Expanding Genotype-phenotype Correlations in FOXG1 Syndrome: Results from a Patient Registry

Overview

Journal Orphanet J Rare Dis

Publisher Biomed Central

Specialty General Medicine

Date 2023 Jun 12

PMID 37308910

Authors

Elise Brimble

Kathryn G Reyes

Kopika Kuhathaas

Orrin Devinsky

Maura R Z Ruzhnikov

Xilma R Ortiz-Gonzalez

Ingrid Scheffer

Nadia Bahi-Buisson

Heather Olson

Affiliations

Soon will be listed here.

Abstract

Background: We refine the clinical spectrum of FOXG1 syndrome and expand genotype-phenotype correlations through evaluation of 122 individuals enrolled in an international patient registry.

Methods: The FOXG1 syndrome online patient registry allows for remote collection of caregiver-reported outcomes. Inclusion required documentation of a (likely) pathogenic variant in FOXG1. Caregivers were administered a questionnaire to evaluate clinical severity of core features of FOXG1 syndrome. Genotype-phenotype correlations were determined using nonparametric analyses.

Results: We studied 122 registry participants with FOXG1 syndrome, aged < 12 months to 24 years. Caregivers described delayed or absent developmental milestone attainment, seizures (61%), and movement disorders (58%). Participants harbouring a missense variant had a milder phenotype. Compared to individuals with gene deletions (0%) or nonsense variants (20%), missense variants were associated with more frequent attainment of sitting (73%). Further, individuals with missense variants (41%) achieved independent walking more frequently than those with gene deletions (0%) or frameshift variants (6%). Presence of epilepsy also varied by genotype and was significantly more common in those with gene deletions (81%) compared to missense variants (47%). Individuals with gene deletions were more likely to have higher seizure burden than other genotypes with 53% reporting daily seizures, even at best control. We also observed that truncations preserving the forkhead DNA binding domain were associated with better developmental outcomes.

Conclusion: We refine the phenotypic spectrum of neurodevelopmental features associated with FOXG1 syndrome. We strengthen genotype-driven outcomes, where missense variants are associated with a milder clinical course.

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