FAT1 mutations cause a glomerulotubular nephropathy

Steroid-resistant nephrotic syndrome (SRNS) causes 15% of chronic kidney disease (CKD). Here we show that recessive mutations in FAT1 cause a distinct renal disease entity in four families with a combination of SRNS, tubular ectasia, haematuria and facultative neurological involvement. Loss of FAT1...

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Autores principales: Gee, Heon Yung, Sadowski, Carolin E., Aggarwal, Pardeep K., Porath, Jonathan D., Yakulov, Toma A., Schueler, Markus, Lovric, Svjetlana, Ashraf, Shazia, Braun, Daniela A., Halbritter, Jan, Fang, Humphrey, Airik, Rannar, Vega-Warner, Virginia, Cho, Kyeong Jee, Chan, Timothy A., Morris, Luc G. T., ffrench-Constant, Charles, Allen, Nicholas, McNeill, Helen, Büscher, Rainer, Kyrieleis, Henriette, Wallot, Michael, Gaspert, Ariana, Kistler, Thomas, Milford, David V., Saleem, Moin A., Keng, Wee Teik, Alexander, Stephen I., Valentini, Rudolph P., Licht, Christoph, Teh, Jun C., Bogdanovic, Radovan, Koziell, Ania, Bierzynska, Agnieszka, Soliman, Neveen A., Otto, Edgar A., Lifton, Richard P., Holzman, Lawrence B., Sibinga, Nicholas E. S., Walz, Gerd, Tufro, Alda, Hildebrandt, Friedhelm
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2016
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4770090/
https://www.ncbi.nlm.nih.gov/pubmed/26905694
http://dx.doi.org/10.1038/ncomms10822
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author Gee, Heon Yung
Sadowski, Carolin E.
Aggarwal, Pardeep K.
Porath, Jonathan D.
Yakulov, Toma A.
Schueler, Markus
Lovric, Svjetlana
Ashraf, Shazia
Braun, Daniela A.
Halbritter, Jan
Fang, Humphrey
Airik, Rannar
Vega-Warner, Virginia
Cho, Kyeong Jee
Chan, Timothy A.
Morris, Luc G. T.
ffrench-Constant, Charles
Allen, Nicholas
McNeill, Helen
Büscher, Rainer
Kyrieleis, Henriette
Wallot, Michael
Gaspert, Ariana
Kistler, Thomas
Milford, David V.
Saleem, Moin A.
Keng, Wee Teik
Alexander, Stephen I.
Valentini, Rudolph P.
Licht, Christoph
Teh, Jun C.
Bogdanovic, Radovan
Koziell, Ania
Bierzynska, Agnieszka
Soliman, Neveen A.
Otto, Edgar A.
Lifton, Richard P.
Holzman, Lawrence B.
Sibinga, Nicholas E. S.
Walz, Gerd
Tufro, Alda
Hildebrandt, Friedhelm
author_facet Gee, Heon Yung
Sadowski, Carolin E.
Aggarwal, Pardeep K.
Porath, Jonathan D.
Yakulov, Toma A.
Schueler, Markus
Lovric, Svjetlana
Ashraf, Shazia
Braun, Daniela A.
Halbritter, Jan
Fang, Humphrey
Airik, Rannar
Vega-Warner, Virginia
Cho, Kyeong Jee
Chan, Timothy A.
Morris, Luc G. T.
ffrench-Constant, Charles
Allen, Nicholas
McNeill, Helen
Büscher, Rainer
Kyrieleis, Henriette
Wallot, Michael
Gaspert, Ariana
Kistler, Thomas
Milford, David V.
Saleem, Moin A.
Keng, Wee Teik
Alexander, Stephen I.
Valentini, Rudolph P.
Licht, Christoph
Teh, Jun C.
Bogdanovic, Radovan
Koziell, Ania
Bierzynska, Agnieszka
Soliman, Neveen A.
Otto, Edgar A.
Lifton, Richard P.
Holzman, Lawrence B.
Sibinga, Nicholas E. S.
Walz, Gerd
Tufro, Alda
Hildebrandt, Friedhelm
author_sort Gee, Heon Yung
collection PubMed
description Steroid-resistant nephrotic syndrome (SRNS) causes 15% of chronic kidney disease (CKD). Here we show that recessive mutations in FAT1 cause a distinct renal disease entity in four families with a combination of SRNS, tubular ectasia, haematuria and facultative neurological involvement. Loss of FAT1 results in decreased cell adhesion and migration in fibroblasts and podocytes and the decreased migration is partially reversed by a RAC1/CDC42 activator. Podocyte-specific deletion of Fat1 in mice induces abnormal glomerular filtration barrier development, leading to podocyte foot process effacement. Knockdown of Fat1 in renal tubular cells reduces migration, decreases active RAC1 and CDC42, and induces defects in lumen formation. Knockdown of fat1 in zebrafish causes pronephric cysts, which is partially rescued by RAC1/CDC42 activators, confirming a role of the two small GTPases in the pathogenesis. These findings provide new insights into the pathogenesis of SRNS and tubulopathy, linking FAT1 and RAC1/CDC42 to podocyte and tubular cell function.
