Recessive loss of DIAPH1 function causes a progressive neurodevelopmental syndrome with variable immunological involvement

Authors

• Valentina Galassi Deforie, University College London, United Kingdom
• Reza Maroofian, Queen Square Institute of Neurology,United Kingdom
• Irem Karagoz, University of Portsmouth, United Kingdom
• Ebtehal Al Sheikh, University of Manchester,United Kingdom
• Gaia Gestri, , University College London,United Kingdom
• Maha S. Zaki, National Research Centre, Egypt
• Beth L. Woodward, University of Birmingham, Birmingham, United Kingdom.
• Raghda M. Ghorab, University of Birmingham, Birmingham, United Kingdom.
• Javeria Raza Alvi, The Children's Hospital Lahore, Pakistan
• S. H. Ibrahim, Aga Khan UniversityFollow

Document Type

Article

Department

Paediatrics and Child Health

Abstract

Purpose: Biallelic DIAPH1 pathogenic variants cause a neurodevelopmental syndrome occasionally associated with immunodeficiency. This study aims to define the clinical and immunological spectrum of DIAPH1-related neuroimmunological syndrome and explore the gene's developmental role using vertebrate models.
Methods: A total of 53 individuals with biallelic DIAPH1 variants, including 33 previously unreported patients, were studied. Clinical features were analyzed, and functional studies were conducted using knockout models in Danio rerio and Xenopus tropicalis.
Results: Clinical features included developmental delay, intellectual disability, progressive microcephaly, cortical visual impairment or blindness, epilepsy, and frequent occipital-predominant brain abnormalities. Almost half suffered from infections, mainly affecting their respiratory tract related to epilepsy and aspiration. Although the majority had normal lymphocyte subsets and serum immunoglobulins, T cell receptor excision circles and naïve T-lymphocyte counts were consistently low. The Xenopus model mirrored growth and eye defects seen in humans, whereas zebrafish exhibited no overt malformations but showed seizure-like behavior in Phenothiazine assays.
Conclusion: DIAPH1 is critical for neurodevelopment, immune regulation, and DNA repair. The DNA repair defect may influence susceptibility to infection, lymphoma, or treatment-related toxicity. Although absolute T cell numbers are not consistent with SCID, impaired T cell maturation suggests that these patients could be identified by T cell excision circles newborn screening before neurological symptoms develop.

Comments

Pagination is not provided by author/publisher.

Publication (Name of Journal)

Genetics in Medicine

DOI

10.1016/j.gim.2026.102551

Recommended Citation

Deforie, V. G., Maroofian, R., Karagoz, I., Sheikh, E. A., Gestri, G., Zaki, M. S., Woodward, B. L., Ghorab, R. M., Alvi, J. R., Ibrahim, S. (2026). Recessive loss of DIAPH1 function causes a progressive neurodevelopmental syndrome with variable immunological involvement. Genetics in Medicine, 28(5).
Available at: https://ecommons.aku.edu/pakistan_fhs_mc_women_childhealth_paediatr/1688