Cargando…
Mutations in six nephrosis genes delineate a pathogenic pathway amenable to treatment
No efficient treatment exists for nephrotic syndrome (NS), a frequent cause of chronic kidney disease. Here we show mutations in six different genes (MAGI2, TNS2, DLC1, CDK20, ITSN1, ITSN2) as causing NS in 17 families with partially treatment-sensitive NS (pTSNS). These proteins interact and we del...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Nature Publishing Group UK
2018
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5958119/ https://www.ncbi.nlm.nih.gov/pubmed/29773874 http://dx.doi.org/10.1038/s41467-018-04193-w |
| _version_ | 1783324184302059520 |
|---|---|
| author | Ashraf, Shazia Kudo, Hiroki Rao, Jia Kikuchi, Atsuo Widmeier, Eugen Lawson, Jennifer A. Tan, Weizhen Hermle, Tobias Warejko, Jillian K. Shril, Shirlee Airik, Merlin Jobst-Schwan, Tilman Lovric, Svjetlana Braun, Daniela A. Gee, Heon Yung Schapiro, David Majmundar, Amar J. Sadowski, Carolin E. Pabst, Werner L. Daga, Ankana van der Ven, Amelie T. Schmidt, Johanna M. Low, Boon Chuan Gupta, Anjali Bansal Tripathi, Brajendra K. Wong, Jenny Campbell, Kirk Metcalfe, Kay Schanze, Denny Niihori, Tetsuya Kaito, Hiroshi Nozu, Kandai Tsukaguchi, Hiroyasu Tanaka, Ryojiro Hamahira, Kiyoshi Kobayashi, Yasuko Takizawa, Takumi Funayama, Ryo Nakayama, Keiko Aoki, Yoko Kumagai, Naonori Iijima, Kazumoto Fehrenbach, Henry Kari, Jameela A. El Desoky, Sherif Jalalah, Sawsan Bogdanovic, Radovan Stajić, Nataša Zappel, Hildegard Rakhmetova, Assel Wassmer, Sharon-Rose Jungraithmayr, Therese Strehlau, Juergen Kumar, Aravind Selvin Bagga, Arvind Soliman, Neveen A. Mane, Shrikant M. Kaufman, Lewis Lowy, Douglas R. Jairajpuri, Mohamad A. Lifton, Richard P. Pei, York Zenker, Martin Kure, Shigeo Hildebrandt, Friedhelm |
| author_facet | Ashraf, Shazia Kudo, Hiroki Rao, Jia Kikuchi, Atsuo Widmeier, Eugen Lawson, Jennifer A. Tan, Weizhen Hermle, Tobias Warejko, Jillian K. Shril, Shirlee Airik, Merlin Jobst-Schwan, Tilman Lovric, Svjetlana Braun, Daniela A. Gee, Heon Yung Schapiro, David Majmundar, Amar J. Sadowski, Carolin E. Pabst, Werner L. Daga, Ankana van der Ven, Amelie T. Schmidt, Johanna M. Low, Boon Chuan Gupta, Anjali Bansal Tripathi, Brajendra K. Wong, Jenny Campbell, Kirk Metcalfe, Kay Schanze, Denny Niihori, Tetsuya Kaito, Hiroshi Nozu, Kandai Tsukaguchi, Hiroyasu Tanaka, Ryojiro Hamahira, Kiyoshi Kobayashi, Yasuko Takizawa, Takumi Funayama, Ryo Nakayama, Keiko Aoki, Yoko Kumagai, Naonori Iijima, Kazumoto Fehrenbach, Henry Kari, Jameela A. El Desoky, Sherif Jalalah, Sawsan Bogdanovic, Radovan Stajić, Nataša Zappel, Hildegard Rakhmetova, Assel Wassmer, Sharon-Rose Jungraithmayr, Therese Strehlau, Juergen Kumar, Aravind Selvin Bagga, Arvind Soliman, Neveen A. Mane, Shrikant M. Kaufman, Lewis Lowy, Douglas R. Jairajpuri, Mohamad A. Lifton, Richard P. Pei, York Zenker, Martin Kure, Shigeo Hildebrandt, Friedhelm |
| author_sort | Ashraf, Shazia |
| collection | PubMed |
| description | No efficient treatment exists for nephrotic syndrome (NS), a frequent cause of chronic kidney disease. Here we show mutations in six different genes (MAGI2, TNS2, DLC1, CDK20, ITSN1, ITSN2) as causing NS in 17 families with partially treatment-sensitive NS (pTSNS). These proteins interact and we delineate their roles in Rho-like small GTPase (RLSG) activity, and demonstrate deficiency for mutants of pTSNS patients. We find that CDK20 regulates DLC1. Knockdown of MAGI2, DLC1, or CDK20 in cultured podocytes reduces migration rate. Treatment with dexamethasone abolishes RhoA activation by knockdown of DLC1 or CDK20 indicating that steroid treatment in patients with pTSNS and mutations in these genes is mediated by this RLSG module. Furthermore, we discover ITSN1 and ITSN2 as podocytic guanine nucleotide exchange factors for Cdc42. We generate Itsn2-L knockout mice that recapitulate the mild NS phenotype. We, thus, define a functional network of RhoA regulation, thereby revealing potential therapeutic targets. |
| format | Online Article Text |
| id | pubmed-5958119 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2018 |
