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Natural hydrogels support kidney organoid generation and promote in vitro angiogenesis

Natural hydrogels support kidney organoid generation and promote in vitro angiogenesis
Natural hydrogels support kidney organoid generation and promote in vitro angiogenesis
To date, strategies aiming to modulate cell to extracellular matrix (ECM) interactions during organoid derivation remain largely unexplored. Here renal decellularized ECM (dECM) hydrogels are fabricated from porcine and human renal cortex as biomaterials to enrich cell‐to‐ECM crosstalk during the onset of kidney organoid differentiation from human pluripotent stem cells (hPSCs). Renal dECM‐derived hydrogels are used in combination with hPSC‐derived renal progenitor cells to define new approaches for 2D and 3D kidney organoid differentiation, demonstrating that in the presence of these biomaterials the resulting kidney organoids exhibit renal differentiation features and the formation of an endogenous vascular component. Based on these observations, a new method to produce kidney organoids with vascular‐like structures is achieved through the assembly of hPSC‐derived endothelial‐like organoids with kidney organoids in 3D. Major readouts of kidney differentiation and renal cell morphology are assessed exploiting these culture platforms as new models of nephrogenesis. Overall, this work shows that exploiting cell‐to‐ECM interactions during the onset of kidney differentiation from hPSCs facilitates and optimizes current approaches for kidney organoid derivation thereby increasing the utility of these unique cell culture platforms for personalized medicine.
assembloids, extracellular matrix-derived hydrogels, human pluripotent stem cells, kidney organoids, vascularization
1521-4095
Garreta, Elena
bc1efc04-9c88-4679-80ee-3f1e52378892
Moya‐Rull, Daniel
56b6f93a-40f1-4de3-a54a-250859c50d87
Marco, Andrés
d5852f4e-afdb-4c78-98c0-b98c837ca210
Amato, Gaia
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Ullate‐Agote, Asier
f8534f91-2175-49fa-aaad-937634734c15
Tarantino, Carolina
5f934f7a-dca8-4009-95dd-915cfa77c6ac
Gallo, Maria
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Esporrín‐Ubieto, David
af5fb181-d151-4ef0-b28d-921d30138ccc
Centeno, Alberto
f0ef4c56-1896-4e4d-b557-b45b1b4d2010
Vilas‐Zornoza, Amaia
9abe0f24-dbcc-4c3f-9b81-77eac4ff0fbb
Mestre, Rafael
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Kalil, María
24b8f395-cc18-4b4a-b756-c7c2e26539ef
Gorroñogoitia, Izar
289acf8e-9c1e-4b9f-8725-167453b07d60
Zaldua, Ane Miren
1be32b83-722c-4882-93a4-e8099b565298
Sanchez, Samuel
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Reyes, Laura Izquierdo
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Fernández‐Santos, María Eugenia
9a63e398-3fa3-4479-b46e-821745a2e7a2
Prosper, Felipe
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Montserrat, Nuria
8309b481-a862-46e2-ad61-47e17e4819e1
Garreta, Elena
bc1efc04-9c88-4679-80ee-3f1e52378892
Moya‐Rull, Daniel
56b6f93a-40f1-4de3-a54a-250859c50d87
Marco, Andrés
d5852f4e-afdb-4c78-98c0-b98c837ca210
Amato, Gaia
9ef92d01-5ed9-411b-8067-cced27aaafa1
Ullate‐Agote, Asier
f8534f91-2175-49fa-aaad-937634734c15
Tarantino, Carolina
5f934f7a-dca8-4009-95dd-915cfa77c6ac
Gallo, Maria
546289af-bcd3-4d8c-bd2d-46a315f1bb4e
Esporrín‐Ubieto, David
af5fb181-d151-4ef0-b28d-921d30138ccc
Centeno, Alberto
f0ef4c56-1896-4e4d-b557-b45b1b4d2010
Vilas‐Zornoza, Amaia
9abe0f24-dbcc-4c3f-9b81-77eac4ff0fbb
Mestre, Rafael
33721a01-ab1a-4f71-8b0e-abef8afc92f3
Kalil, María
24b8f395-cc18-4b4a-b756-c7c2e26539ef
Gorroñogoitia, Izar
289acf8e-9c1e-4b9f-8725-167453b07d60
Zaldua, Ane Miren
1be32b83-722c-4882-93a4-e8099b565298
Sanchez, Samuel
6446b512-3b7d-43c9-904d-b0269eceff48
Reyes, Laura Izquierdo
8d930683-b0ea-4975-b0b2-0de58e541584
Fernández‐Santos, María Eugenia
9a63e398-3fa3-4479-b46e-821745a2e7a2
Prosper, Felipe
0b62f4fd-2bb2-4acb-ba05-6c6cb5dd713a
Montserrat, Nuria
8309b481-a862-46e2-ad61-47e17e4819e1

