Fetal Gene Regulatory Gene Deletions are Associated with Poor Cognition in Schizophrenia and Community-Based Samples

  1. Jennifer K. Forsyth
  2. Jinhan Zhu
  3. Ariana S. Chavannes
  4. Zachary H. Trevorrow
  5. Mahnoor Hyat
  6. Sam A. Sievertsen
  7. Sophie Ferreira-Ianone
  8. Matthew P. Conomos
  9. Keith H. Nuechterlein
  10. Robert F. Asarnow
  11. Michael F. Green
  12. Katherine H. Karlsgodt
  13. Diana O. Perkins
  14. Tyrone D. Cannon
  15. Jean M. Addington
  16. Kristen S. Cadenhead
  17. Barbara A. Cornblatt
  18. Matcheri S. Keshavan
  19. Daniel H. Mathalon
  20. William S. Stone
  21. Ming T. Tsuang
  22. Elaine F. Walker
  23. Scott W. Woods
  24. Katherine L. Narr
  25. Sarah C. McEwen
  26. Charles H. Schleifer
  27. Cindy M. Yee
  28. Caroline K. Diehl
  29. Anika Guha
  30. Gregory A. Miller
  31. Aaron F. Alexander-Bloch
  32. Sha Zhiqiang
  33. Glessner Joseph
  34. Jakob Seidlitz
  35. Richard A. I. Bethlehem
  36. Roel A. Ophoff
  37. Carrie E. Bearden
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Abstract

Objective

Schizophrenia is a neurodevelopmental disorder involving clinical and genetic heterogeneity. Multiple recurrent copy number variants (CNVs) increase risk for schizophrenia spectrum disorders (SSD). However, how known risk CNVs and broader genome-wide CNVs influence clinical variability is unclear. Furthermore, whether biological annotation of CNV scores can improve power for patient stratification is unknown.

Methods

This study examined associations between severe phenotypes in 617 SSD individuals, namely, child-onset psychosis or borderline intellectual functioning (IQ), and: 1) known risk CNVs; 2) genome-wide deletion burden scores; and 3) novel scores capturing deletion burden in 18 previously validated and mutually exclusive gene-sets, representing distinct aspects of neurodevelopment. Associations with borderline IQ were assessed for replicability in 233 SSD-relatives and 581 controls, and 9,930 youth from the Adolescent Brain Cognitive Development (ABCD) Study.

Results

Known SSD- (odds ratios (OR)=7.07, 95%CI[1.60,31.32]) and neurodevelopmental disorder (NDD)-risk CNVs (OR=4.56, 95%CI[1.48,14.10]) were associated with borderline IQ in SSD. Furthermore, beyond effects of known NDD-risk CNVs, deletion of genes involved in regulating gene expression during fetal brain development was associated with borderline IQ across SSD cases and non-cases (OR=2.57, 95%CI[1.44,4.60]), and in the ABCD cohort (OR=1.33, 95%CI[1.00,1.76]). Exploratory structural MRI-based analyses showed associations between fetal gene regulatory gene deletions and altered gray matter volume ( b =0.09, 95%CI[0.004,0.17]) and cortical thickness ( b =0.14, 95%CI[0.05,0.24]) across SSD cases and non-cases.

Conclusions

Results confirm contributions of known risk CNVs to severe phenotypes in SSD, implicate disrupted fetal brain development in poor cognition, and demonstrate the utility of a neurodevelopmental framework for identifying mechanisms underlying severe SSD-relevant phenotypes.

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  1. Version published to 10.1101/2024.08.02.24311302 on medRxiv