| publisher | Nature Publishing Group UK |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-59581192018-05-21 Mutations in six nephrosis genes delineate a pathogenic pathway amenable to treatment Ashraf, Shazia Kudo, Hiroki Rao, Jia Kikuchi, Atsuo Widmeier, Eugen Lawson, Jennifer A. Tan, Weizhen Hermle, Tobias Warejko, Jillian K. Shril, Shirlee Airik, Merlin Jobst-Schwan, Tilman Lovric, Svjetlana Braun, Daniela A. Gee, Heon Yung Schapiro, David Majmundar, Amar J. Sadowski, Carolin E. Pabst, Werner L. Daga, Ankana van der Ven, Amelie T. Schmidt, Johanna M. Low, Boon Chuan Gupta, Anjali Bansal Tripathi, Brajendra K. Wong, Jenny Campbell, Kirk Metcalfe, Kay Schanze, Denny Niihori, Tetsuya Kaito, Hiroshi Nozu, Kandai Tsukaguchi, Hiroyasu Tanaka, Ryojiro Hamahira, Kiyoshi Kobayashi, Yasuko Takizawa, Takumi Funayama, Ryo Nakayama, Keiko Aoki, Yoko Kumagai, Naonori Iijima, Kazumoto Fehrenbach, Henry Kari, Jameela A. El Desoky, Sherif Jalalah, Sawsan Bogdanovic, Radovan Stajić, Nataša Zappel, Hildegard Rakhmetova, Assel Wassmer, Sharon-Rose Jungraithmayr, Therese Strehlau, Juergen Kumar, Aravind Selvin Bagga, Arvind Soliman, Neveen A. Mane, Shrikant M. Kaufman, Lewis Lowy, Douglas R. Jairajpuri, Mohamad A. Lifton, Richard P. Pei, York Zenker, Martin Kure, Shigeo Hildebrandt, Friedhelm Nat Commun Article No efficient treatment exists for nephrotic syndrome (NS), a frequent cause of chronic kidney disease. Here we show mutations in six different genes (MAGI2, TNS2, DLC1, CDK20, ITSN1, ITSN2) as causing NS in 17 families with partially treatment-sensitive NS (pTSNS). These proteins interact and we delineate their roles in Rho-like small GTPase (RLSG) activity, and demonstrate deficiency for mutants of pTSNS patients. We find that CDK20 regulates DLC1. Knockdown of MAGI2, DLC1, or CDK20 in cultured podocytes reduces migration rate. Treatment with dexamethasone abolishes RhoA activation by knockdown of DLC1 or CDK20 indicating that steroid treatment in patients with pTSNS and mutations in these genes is mediated by this RLSG module. Furthermore, we discover ITSN1 and ITSN2 as podocytic guanine nucleotide exchange factors for Cdc42. We generate Itsn2-L knockout mice that recapitulate the mild NS phenotype. We, thus, define a functional network of RhoA regulation, thereby revealing potential therapeutic targets. Nature Publishing Group UK 2018-05-17 /pmc/articles/PMC5958119/ /pubmed/29773874 http://dx.doi.org/10.1038/s41467-018-04193-w Text en © The Author(s) 2018 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 license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license 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 license, visit http://creativecommons.org/licenses/by/4.0/. |
| spellingShingle | Article Ashraf, Shazia Kudo, Hiroki Rao, Jia Kikuchi, Atsuo Widmeier, Eugen Lawson, Jennifer A. Tan, Weizhen Hermle, Tobias Warejko, Jillian K. Shril, Shirlee Airik, Merlin Jobst-Schwan, Tilman Lovric, Svjetlana Braun, Daniela A. Gee, Heon Yung Schapiro, David Majmundar, Amar J. Sadowski, Carolin E. Pabst, Werner L. Daga, Ankana van der Ven, Amelie T. Schmidt, Johanna M. Low, Boon Chuan Gupta, Anjali Bansal Tripathi, Brajendra K. Wong, Jenny Campbell, Kirk Metcalfe, Kay Schanze, Denny Niihori, Tetsuya Kaito, Hiroshi Nozu, Kandai Tsukaguchi, Hiroyasu Tanaka, Ryojiro Hamahira, Kiyoshi Kobayashi, Yasuko Takizawa, Takumi Funayama, Ryo Nakayama, Keiko Aoki, Yoko Kumagai, Naonori Iijima, Kazumoto Fehrenbach, Henry Kari, Jameela A. El Desoky, Sherif Jalalah, Sawsan Bogdanovic, Radovan Stajić, Nataša Zappel, Hildegard Rakhmetova, Assel Wassmer, Sharon-Rose Jungraithmayr, Therese Strehlau, Juergen Kumar, Aravind Selvin Bagga, Arvind Soliman, Neveen A. Mane, Shrikant M. Kaufman, Lewis Lowy, Douglas R. Jairajpuri, Mohamad A. Lifton, Richard P. Pei, York Zenker, Martin Kure, Shigeo Hildebrandt, Friedhelm Mutations in six nephrosis genes delineate a pathogenic pathway amenable to treatment |
| title | Mutations in six nephrosis genes delineate a pathogenic pathway amenable to treatment |
| title_full | Mutations in six nephrosis genes delineate a pathogenic pathway amenable to treatment |
| title_fullStr | Mutations in six nephrosis genes delineate a pathogenic pathway amenable to treatment |
| title_full_unstemmed | Mutations in six nephrosis genes delineate a pathogenic pathway amenable to treatment |
| title_short | Mutations in six nephrosis genes delineate a pathogenic pathway amenable to treatment |
| title_sort | mutations in six nephrosis genes delineate a pathogenic pathway amenable to treatment |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5958119/ https://www.ncbi.nlm.nih.gov/pubmed/29773874 http://dx.doi.org/10.1038/s41467-018-04193-w |
