Molecular fingerprinting of the podocyte reveals novel gene and protein regulatory networks

Melanie Boerries; Florian Grahammer; Sven Eiselein; Moritz Buck; Charlotte Meyer; Markus Goedel; Wibke Bechtel; Stefan Zschiedrich; Dietmar Pfeifer; Denis Laloë; Christelle Arrondel; Sara Gonçalves; Marcus Krüger; Scott J Harvey; Hauke Busch; Joern Dengjel; Tobias B Huber

doi:10.1038/ki.2012.487

Molecular fingerprinting of the podocyte reveals novel gene and protein regulatory networks

Melanie Boerries, Florian Grahammer, Sven Eiselein, Moritz Buck, Charlotte Meyer, Markus Goedel, Wibke Bechtel, Stefan Zschiedrich, Dietmar Pfeifer, Denis Laloë, Christelle Arrondel, Sara Gonçalves, Marcus Krüger, Scott J Harvey, Hauke Busch, Joern Dengjel, Tobias B Huber

Klinik für Dermatologie, Allergologie und Venerologie

Albert-Ludwigs-Universität Freiburg

129 Zitate (Scopus)

Abstract

A thorough characterization of the transcriptome and proteome of endogenous podocytes has been hampered by low cell yields during isolation. Here we describe a double fluorescent reporter mouse model combined with an optimized bead perfusion protocol and efficient single cell dissociation to yield more than 500,000 podocytes per mouse allowing for global, unbiased downstream applications. Combining mRNA and miRNA transcriptional profiling with quantitative proteomic analyses revealed programs of highly specific gene regulation tightly controlling cytoskeleton, cell differentiation, endosomal transport, and peroxisome function in podocytes. Strikingly, the analyses further predict that these podocyte-specific gene regulatory networks are accompanied by alternative splicing of respective genes. Thus, our 'omics' approach will facilitate the discovery and integration of novel gene, protein, and organelle regulatory networks that deepen our systematic understanding of podocyte biology.

Originalsprache	Englisch
Zeitschrift	Kidney International
Jahrgang	83
Ausgabenummer	6
Seiten (von - bis)	1052-64
Seitenumfang	13
ISSN	0085-2538
DOIs	https://doi.org/10.1038/ki.2012.487
Publikationsstatus	Veröffentlicht - 06.2013

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10.1038/ki.2012.487

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Boerries, M., Grahammer, F., Eiselein, S., Buck, M., Meyer, C., Goedel, M., Bechtel, W., Zschiedrich, S., Pfeifer, D., Laloë, D., Arrondel, C., Gonçalves, S., Krüger, M., Harvey, S. J., Busch, H., Dengjel, J., & Huber, T. B. (2013). Molecular fingerprinting of the podocyte reveals novel gene and protein regulatory networks. Kidney International, 83(6), 1052-64. https://doi.org/10.1038/ki.2012.487

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title = "Molecular fingerprinting of the podocyte reveals novel gene and protein regulatory networks",

abstract = "A thorough characterization of the transcriptome and proteome of endogenous podocytes has been hampered by low cell yields during isolation. Here we describe a double fluorescent reporter mouse model combined with an optimized bead perfusion protocol and efficient single cell dissociation to yield more than 500,000 podocytes per mouse allowing for global, unbiased downstream applications. Combining mRNA and miRNA transcriptional profiling with quantitative proteomic analyses revealed programs of highly specific gene regulation tightly controlling cytoskeleton, cell differentiation, endosomal transport, and peroxisome function in podocytes. Strikingly, the analyses further predict that these podocyte-specific gene regulatory networks are accompanied by alternative splicing of respective genes. Thus, our 'omics' approach will facilitate the discovery and integration of novel gene, protein, and organelle regulatory networks that deepen our systematic understanding of podocyte biology.",

