Mutations in nuclear pore genes NUP93, NUP205 and XPO5 cause steroid-resistant nephrotic syndrome

Daniela A. Braun; Carolin E. Sadowski; Stefan Kohl; Svjetlana Lovric; Susanne A. Astrinidis; Werner L. Pabst; Heon Yung Gee; Shazia Ashraf; Jennifer A. Lawson; Shirlee Shril; Merlin Airik; Weizhen Tan; David Schapiro; Jia Rao; Won Il Choi; Tobias Hermle; Markus J. Kemper; Martin Pohl; Fatih Ozaltin; Martin Konrad; Radovan Bogdanovic; Rainer Büscher; Udo Helmchen; Erkin Serdaroglu; Richard P. Lifton; Wolfram Antonin; Friedhelm Hildebrandt

doi:10.1038/ng.3512

Mutations in nuclear pore genes NUP93, NUP205 and XPO5 cause steroid-resistant nephrotic syndrome

Daniela A. Braun, Carolin E. Sadowski, Stefan Kohl, Svjetlana Lovric, Susanne A. Astrinidis, Werner L. Pabst, Heon Yung Gee, Shazia Ashraf, Jennifer A. Lawson, Shirlee Shril, Merlin Airik, Weizhen Tan, David Schapiro, Jia Rao, Won Il Choi, Tobias Hermle, Markus J. Kemper, Martin Pohl, Fatih Ozaltin, Martin KonradRadovan Bogdanovic, Rainer Büscher, Udo Helmchen, Erkin Serdaroglu, Richard P. Lifton, Wolfram Antonin, Friedhelm Hildebrandt

Department of Pharmacology

Research output: Contribution to journal › Article › peer-review

121 Citations (Scopus)

Abstract

Nucleoporins are essential components of the nuclear pore complex (NPC). Only a few diseases have been attributed to NPC dysfunction. Steroid-resistant nephrotic syndrome (SRNS), a frequent cause of chronic kidney disease, is caused by dysfunction of glomerular podocytes. Here we identify in eight families with SRNS mutations in NUP93, its interaction partner NUP205 or XPO5 (encoding exportin 5) as hitherto unrecognized monogenic causes of SRNS. NUP93 mutations caused disrupted NPC assembly. NUP93 knockdown reduced the presence of NUP205 in the NPC, and, reciprocally, a NUP205 alteration abrogated NUP93 interaction. We demonstrate that NUP93 and exportin 5 interact with the signaling protein SMAD4 and that NUP93 mutations abrogated interaction with SMAD4. Notably, NUP93 mutations interfered with BMP7-induced SMAD transcriptional reporter activity. We hereby demonstrate that mutations of NUP genes cause a distinct renal disease and identify aberrant SMAD signaling as a new disease mechanism of SRNS, opening a potential new avenue for treatment.

Original language	English
Pages (from-to)	457-465
Number of pages	9
Journal	Nature Genetics
Volume	48
Issue number	4
DOIs	https://doi.org/10.1038/ng.3512
Publication status	Published - 2016 Mar 29

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© 2016 Nature America, Inc.

All Science Journal Classification (ASJC) codes

Genetics

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Braun, D. A., Sadowski, C. E., Kohl, S., Lovric, S., Astrinidis, S. A., Pabst, W. L., Gee, H. Y., Ashraf, S., Lawson, J. A., Shril, S., Airik, M., Tan, W., Schapiro, D., Rao, J., Choi, W. I., Hermle, T., Kemper, M. J., Pohl, M., Ozaltin, F., ... Hildebrandt, F. (2016). Mutations in nuclear pore genes NUP93, NUP205 and XPO5 cause steroid-resistant nephrotic syndrome. Nature Genetics, 48(4), 457-465. https://doi.org/10.1038/ng.3512

@article{96270fd0e71044e99db0c8a98e79eda1,

title = "Mutations in nuclear pore genes NUP93, NUP205 and XPO5 cause steroid-resistant nephrotic syndrome",

abstract = "Nucleoporins are essential components of the nuclear pore complex (NPC). Only a few diseases have been attributed to NPC dysfunction. Steroid-resistant nephrotic syndrome (SRNS), a frequent cause of chronic kidney disease, is caused by dysfunction of glomerular podocytes. Here we identify in eight families with SRNS mutations in NUP93, its interaction partner NUP205 or XPO5 (encoding exportin 5) as hitherto unrecognized monogenic causes of SRNS. NUP93 mutations caused disrupted NPC assembly. NUP93 knockdown reduced the presence of NUP205 in the NPC, and, reciprocally, a NUP205 alteration abrogated NUP93 interaction. We demonstrate that NUP93 and exportin 5 interact with the signaling protein SMAD4 and that NUP93 mutations abrogated interaction with SMAD4. Notably, NUP93 mutations interfered with BMP7-induced SMAD transcriptional reporter activity. We hereby demonstrate that mutations of NUP genes cause a distinct renal disease and identify aberrant SMAD signaling as a new disease mechanism of SRNS, opening a potential new avenue for treatment.",

