Domain specific phenotypic expansion associated with variants in MACF1

  1. Nikhita Gogate
  2. Angad Jolly
  3. Jill A. Rosenfeld
  4. Paulina Bahena-Carbajal
  5. Jonathan A. Bernstein
  6. Devon Bonner
  7. Tiffany Busa
  8. Ingrid Cristian
  9. Precilla D’Souza
  10. Jennifer Friedman
  11. Svetlana Gorokhova
  12. Thomas Haaf
  13. Isabella Herman
  14. Ugur Ufuk Isin
  15. Shalini N Jhangiani
  16. Ivy Johnson
  17. Jerica Lenberg
  18. Ellen F. Macnamara
  19. Reza Maroofian
  20. Undiagnosed Diseases Network
  21. Melissa Racobaldo
  22. Olivia L Redlich
  23. Cynthia Tifft
  24. Tulay Tos
  25. Barbara Vona
  26. Regina M. Zambrano
  27. Ingrid M. Wentzensen
  28. Kristen Wigby
  29. Davut Pehlivan
  30. Richard A Gibbs
  31. James R Lupski
  32. Jennifer E Posey
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Abstract

Purpose

While heterozygous de novo missense variants in the microtubule-binding GAR domain of Microtubule-actin cross-linking factor 1 ( MACF1 ) cause Lissencephaly 9 with Complex Brainstem Malformations [MIM #618325], the phenotypic impact of variants outside this domain remains unclear.

Methods

Through collaborative efforts, we assembled a cohort of 10 affected individuals from 8 unrelated families with either biallelic or monoallelic non-GAR domain MACF1 variants who exhibit partially overlapping yet unique phenotypic traits. Combined with previously reported cases, we analyzed genotype and phenotype data from 29 individuals using Human Phenotype Ontology (HPO)-based unsupervised hierarchical clustering.

Results

Clustering revealed two distinct phenotypic signatures, suggesting domain-specific effects. Variants outside the GAR domain associate with broader neurodevelopmental phenotypes and variable craniofacial and skeletal expressivity. Additionally, enrichment analysis (p < 0.001) using OMIM HPO sets supported these findings. In contrast to the GAR domain’s strong correlation with lissencephaly and brainstem malformations, biallelic non-GAR domain MACF1 variants were linked to diverse developmental anomalies.

Conclusion

These results expand the phenotypic spectrum of MACF1 -related disorders and highlight the relevance of domain-specific variant effects. Comprehensive genetic and phenotypic assessments are essential for understanding the role of MACF1 in development, informing diagnosis, and guiding future research on cytoskeletal regulation in neurodevelopment.

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  1. Version published to 10.1101/2025.06.26.25330137v1 on medRxiv