author = "Melanie Boerries and Florian Grahammer and Sven Eiselein and Moritz Buck and Charlotte Meyer and Markus Goedel and Wibke Bechtel and Stefan Zschiedrich and Dietmar Pfeifer and Denis Lalo{\"e} and Christelle Arrondel and Sara Gon{\c c}alves and Marcus Kr{\"u}ger and Harvey, \{Scott J\} and Hauke Busch and Joern Dengjel and Huber, \{Tobias B\}",

year = "2013",

month = jun,

doi = "10.1038/ki.2012.487",

language = "English",

volume = "83",

pages = "1052--64",

journal = "Kidney International",

issn = "0085-2538",

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Boerries, M, Grahammer, F, Eiselein, S, Buck, M, Meyer, C, Goedel, M, Bechtel, W, Zschiedrich, S, Pfeifer, D, Laloë, D, Arrondel, C, Gonçalves, S, Krüger, M, Harvey, SJ, Busch, H, Dengjel, J & Huber, TB 2013, 'Molecular fingerprinting of the podocyte reveals novel gene and protein regulatory networks', Kidney International, Jg. 83, Nr. 6, S. 1052-64. https://doi.org/10.1038/ki.2012.487

TY - JOUR

T1 - Molecular fingerprinting of the podocyte reveals novel gene and protein regulatory networks

AU - Boerries, Melanie

AU - Grahammer, Florian

AU - Eiselein, Sven

AU - Buck, Moritz

AU - Meyer, Charlotte

AU - Goedel, Markus

AU - Bechtel, Wibke

AU - Zschiedrich, Stefan

AU - Pfeifer, Dietmar

AU - Laloë, Denis

AU - Arrondel, Christelle

AU - Gonçalves, Sara

AU - Krüger, Marcus

AU - Harvey, Scott J

AU - Busch, Hauke

AU - Dengjel, Joern

AU - Huber, Tobias B

PY - 2013/6

Y1 - 2013/6

N2 - A thorough characterization of the transcriptome and proteome of endogenous podocytes has been hampered by low cell yields during isolation. Here we describe a double fluorescent reporter mouse model combined with an optimized bead perfusion protocol and efficient single cell dissociation to yield more than 500,000 podocytes per mouse allowing for global, unbiased downstream applications. Combining mRNA and miRNA transcriptional profiling with quantitative proteomic analyses revealed programs of highly specific gene regulation tightly controlling cytoskeleton, cell differentiation, endosomal transport, and peroxisome function in podocytes. Strikingly, the analyses further predict that these podocyte-specific gene regulatory networks are accompanied by alternative splicing of respective genes. Thus, our 'omics' approach will facilitate the discovery and integration of novel gene, protein, and organelle regulatory networks that deepen our systematic understanding of podocyte biology.

AB - A thorough characterization of the transcriptome and proteome of endogenous podocytes has been hampered by low cell yields during isolation. Here we describe a double fluorescent reporter mouse model combined with an optimized bead perfusion protocol and efficient single cell dissociation to yield more than 500,000 podocytes per mouse allowing for global, unbiased downstream applications. Combining mRNA and miRNA transcriptional profiling with quantitative proteomic analyses revealed programs of highly specific gene regulation tightly controlling cytoskeleton, cell differentiation, endosomal transport, and peroxisome function in podocytes. Strikingly, the analyses further predict that these podocyte-specific gene regulatory networks are accompanied by alternative splicing of respective genes. Thus, our 'omics' approach will facilitate the discovery and integration of novel gene, protein, and organelle regulatory networks that deepen our systematic understanding of podocyte biology.

U2 - 10.1038/ki.2012.487

DO - 10.1038/ki.2012.487

M3 - Journal articles

C2 - 23364521

SN - 0085-2538

VL - 83

SP - 1052

EP - 1064

JO - Kidney International

JF - Kidney International

IS - 6

ER -

Molecular fingerprinting of the podocyte reveals novel gene and protein regulatory networks

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