A Multi-layered Quantitative In Vivo Expression Atlas of the Podocyte Unravels Kidney Disease Candidate Genes

Damage to and loss of glomerular podocytes has been identified as the culprit lesion in progressive kidney diseases. Here, we combine mass spectrometry-based proteomics with mRNA sequencing, bioinformatics, and hypothesis-driven studies to provide a comprehensive and quantitative map of mammalian po...

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Autores principales: Rinschen, Markus M., Gödel, Markus, Grahammer, Florian, Zschiedrich, Stefan, Helmstädter, Martin, Kretz, Oliver, Zarei, Mostafa, Braun, Daniela A., Dittrich, Sebastian, Pahmeyer, Caroline, Schroder, Patricia, Teetzen, Carolin, Gee, HeonYung, Daouk, Ghaleb, Pohl, Martin, Kuhn, Elisa, Schermer, Bernhard, Küttner, Victoria, Boerries, Melanie, Busch, Hauke, Schiffer, Mario, Bergmann, Carsten, Krüger, Marcus, Hildebrandt, Friedhelm, Dengjel, Joern, Benzing, Thomas, Huber, Tobias B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5986710/
https://www.ncbi.nlm.nih.gov/pubmed/29791858
http://dx.doi.org/10.1016/j.celrep.2018.04.059
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author Rinschen, Markus M.
Gödel, Markus
Grahammer, Florian
Zschiedrich, Stefan
Helmstädter, Martin
Kretz, Oliver
Zarei, Mostafa
Braun, Daniela A.
Dittrich, Sebastian
Pahmeyer, Caroline
Schroder, Patricia
Teetzen, Carolin
Gee, HeonYung
Daouk, Ghaleb
Pohl, Martin
Kuhn, Elisa
Schermer, Bernhard
Küttner, Victoria
Boerries, Melanie
Busch, Hauke
Schiffer, Mario
Bergmann, Carsten
Krüger, Marcus
Hildebrandt, Friedhelm
Dengjel, Joern
Benzing, Thomas
Huber, Tobias B.
author_facet Rinschen, Markus M.
Gödel, Markus
Grahammer, Florian
Zschiedrich, Stefan
Helmstädter, Martin
Kretz, Oliver
Zarei, Mostafa
Braun, Daniela A.
Dittrich, Sebastian
Pahmeyer, Caroline
Schroder, Patricia
Teetzen, Carolin
Gee, HeonYung
Daouk, Ghaleb
Pohl, Martin
Kuhn, Elisa
Schermer, Bernhard
Küttner, Victoria
Boerries, Melanie
Busch, Hauke
Schiffer, Mario
Bergmann, Carsten
Krüger, Marcus
Hildebrandt, Friedhelm
Dengjel, Joern
Benzing, Thomas
Huber, Tobias B.
author_sort Rinschen, Markus M.
collection PubMed
description Damage to and loss of glomerular podocytes has been identified as the culprit lesion in progressive kidney diseases. Here, we combine mass spectrometry-based proteomics with mRNA sequencing, bioinformatics, and hypothesis-driven studies to provide a comprehensive and quantitative map of mammalian podocytes that identifies unanticipated signaling pathways. Comparison of the in vivo datasets with proteomics data from podocyte cell cultures showed a limited value of available cell culture models. Moreover, in vivo stable isotope labeling by amino acids uncovered surprisingly rapid synthesis of mitochondrial proteins under steady-state conditions that was perturbed under autophagy-deficient, disease-susceptible conditions. Integration of acquired omics dimensions suggested FARP1 as a candidate essential for podocyte function, which could be substantiated by genetic analysis in humans and knockdown experiments in zebrafish. This work exemplifies how the integration of multi-omics datasets can identify a framework of cell-type-specific features relevant for organ health and disease.
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spelling pubmed-59867102018-06-05 A Multi-layered Quantitative In Vivo Expression Atlas of the Podocyte Unravels Kidney Disease Candidate Genes Rinschen, Markus M. Gödel, Markus Grahammer, Florian Zschiedrich, Stefan Helmstädter, Martin Kretz, Oliver Zarei, Mostafa Braun, Daniela A. Dittrich, Sebastian Pahmeyer, Caroline Schroder, Patricia Teetzen, Carolin Gee, HeonYung Daouk, Ghaleb Pohl, Martin Kuhn, Elisa Schermer, Bernhard Küttner, Victoria Boerries, Melanie Busch, Hauke Schiffer, Mario Bergmann, Carsten Krüger, Marcus Hildebrandt, Friedhelm Dengjel, Joern Benzing, Thomas Huber, Tobias B. Cell Rep Article Damage to and loss of glomerular podocytes has been identified as the culprit lesion in progressive kidney diseases. Here, we combine mass spectrometry-based proteomics with mRNA sequencing, bioinformatics, and hypothesis-driven studies to provide a comprehensive and quantitative map of mammalian podocytes that identifies unanticipated signaling pathways. Comparison of the in vivo datasets with proteomics data from podocyte cell cultures showed a limited value of available cell culture models. Moreover, in vivo stable isotope labeling by amino acids uncovered surprisingly rapid synthesis of mitochondrial proteins under steady-state conditions that was perturbed under autophagy-deficient, disease-susceptible conditions. Integration of acquired omics dimensions suggested FARP1 as a candidate essential for podocyte function, which could be substantiated by genetic analysis in humans and knockdown experiments in zebrafish. This work exemplifies how the integration of multi-omics datasets can identify a framework of cell-type-specific features relevant for organ health and disease. Cell Press 2018-05-22 /pmc/articles/PMC5986710/ /pubmed/29791858 http://dx.doi.org/10.1016/j.celrep.2018.04.059 Text en © 2018 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Rinschen, Markus M.
Gödel, Markus
Grahammer, Florian
Zschiedrich, Stefan
Helmstädter, Martin
Kretz, Oliver
Zarei, Mostafa
Braun, Daniela A.
Dittrich, Sebastian
Pahmeyer, Caroline
Schroder, Patricia
Teetzen, Carolin
Gee, HeonYung
Daouk, Ghaleb
Pohl, Martin
Kuhn, Elisa
Schermer, Bernhard
Küttner, Victoria
Boerries, Melanie
Busch, Hauke
Schiffer, Mario
Bergmann, Carsten
Krüger, Marcus
Hildebrandt, Friedhelm
Dengjel, Joern
Benzing, Thomas
Huber, Tobias B.
A Multi-layered Quantitative In Vivo Expression Atlas of the Podocyte Unravels Kidney Disease Candidate Genes
title A Multi-layered Quantitative In Vivo Expression Atlas of the Podocyte Unravels Kidney Disease Candidate Genes
title_full A Multi-layered Quantitative In Vivo Expression Atlas of the Podocyte Unravels Kidney Disease Candidate Genes
title_fullStr A Multi-layered Quantitative In Vivo Expression Atlas of the Podocyte Unravels Kidney Disease Candidate Genes
title_full_unstemmed A Multi-layered Quantitative In Vivo Expression Atlas of the Podocyte Unravels Kidney Disease Candidate Genes
title_short A Multi-layered Quantitative In Vivo Expression Atlas of the Podocyte Unravels Kidney Disease Candidate Genes
title_sort multi-layered quantitative in vivo expression atlas of the podocyte unravels kidney disease candidate genes
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5986710/
https://www.ncbi.nlm.nih.gov/pubmed/29791858
http://dx.doi.org/10.1016/j.celrep.2018.04.059
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