ADCK4 mutations promote steroid-resistant nephrotic syndrome through CoQ10 biosynthesis disruption

Shazia Ashraf(Harvard University Press), Heon Yung Gee(Harvard University Press), Stéphanie Woerner(Délégation Paris 7), Letian Xie(University of California, Los Angeles), Virginia Vega-Warner(University of Michigan–Ann Arbor), Svjetlana Lovric(Harvard University Press), Humphrey Fang(Harvard University Press), Xuewen Song(University Health Network), Daniel C. Cattran(University of Toronto), Carmen Ávila-Casado(University of Toronto), Andrew D. Paterson(University of Toronto), Patrick Nitschké(Délégation Paris 7), Christine Bôle‐Feysot(Institut des Maladies Génétiques Imagine), Pierre Cochat(Hôpital Femme Mère Enfant), Julián Esteve-Rudd(University of California, Los Angeles), Birgit Haberberger(Technical University of Munich), Susan J. Allen(University of Michigan–Ann Arbor), Weibin Zhou(University of Michigan–Ann Arbor), Rannar Airik(Harvard University Press), Edgar A. Otto(University of Michigan–Ann Arbor), Moumita Barua(Harvard University Press), Mohamed H. Al‐Hamed(Newcastle University), Jameela A. Kari(King Abdulaziz University), Jonathan Evans(Nottingham University Hospitals NHS Trust), Agnieszka Bierżyńska(University of Bristol), Moin A. Saleem(University of Bristol), Detlef Böckenhauer(UCL Australia), Robert Kleta(UCL Australia), Sherif El Desoky(King Abdulaziz University), Duygu Övünç Hacıhamdioğlu(Military Medical Academy), Faysal Gök(Military Medical Academy), Joseph Washburn, Roger C. Wiggins(University of Michigan–Ann Arbor), Murim Choi(Yale University), Richard P. Lifton(Howard Hughes Medical Institute), Shawn Levy(HudsonAlpha Institute for Biotechnology), Zhe Han(University of Michigan–Ann Arbor), Leonardo Salviati(University of Padua), Holger Prokisch(Technical University of Munich), David S. Williams(University of California, Los Angeles), Martin R. Pollak(Hôpital Femme Mère Enfant), Catherine F. Clarke(University of California, Los Angeles), York Pei(University of Toronto), Corinne Antignac(Délégation Paris 7), Friedhelm Hildebrandt(University of Michigan–Ann Arbor)
Journal of Clinical Investigation
November 24, 2013
10.1172/jci69000
Cited by 340Open Access
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Abstract

Identification of single-gene causes of steroid-resistant nephrotic syndrome (SRNS) has furthered the understanding of the pathogenesis of this disease. Here, using a combination of homozygosity mapping and whole human exome resequencing, we identified mutations in the aarF domain containing kinase 4 (ADCK4) gene in 15 individuals with SRNS from 8 unrelated families. ADCK4 was highly similar to ADCK3, which has been shown to participate in coenzyme Q10 (CoQ10) biosynthesis. Mutations in ADCK4 resulted in reduced CoQ10 levels and reduced mitochondrial respiratory enzyme activity in cells isolated from individuals with SRNS and transformed lymphoblasts. Knockdown of adck4 in zebrafish and Drosophila recapitulated nephrotic syndrome-associated phenotypes. Furthermore, ADCK4 was expressed in glomerular podocytes and partially localized to podocyte mitochondria and foot processes in rat kidneys and cultured human podocytes. In human podocytes, ADCK4 interacted with members of the CoQ10 biosynthesis pathway, including COQ6, which has been linked with SRNS and COQ7. Knockdown of ADCK4 in podocytes resulted in decreased migration, which was reversed by CoQ10 addition. Interestingly, a patient with SRNS with a homozygous ADCK4 frameshift mutation had partial remission following CoQ10 treatment. These data indicate that individuals with SRNS with mutations in ADCK4 or other genes that participate in CoQ10 biosynthesis may be treatable with CoQ10.

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