An integrated organoid omics map extends modeling potential of kidney disease

Kidney organoids are a promising model to study kidney disease, but their use is constrained by limited knowledge of their functional protein expression profile. Here, we define the organoid proteome and transcriptome trajectories over culture duration and upon exposure to TNFα, a cytokine stressor....

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Autores principales: Lassé, Moritz, El Saghir, Jamal, Berthier, Celine C., Eddy, Sean, Fischer, Matthew, Laufer, Sandra D., Kylies, Dominik, Hutzfeldt, Arvid, Bonin, Léna Lydie, Dumoulin, Bernhard, Menon, Rajasree, Vega-Warner, Virginia, Eichinger, Felix, Alakwaa, Fadhl, Fermin, Damian, Billing, Anja M., Minakawa, Akihiro, McCown, Phillip J., Rose, Michael P., Godfrey, Bradley, Meister, Elisabeth, Wiech, Thorsten, Noriega, Mercedes, Chrysopoulou, Maria, Brandts, Paul, Ju, Wenjun, Reinhard, Linda, Hoxha, Elion, Grahammer, Florian, Lindenmeyer, Maja T., Huber, Tobias B., Schlüter, Hartmut, Thiel, Steffen, Mariani, Laura H., Puelles, Victor G., Braun, Fabian, Kretzler, Matthias, Demir, Fatih, Harder, Jennifer L., Rinschen, Markus M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10425428/
https://www.ncbi.nlm.nih.gov/pubmed/37580326
http://dx.doi.org/10.1038/s41467-023-39740-7
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author Lassé, Moritz
El Saghir, Jamal
Berthier, Celine C.
Eddy, Sean
Fischer, Matthew
Laufer, Sandra D.
Kylies, Dominik
Hutzfeldt, Arvid
Bonin, Léna Lydie
Dumoulin, Bernhard
Menon, Rajasree
Vega-Warner, Virginia
Eichinger, Felix
Alakwaa, Fadhl
Fermin, Damian
Billing, Anja M.
Minakawa, Akihiro
McCown, Phillip J.
Rose, Michael P.
Godfrey, Bradley
Meister, Elisabeth
Wiech, Thorsten
Noriega, Mercedes
Chrysopoulou, Maria
Brandts, Paul
Ju, Wenjun
Reinhard, Linda
Hoxha, Elion
Grahammer, Florian
Lindenmeyer, Maja T.
Huber, Tobias B.
Schlüter, Hartmut
Thiel, Steffen
Mariani, Laura H.
Puelles, Victor G.
Braun, Fabian
Kretzler, Matthias
Demir, Fatih
Harder, Jennifer L.
Rinschen, Markus M.
author_facet Lassé, Moritz
El Saghir, Jamal
Berthier, Celine C.
Eddy, Sean
Fischer, Matthew
Laufer, Sandra D.
Kylies, Dominik
Hutzfeldt, Arvid
Bonin, Léna Lydie
Dumoulin, Bernhard
Menon, Rajasree
Vega-Warner, Virginia
Eichinger, Felix
Alakwaa, Fadhl
Fermin, Damian
Billing, Anja M.
Minakawa, Akihiro
McCown, Phillip J.
Rose, Michael P.
Godfrey, Bradley
Meister, Elisabeth
Wiech, Thorsten
Noriega, Mercedes
Chrysopoulou, Maria
Brandts, Paul
Ju, Wenjun
Reinhard, Linda
Hoxha, Elion
Grahammer, Florian
Lindenmeyer, Maja T.
Huber, Tobias B.
Schlüter, Hartmut
Thiel, Steffen
Mariani, Laura H.
Puelles, Victor G.
Braun, Fabian
Kretzler, Matthias
Demir, Fatih
Harder, Jennifer L.
Rinschen, Markus M.
author_sort Lassé, Moritz
collection PubMed
description Kidney organoids are a promising model to study kidney disease, but their use is constrained by limited knowledge of their functional protein expression profile. Here, we define the organoid proteome and transcriptome trajectories over culture duration and upon exposure to TNFα, a cytokine stressor. Older organoids increase deposition of extracellular matrix but decrease expression of glomerular proteins. Single cell transcriptome integration reveals that most proteome changes localize to podocytes, tubular and stromal cells. TNFα treatment of organoids results in 322 differentially expressed proteins, including cytokines and complement components. Transcript expression of these 322 proteins is significantly higher in individuals with poorer clinical outcomes in proteinuric kidney disease. Key TNFα-associated protein (C3 and VCAM1) expression is increased in both human tubular and organoid kidney cell populations, highlighting the potential for organoids to advance biomarker development. By integrating kidney organoid omic layers, incorporating a disease-relevant cytokine stressor and comparing with human data, we provide crucial evidence for the functional relevance of the kidney organoid model to human kidney disease.