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spelling pubmed-47700902016-03-04 FAT1 mutations cause a glomerulotubular nephropathy Gee, Heon Yung Sadowski, Carolin E. Aggarwal, Pardeep K. Porath, Jonathan D. Yakulov, Toma A. Schueler, Markus Lovric, Svjetlana Ashraf, Shazia Braun, Daniela A. Halbritter, Jan Fang, Humphrey Airik, Rannar Vega-Warner, Virginia Cho, Kyeong Jee Chan, Timothy A. Morris, Luc G. T. ffrench-Constant, Charles Allen, Nicholas McNeill, Helen Büscher, Rainer Kyrieleis, Henriette Wallot, Michael Gaspert, Ariana Kistler, Thomas Milford, David V. Saleem, Moin A. Keng, Wee Teik Alexander, Stephen I. Valentini, Rudolph P. Licht, Christoph Teh, Jun C. Bogdanovic, Radovan Koziell, Ania Bierzynska, Agnieszka Soliman, Neveen A. Otto, Edgar A. Lifton, Richard P. Holzman, Lawrence B. Sibinga, Nicholas E. S. Walz, Gerd Tufro, Alda Hildebrandt, Friedhelm Nat Commun Article Steroid-resistant nephrotic syndrome (SRNS) causes 15% of chronic kidney disease (CKD). Here we show that recessive mutations in FAT1 cause a distinct renal disease entity in four families with a combination of SRNS, tubular ectasia, haematuria and facultative neurological involvement. Loss of FAT1 results in decreased cell adhesion and migration in fibroblasts and podocytes and the decreased migration is partially reversed by a RAC1/CDC42 activator. Podocyte-specific deletion of Fat1 in mice induces abnormal glomerular filtration barrier development, leading to podocyte foot process effacement. Knockdown of Fat1 in renal tubular cells reduces migration, decreases active RAC1 and CDC42, and induces defects in lumen formation. Knockdown of fat1 in zebrafish causes pronephric cysts, which is partially rescued by RAC1/CDC42 activators, confirming a role of the two small GTPases in the pathogenesis. These findings provide new insights into the pathogenesis of SRNS and tubulopathy, linking FAT1 and RAC1/CDC42 to podocyte and tubular cell function. Nature Publishing Group 2016-02-24 /pmc/articles/PMC4770090/ /pubmed/26905694 http://dx.doi.org/10.1038/ncomms10822 Text en Copyright © 2016, Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved. http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article's Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Article
Gee, Heon Yung
Sadowski, Carolin E.
Aggarwal, Pardeep K.
Porath, Jonathan D.
Yakulov, Toma A.
Schueler, Markus
Lovric, Svjetlana
Ashraf, Shazia
Braun, Daniela A.
Halbritter, Jan
Fang, Humphrey
Airik, Rannar
Vega-Warner, Virginia
Cho, Kyeong Jee
Chan, Timothy A.
Morris, Luc G. T.
ffrench-Constant, Charles
Allen, Nicholas
McNeill, Helen
Büscher, Rainer
Kyrieleis, Henriette
Wallot, Michael
Gaspert, Ariana
Kistler, Thomas
Milford, David V.
Saleem, Moin A.
Keng, Wee Teik
Alexander, Stephen I.
Valentini, Rudolph P.
Licht, Christoph
Teh, Jun C.
Bogdanovic, Radovan
Koziell, Ania
Bierzynska, Agnieszka
Soliman, Neveen A.
Otto, Edgar A.
Lifton, Richard P.
Holzman, Lawrence B.
Sibinga, Nicholas E. S.
Walz, Gerd
Tufro, Alda
Hildebrandt, Friedhelm
FAT1 mutations cause a glomerulotubular nephropathy
title FAT1 mutations cause a glomerulotubular nephropathy
title_full FAT1 mutations cause a glomerulotubular nephropathy
title_fullStr FAT1 mutations cause a glomerulotubular nephropathy
title_full_unstemmed FAT1 mutations cause a glomerulotubular nephropathy
title_short FAT1 mutations cause a glomerulotubular nephropathy
title_sort fat1 mutations cause a glomerulotubular nephropathy
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4770090/
https://www.ncbi.nlm.nih.gov/pubmed/26905694
http://dx.doi.org/10.1038/ncomms10822
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