Exploring the relevance of NUP93 variants in steroid-resistant nephrotic syndrome using next generation sequencing and a fly kidney model

Authors

Agnieszka Bierzynska, Bristol Medical School
Katherine Bull, Nuffield Department of Medicine
Sara Miellet, Bournemouth University
Philip Dean, North Bristol NHS Trust
Chris Neal, Bristol Medical School
Elizabeth Colby, Bristol Medical School
Hugh J. McCarthy, Bristol Medical School
Shivaram Hegde, University Hospital of Wales
Manish D. Sinha, Evelina London Children's Healthcare
Carmen Bugarin Diz, Faculty of Life Sciences & Medicine
Kathleen Stirrups, Cambridge University Hospitals NHS Foundation Trust
Karyn Megy, Cambridge University Hospitals NHS Foundation Trust
Rutendo Mapeta, Cambridge University Hospitals NHS Foundation Trust
Chris Penkett, Cambridge University Hospitals NHS Foundation Trust
Sarah Marsh, North Bristol NHS Trust
Natalie Forrester, University of Wollongong
Maryam Afzal, Bristol Medical School
Hannah Stark, Cambridge University Hospitals NHS Foundation Trust
Nihr BioResource, Cambridge University Hospitals NHS Foundation Trust
Maggie Williams, North Bristol NHS Trust
Gavin I. Welsh, Bristol Medical School
Ania B. Koziell, Evelina London Children's Healthcare
Paul S. Hartley, Bournemouth University
Moin A. Saleem, Bristol Medical School

Publication Name

Pediatric Nephrology

Abstract

Background: Variants in genes encoding nuclear pore complex (NPC) proteins are a newly identified cause of paediatric steroid-resistant nephrotic syndrome (SRNS). Recent reports describing NUP93 variants suggest these could be a significant cause of paediatric onset SRNS. We report NUP93 cases in the UK and demonstrate in vivo functional effects of Nup93 depletion in a fly (Drosophila melanogaster) nephrocyte model. Methods: Three hundred thirty-seven paediatric SRNS patients from the National cohort of patients with Nephrotic Syndrome (NephroS) were whole exome and/or whole genome sequenced. Patients were screened for over 70 genes known to be associated with Nephrotic Syndrome (NS). D. melanogaster Nup93 knockdown was achieved by RNA interference using nephrocyte-restricted drivers. Results: Six novel homozygous and compound heterozygous NUP93 variants were detected in 3 sporadic and 2 familial paediatric onset SRNS characterised histologically by focal segmental glomerulosclerosis (FSGS) and progressing to kidney failure by 12 months from clinical diagnosis. Silencing of the two orthologs of human NUP93 expressed in D. melanogaster, Nup93-1, and Nup93-2 resulted in significant signal reduction of up to 82% in adult pericardial nephrocytes with concomitant disruption of NPC protein expression. Additionally, nephrocyte morphology was highly abnormal in Nup93-1 and Nup93-2 silenced flies surviving to adulthood. Conclusion: We expand the spectrum of NUP93 variants detected in paediatric onset SRNS and demonstrate its incidence within a national cohort. Silencing of either D. melanogaster Nup93 ortholog caused a severe nephrocyte phenotype, signaling an important role for the nucleoporin complex in podocyte biology. Graphical Abstract: A higher resolution version of the Graphical abstract is available as Supplementary information[Figure not available: see fulltext.]

Open Access Status

This publication may be available as open access

Funding Number

MR/RO13942/1

Funding Sponsor

Medical Research Council