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spelling pubmed-104254282023-08-16 An integrated organoid omics map extends modeling potential of kidney disease Lassé, Moritz El Saghir, Jamal Berthier, Celine C. Eddy, Sean Fischer, Matthew Laufer, Sandra D. Kylies, Dominik Hutzfeldt, Arvid Bonin, Léna Lydie Dumoulin, Bernhard Menon, Rajasree Vega-Warner, Virginia Eichinger, Felix Alakwaa, Fadhl Fermin, Damian Billing, Anja M. Minakawa, Akihiro McCown, Phillip J. Rose, Michael P. Godfrey, Bradley Meister, Elisabeth Wiech, Thorsten Noriega, Mercedes Chrysopoulou, Maria Brandts, Paul Ju, Wenjun Reinhard, Linda Hoxha, Elion Grahammer, Florian Lindenmeyer, Maja T. Huber, Tobias B. Schlüter, Hartmut Thiel, Steffen Mariani, Laura H. Puelles, Victor G. Braun, Fabian Kretzler, Matthias Demir, Fatih Harder, Jennifer L. Rinschen, Markus M. Nat Commun Article Kidney organoids are a promising model to study kidney disease, but their use is constrained by limited knowledge of their functional protein expression profile. Here, we define the organoid proteome and transcriptome trajectories over culture duration and upon exposure to TNFα, a cytokine stressor. Older organoids increase deposition of extracellular matrix but decrease expression of glomerular proteins. Single cell transcriptome integration reveals that most proteome changes localize to podocytes, tubular and stromal cells. TNFα treatment of organoids results in 322 differentially expressed proteins, including cytokines and complement components. Transcript expression of these 322 proteins is significantly higher in individuals with poorer clinical outcomes in proteinuric kidney disease. Key TNFα-associated protein (C3 and VCAM1) expression is increased in both human tubular and organoid kidney cell populations, highlighting the potential for organoids to advance biomarker development. By integrating kidney organoid omic layers, incorporating a disease-relevant cytokine stressor and comparing with human data, we provide crucial evidence for the functional relevance of the kidney organoid model to human kidney disease. Nature Publishing Group UK 2023-08-14 /pmc/articles/PMC10425428/ /pubmed/37580326 http://dx.doi.org/10.1038/s41467-023-39740-7 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Lassé, Moritz
El Saghir, Jamal
Berthier, Celine C.
Eddy, Sean
Fischer, Matthew
Laufer, Sandra D.
Kylies, Dominik
Hutzfeldt, Arvid
Bonin, Léna Lydie
Dumoulin, Bernhard
Menon, Rajasree
Vega-Warner, Virginia
Eichinger, Felix
Alakwaa, Fadhl
Fermin, Damian
Billing, Anja M.
Minakawa, Akihiro
McCown, Phillip J.
Rose, Michael P.
Godfrey, Bradley
Meister, Elisabeth
Wiech, Thorsten
Noriega, Mercedes
Chrysopoulou, Maria
Brandts, Paul
Ju, Wenjun
Reinhard, Linda
Hoxha, Elion
Grahammer, Florian
Lindenmeyer, Maja T.
Huber, Tobias B.
Schlüter, Hartmut
Thiel, Steffen
Mariani, Laura H.
Puelles, Victor G.
Braun, Fabian
Kretzler, Matthias
Demir, Fatih
Harder, Jennifer L.
Rinschen, Markus M.
An integrated organoid omics map extends modeling potential of kidney disease
title An integrated organoid omics map extends modeling potential of kidney disease
title_full An integrated organoid omics map extends modeling potential of kidney disease
title_fullStr An integrated organoid omics map extends modeling potential of kidney disease
title_full_unstemmed An integrated organoid omics map extends modeling potential of kidney disease
title_short An integrated organoid omics map extends modeling potential of kidney disease
title_sort integrated organoid omics map extends modeling potential of kidney disease
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10425428/
https://www.ncbi.nlm.nih.gov/pubmed/37580326
http://dx.doi.org/10.1038/s41467-023-39740-7
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