2-1(+) lung bud tip progenitor organoids give rise to airway and alveolar cell types
title_full_unstemmed Stable iPSC-derived NKX2-1(+) lung bud tip progenitor organoids give rise to airway and alveolar cell types
title_short Stable iPSC-derived NKX2-1(+) lung bud tip progenitor organoids give rise to airway and alveolar cell types
title_sort stable ipsc-derived nkx2-1(+) lung bud tip progenitor organoids give rise to airway and alveolar cell types
topic Stem Cells and Regeneration
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9534489/
https://www.ncbi.nlm.nih.gov/pubmed/36039869
http://dx.doi.org/10.1242/dev.200693
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