Garreta, Elena, Moya‐Rull, Daniel, Marco, Andrés, Amato, Gaia, Ullate‐Agote, Asier, Tarantino, Carolina, Gallo, Maria, Esporrín‐Ubieto, David, Centeno, Alberto, Vilas‐Zornoza, Amaia, Mestre, Rafael, Kalil, María, Gorroñogoitia, Izar, Zaldua, Ane Miren, Sanchez, Samuel, Reyes, Laura Izquierdo, Fernández‐Santos, María Eugenia, Prosper, Felipe and Montserrat, Nuria (2024) Natural hydrogels support kidney organoid generation and promote in vitro angiogenesis. Advanced Materials, 36 (34), [2400306]. (doi:10.1002/adma.202400306).

Record type: Article

Abstract

To date, strategies aiming to modulate cell to extracellular matrix (ECM) interactions during organoid derivation remain largely unexplored. Here renal decellularized ECM (dECM) hydrogels are fabricated from porcine and human renal cortex as biomaterials to enrich cell‐to‐ECM crosstalk during the onset of kidney organoid differentiation from human pluripotent stem cells (hPSCs). Renal dECM‐derived hydrogels are used in combination with hPSC‐derived renal progenitor cells to define new approaches for 2D and 3D kidney organoid differentiation, demonstrating that in the presence of these biomaterials the resulting kidney organoids exhibit renal differentiation features and the formation of an endogenous vascular component. Based on these observations, a new method to produce kidney organoids with vascular‐like structures is achieved through the assembly of hPSC‐derived endothelial‐like organoids with kidney organoids in 3D. Major readouts of kidney differentiation and renal cell morphology are assessed exploiting these culture platforms as new models of nephrogenesis. Overall, this work shows that exploiting cell‐to‐ECM interactions during the onset of kidney differentiation from hPSCs facilitates and optimizes current approaches for kidney organoid derivation thereby increasing the utility of these unique cell culture platforms for personalized medicine.

Text
Advanced Materials - 2024 - Garreta - Natural Hydrogels Support Kidney Organoid Generation and Promote In Vitro - Version of Record
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Accepted/In Press date: 19 May 2024
e-pub ahead of print date: 12 June 2024
Published date: 21 August 2024
Keywords: assembloids, extracellular matrix-derived hydrogels, human pluripotent stem cells, kidney organoids, vascularization
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Identifiers

Local EPrints ID: 493093
URI: http://eprints.soton.ac.uk/id/eprint/493093
DOI: doi:10.1002/adma.202400306
ISSN: 1521-4095
PURE UUID: 0818795a-8c84-4eb5-b648-cd37b440cf99
ORCID for Rafael Mestre: ORCID iD orcid.org/0000-0002-2460-4234

Catalogue record

Date deposited: 22 Aug 2024 17:05
Last modified: 23 Aug 2024 02:01

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Contributors

Author: Elena Garreta
Author: Daniel Moya‐Rull
Author: Andrés Marco
Author: Gaia Amato
Author: Asier Ullate‐Agote
Author: Carolina Tarantino
Author: Maria Gallo
Author: David Esporrín‐Ubieto
Author: Alberto Centeno
Author: Amaia Vilas‐Zornoza
Author: Rafael Mestre ORCID iD
Author: María Kalil
Author: Izar Gorroñogoitia
Author: Ane Miren Zaldua
Author: Samuel Sanchez
Author: Laura Izquierdo Reyes
Author: María Eugenia Fernández‐Santos
Author: Felipe Prosper
Author: Nuria Montserrat

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