The Hidden Architecture of Brain Structural Variability in 22q11.2 Deletion Syndrome: A Multi-site Study

  1. Rune Boen
  2. Kathleen P. O’Hora
  3. Hoki Fung
  4. Leila Kushan
  5. Charles H. Schleifer
  6. Tyler E. Dietterich
  7. Carolyn M. Amir
  8. Samuel Klein
  9. Jee Won Kang
  10. Haley R. Wang
  11. Dylan E. Hughes
  12. Julio E. Villalon-Reina
  13. Melody J.Y. Kang
  14. Yanghee Im
  15. Kuldeep Kumar
  16. Dag Alnæs
  17. Kathleen Angkustsiri
  18. Kevin M. Antshel
  19. Geor Bakker
  20. Anne S. Bassett
  21. Nancy J. Butcher
  22. Linda E. Campbell
  23. Samuel J.R.A. Chawner
  24. Eva W.C. Chow
  25. Michael C. Craig
  26. Nicolas A. Crossley
  27. Eileen Daly
  28. Fabio Di Fabio
  29. Joanne L. Doherty
  30. Beverly S. Emanuel
  31. Ania M. Fiksinski
  32. Jennifer K. Forsyth
  33. Marianna Frascarelli
  34. Wanda P. Fremont
  35. Maria Gudbrandsen
  36. Raquel E. Gur
  37. Joachim F. Hallmayer
  38. Maria Jalbrzikowski
  39. Wendy R. Kates
  40. David E. Linden
  41. Kathryn L. McCabe
  42. Donna M. McDonald-McGinn
  43. Declan Murphy
  44. Kieran C. Murphy
  45. Ruth O’Hara
  46. Michael J. Owen
  47. Allan L. Reiss
  48. Gabriela M. Repetto
  49. David R. Roalf
  50. Kosha Ruparel
  51. J Eric Schmitt
  52. Sam A. Sievertsen
  53. Tony J. Simon
  54. Zachary H. Trevorrow
  55. Therese van Amelsvoort
  56. Marianne B.M. van den Bree
  57. Jacob A.S. Vorstman
  58. Elaine H. Zackai
  59. Christopher R.K. Ching
  60. Paul M. Thompson
  61. Carrie E. Bearden
  62. the ENIGMA-22q Working Group
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Abstract

Importance

22q11.2 deletion syndrome (22q11DS) is among the strongest genetic risk factors for neuropsychiatric disorders and has marked effects on brain structure. Yet, it remains unclear which neuroanatomical features reflect uniform effects of the deletion versus inter-individual biological processes relevant to psychiatric outcomes. Identifying these features is critical for developing targeted treatments and interventions.

Objective

To identify brain regions where 22q11DS exerts its most consistent and most variable impacts, and to test whether these patterns align with normative neurotransmitter receptor distributions and cortical growth trajectories.

Design

Multisite cross-sectional case-control study.

Setting

T1-weighted brain MRI data were obtained across 15 scanners. MRI data underwent standardized processing, quality control procedures and statistical site-adjustment using ComBat.

Participants

A total of N = 438 individuals with 22q11DS (5-54 years, 48% females) and 380 typically developing controls (6-58 years, 48% females).

Main Outcomes and Measures

Primary outcomes were global and regional cortical thickness and surface area. Mean and dispersion estimates were calculated using double generalized linear models, correcting for age, age 2 , sex (and intracranial volume for surface area). Quantile shift functions characterized fine-scale distributional differences. Sensitivity analyses adjustedt for co-occurring neuropsychiatric disorders, antipsychotic use and deletion subtype. Secondary outcomes included spatial correspondence between regional structural alterations and normative maps of neurotransmitter receptor density and cortical expansion.

Results

Compared with controls, individuals with 22q11DS showed widespread mean differences in cortical thickness and surface area. Notably, 22q11DS was associated with greater regional heterogeneity in both measures, except for reduced dispersion in the anterior cingulate. Effects were attenuated after covariate adjustment. Cortical thickness differences spatially overlapped with regions enriched for glutamatergic and GABAergic receptors. There was partial evidence linking surface area dispersion patterns to normative cortical growth trajectories.

Conclusions and Relevance

22q11DS exerts broad effects on cortical structure consistent with a global developmental mechanism, reflected in widespread mean shifts. Beyond these, region-specific variability, particularly in cortical thickness, suggests individualized neurobiological processes. The anterior cingulate emerges as a region of consistent structural deviation. Overall, structural variability in 22q11DS aligns with normative patterns of excitatory-inhibitory signaling and cortical development, implicating these pathways as potential targets for intervention.

Key points

Question

Is 22q11.2 deletion syndrome (22q11DS) associated with altered spatial heterogeneity of cortical structure, and do these patterns map onto the brain’s underlying neurochemical and developmental architecture?

Findings

In this multisite case-control study of 438 22q11DS and 380 controls, 22q11DS showed regionally patterned increases in cortical thickness heterogeneity and lower cortical surface area heterogeneity. Spatial patterns of cortical thickness differences were aligned with cortical gradients of glutamate and GABAergic receptor density.

Meaning

Although 22q11DS is generally associated with reduced brain volume and increased cortical thickness, the present findings reveal regionally patterned cortical alterations aligned with neurotransmitter-specific cortical organization, suggesting a mechanistic link between excitatory–inhibitory signaling architecture and individualized neuroanatomic effects of 22q11DS.

Article activity feed

  1. Version published to 10.64898/2026.05.18.26353539 on medRxiv