CAKUT variants in PRPF8, DYRK2 , and CEP78 : implications for splicing and ciliogenesis

  1. Lea M Merz
  2. Shirlee Shril
  3. Tucker J. Carrocci
  4. Csenge K. Rezi
  5. Natalie J. Zeps
  6. Rafael Jiménez-Izquierdo
  7. Florian Bergmann
  8. Narcis Adrian Petriman
  9. Caroline M Kolvenbach
  10. Nils D Mertens
  11. Søren L. Johansen
  12. Jan Halbritter
  13. Alina Christine Hilger
  14. Shaikh Qureshi Wasay Mohiuddin
  15. Kathryn E Hentges
  16. Hila Milo Rasouly
  17. Ali G Gharavi
  18. Kiyotsugu Yoshida
  19. Esben Lorentzen
  20. Marco Calzado
  21. Andreas Kispert
  22. Saishu Yoshida
  23. Lotte B. Pedersen
  24. Aaron A. Hoskins
  25. Florian Buerger
  26. Friedhelm Hildebrandt
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Abstract

Introduction

Congenital anomalies of the kidney and urinary tract (CAKUT) are the leading cause of chronic kidney disease in children and young adults. Although over 50 monogenic causes have been identified, many remain unresolved. PRPF8 is a core spliceosome component, essential for pre-mRNA splicing, and further localizes to the distal mother centriole to promote ciliogenesis.

Methods

We performed trio exome sequencing in 208 CAKUT families and identified strong variants in PRPF8 and the EDD-DYRK2-DDB1 VprBP complex. Functional validation included splicing assays in yeast (Saccharomyces cerevisiae), Sonic hedgehog (Shh) signaling in RPE-1 cells, co-immunoprecipitation for protein complex assembly, and in situ hybridization in mouse embryos. Protein interactions were modeled using AlphaFold.

Results

We identified heterozygous de novo or inherited variants in PRPF8, DYRK2, DDB1, EDD and CEP78. Yeast assays revealed that while most PRPF8 variants preserved growth and splicing at consensus splice sites, the de novo PRPF8 R1681W variant impaired splicing of non-consensus splice sites and was inviable at elevated temperature. CAKUT variants failed to rescue prp28-1 and U4-cs1 alleles but showed variant-specific synthetic interactions with brr2-1 , including weak suppression or synthetic sickness at elevated temperatures. Shh signaling was reduced in ∼50% of PRPF8 variants expressed in RPE-1 cells. CEP78 truncating variants abrogated binding to CEP350 and VPRBP. Two DYRK2 variants disrupted EDD-DYRK2-DDB1VprBP complex formation without affecting kinase activity. In situ hybridization revealed strong Prpf8 expression in the developing collecting duct and urothelium.

Conclusion

Variants in PRPF8 and components of the EDD-DYRK2-DDB1 VprBP complex may contribute to CAKUT through impaired pre-mRNA splicing and defective ciliogenesis. These findings uncover an entirely new functional network of candidate genes for CAKUT and ciliopathies, significantly broadening our understanding of disease mechanisms and offering novel entry points for mechanistic studies.

Translational Statement

Our study identifies a previously unrecognized molecular network involving PRPF8 and the EDD–DYRK2–DDB1VprBP complex, revealing a novel pathogenic mechanism in CAKUT. These results introduce a new class of candidate genes and pathways essential for kidney development. As the genetic etiology of CAKUT remains unknown in most patients, our findings underscore the need for targeted genetic testing and functional studies to enhance diagnosis, advance mechanistic insight, and enable more personalized clinical management.

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  1. Version published to 10.1101/2025.07.16.665151 on bioRxiv