| work_keys_str_mv | AT ashrafshazia mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT kudohiroki mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT raojia mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT kikuchiatsuo mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT widmeiereugen mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT lawsonjennifera mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT tanweizhen mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT hermletobias mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT warejkojilliank mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT shrilshirlee mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT airikmerlin mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT jobstschwantilman mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT lovricsvjetlana mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT braundanielaa mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT geeheonyung mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT schapirodavid mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT majmundaramarj mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT sadowskicaroline mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT pabstwernerl mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT dagaankana mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT vandervenameliet mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT schmidtjohannam mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT lowboonchuan mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT guptaanjalibansal mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT tripathibrajendrak mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT wongjenny mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT campbellkirk mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT metcalfekay mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT schanzedenny mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT niihoritetsuya mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT kaitohiroshi mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT nozukandai mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT tsukaguchihiroyasu mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT tanakaryojiro mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT hamahirakiyoshi mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT kobayashiyasuko mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT takizawatakumi mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT funayamaryo mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT nakayamakeiko mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT aokiyoko mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT kumagainaonori mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT iijimakazumoto mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT fehrenbachhenry mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT karijameelaa mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT eldesokysherif mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT jalalahsawsan mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT bogdanovicradovan mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT stajicnatasa mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT zappelhildegard mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT rakhmetovaassel mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT wassmersharonrose mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT jungraithmayrtherese mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT strehlaujuergen mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT kumararavindselvin mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT baggaarvind mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT solimanneveena mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT maneshrikantm mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT kaufmanlewis mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT lowydouglasr mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT jairajpurimohamada mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT liftonrichardp mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT peiyork mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT zenkermartin mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT kureshigeo mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment AT hildebrandtfriedhelm mutationsinsixnephrosisgenesdelineateapathogenicpathwayamenabletotreatment |