Alternative splicing in pediatric central nervous system tumors highlights oncofetal candidate CLK1 exon 4

  1. Ammar S. Naqvi
  2. Patricia J. Sullivan
  3. Ryan J. Corbett
  4. Priyanka Sehgal
  5. Karina L. Conkrite
  6. Komal S. Rathi
  7. Brian M. Ennis
  8. Katharina E Hayer
  9. Bo Zhang
  10. Miguel A. Brown
  11. Daniel P. Miller
  12. Alex Sickler
  13. Adam A. Kraya
  14. Kaleem L. Coleman
  15. Joseph M. Dybas
  16. Zhuangzhuang Geng
  17. Christopher Blackden
  18. Shehbeel Arif
  19. Antonia Chroni
  20. Aditya Lahiri
  21. Madison L. Hollawell
  22. Phillip B. Storm
  23. Dalia Haydar
  24. Jessica B. Foster
  25. Mateusz Koptyra
  26. Peter J. Madsen
  27. Sharon J. Diskin
  28. Andrei Thomas-Tikhonenko
  29. Adam C. Resnick
  30. Jo Lynne Rokita
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Abstract

Background

Pediatric brain tumors are the leading cause of disease-related mortality in children, yet many aggressive tumors lack effective therapies. RNA splicing is a hallmark of cancer, but it has not yet been systematically studied in pediatric brain tumors.

Methods

We analyzed 729 pediatric brain tumors spanning histologies and molecular subtypes to quantify differential tumor splicing. We developed the Splicing Burden Index (SBI) to enable cross-sample comparisons and performed hierarchical clustering of highly variable splice events to define splicing-informed tumor groups. These were integrated with clinical outcomes, pathway activity, and proteogenomic data. Recurrent splice events were prioritized for predicted functional impact, and in vitro perturbation studies were performed targeting the splicing kinase CDC-like kinase 1 (CLK1) .

Results

SBI revealed substantial inter- and intra-histology heterogeneity. Clusters were enriched for histologies and molecular subtypes, several of which were independently associated with survival beyond histology and clinical covariates. Spliceosome pathway activity varied across clusters and was associated with worse survival, yet was not correlated with SBI, indicating distinct dimensions of splicing dysregulation. Functional prioritization identified a recurrent in CLK1 exon 4, required for canonical kinase activity. CLK1 exon 4 inclusion followed an oncofetal pattern and showed context-dependent associations with outcome distinct from total CLK1 expression. Pharmacologic inhibition and exon 4-specific perturbation of CLK1 reduced tumor cell viability and disrupted cancer-relevant splicing and transcriptional programs.

Conclusions

This study systematically characterizes splicing in pediatric brain tumors, identifies splicing-informed subgroups, and prioritizes CLK1 exon 4 as an oncofetal tumor-specific event, motivating further preclinical exploration.

Key Points

  • ● Splicing analysis of 729 pediatric CNS tumors identifies splicing-defined clusters.

  • CLK1 exon 4 inclusion is widespread and developmentally regulated.

  • ● Exon-level CLK1 regulation shows context-dependent links to prognosis in aggressive CNS tumors.

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    1. Version published to 10.1101/2024.08.03.606419 on bioRxiv