author = "Braun, {Daniela A.} and Sadowski, {Carolin E.} and Stefan Kohl and Svjetlana Lovric and Astrinidis, {Susanne A.} and Pabst, {Werner L.} and Gee, {Heon Yung} and Shazia Ashraf and Lawson, {Jennifer A.} and Shirlee Shril and Merlin Airik and Weizhen Tan and David Schapiro and Jia Rao and Choi, {Won Il} and Tobias Hermle and Kemper, {Markus J.} and Martin Pohl and Fatih Ozaltin and Martin Konrad and Radovan Bogdanovic and Rainer B{\"u}scher and Udo Helmchen and Erkin Serdaroglu and Lifton, {Richard P.} and Wolfram Antonin and Friedhelm Hildebrandt",

note = "Publisher Copyright: {\textcopyright} 2016 Nature America, Inc.",

year = "2016",

month = mar,

day = "29",

doi = "10.1038/ng.3512",

language = "English",

volume = "48",

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Braun, DA, Sadowski, CE, Kohl, S, Lovric, S, Astrinidis, SA, Pabst, WL, Gee, HY, Ashraf, S, Lawson, JA, Shril, S, Airik, M, Tan, W, Schapiro, D, Rao, J, Choi, WI, Hermle, T, Kemper, MJ, Pohl, M, Ozaltin, F, Konrad, M, Bogdanovic, R, Büscher, R, Helmchen, U, Serdaroglu, E, Lifton, RP, Antonin, W & Hildebrandt, F 2016, 'Mutations in nuclear pore genes NUP93, NUP205 and XPO5 cause steroid-resistant nephrotic syndrome', Nature Genetics, vol. 48, no. 4, pp. 457-465. https://doi.org/10.1038/ng.3512

TY - JOUR

T1 - Mutations in nuclear pore genes NUP93, NUP205 and XPO5 cause steroid-resistant nephrotic syndrome

AU - Braun, Daniela A.

AU - Sadowski, Carolin E.

AU - Kohl, Stefan

AU - Lovric, Svjetlana

AU - Astrinidis, Susanne A.

AU - Pabst, Werner L.

AU - Gee, Heon Yung

AU - Ashraf, Shazia

AU - Lawson, Jennifer A.

AU - Shril, Shirlee

AU - Airik, Merlin

AU - Tan, Weizhen

AU - Schapiro, David

AU - Rao, Jia

AU - Choi, Won Il

AU - Hermle, Tobias

AU - Kemper, Markus J.

AU - Pohl, Martin

AU - Ozaltin, Fatih

AU - Konrad, Martin

AU - Bogdanovic, Radovan

AU - Büscher, Rainer

AU - Helmchen, Udo

AU - Serdaroglu, Erkin

AU - Lifton, Richard P.

AU - Antonin, Wolfram

AU - Hildebrandt, Friedhelm

PY - 2016/3/29

Y1 - 2016/3/29

N2 - Nucleoporins are essential components of the nuclear pore complex (NPC). Only a few diseases have been attributed to NPC dysfunction. Steroid-resistant nephrotic syndrome (SRNS), a frequent cause of chronic kidney disease, is caused by dysfunction of glomerular podocytes. Here we identify in eight families with SRNS mutations in NUP93, its interaction partner NUP205 or XPO5 (encoding exportin 5) as hitherto unrecognized monogenic causes of SRNS. NUP93 mutations caused disrupted NPC assembly. NUP93 knockdown reduced the presence of NUP205 in the NPC, and, reciprocally, a NUP205 alteration abrogated NUP93 interaction. We demonstrate that NUP93 and exportin 5 interact with the signaling protein SMAD4 and that NUP93 mutations abrogated interaction with SMAD4. Notably, NUP93 mutations interfered with BMP7-induced SMAD transcriptional reporter activity. We hereby demonstrate that mutations of NUP genes cause a distinct renal disease and identify aberrant SMAD signaling as a new disease mechanism of SRNS, opening a potential new avenue for treatment.

AB - Nucleoporins are essential components of the nuclear pore complex (NPC). Only a few diseases have been attributed to NPC dysfunction. Steroid-resistant nephrotic syndrome (SRNS), a frequent cause of chronic kidney disease, is caused by dysfunction of glomerular podocytes. Here we identify in eight families with SRNS mutations in NUP93, its interaction partner NUP205 or XPO5 (encoding exportin 5) as hitherto unrecognized monogenic causes of SRNS. NUP93 mutations caused disrupted NPC assembly. NUP93 knockdown reduced the presence of NUP205 in the NPC, and, reciprocally, a NUP205 alteration abrogated NUP93 interaction. We demonstrate that NUP93 and exportin 5 interact with the signaling protein SMAD4 and that NUP93 mutations abrogated interaction with SMAD4. Notably, NUP93 mutations interfered with BMP7-induced SMAD transcriptional reporter activity. We hereby demonstrate that mutations of NUP genes cause a distinct renal disease and identify aberrant SMAD signaling as a new disease mechanism of SRNS, opening a potential new avenue for treatment.

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Mutations in nuclear pore genes NUP93, NUP205 and XPO5 cause steroid-resistant nephrotic syndrome

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