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. 2025 Oct 8:jmg-2025-110631.
doi: 10.1136/jmg-2025-110631. Online ahead of print.

ACTB deletions or single-nucleotide loss-of-function variants: expansion and further delineation of the phenotype and review of the literature

Marion Lesieur-Sebellin  1   2 Kristen Wigby  3   4 Elise Schaefer  5 Aurélie Gouronc  6 Nicolas Chatron  7   8 Anne-Lise Poulat  9 Audrey Putoux  10   11 Alice Goldenberg  12   13 Mathilde Quibeuf  12   13 Pascal Chambon  12   13 Sophie Rondeau  1   14 Giulia Barcia  1 Jonathan Levy  15 Juliette Piard  16   17 Paul Kuentz  18   19 Martine Doco-Fenzy  20   21 Nathalie Bednarek  20 Roseline Caumes  22 Sonia Bouquillon  23 Cedric Le Caignec  24   25 Olivier Patat  24 Philippe Khau Van Kien  26 Jean Chiesa  27 Geoffroy Delplancq  28 Séverine Bacrot  28 Sophie Brisset  28 Emmanuelle Ginglinger  29 Vincent Cantagrel  2 Jerica Lenberg  4 Jennifer R Friedman  30   31 Marlène Rio  1   2 Sophie Scheidecker  6 Valerie Malan  32   2
Affiliations

ACTB deletions or single-nucleotide loss-of-function variants: expansion and further delineation of the phenotype and review of the literature

Marion Lesieur-Sebellin et al. J Med Genet. .

Abstract

Background: Pathogenic gain-of-function or dominant-negative effect missense variations in ACTB are associated with a neurodevelopmental disorder characterised by intellectual disability (ID), seizures, sensorineural hearing loss, cerebral, renal and ocular abnormalities and dysmorphic features (Baraitser-Winter cerebrofrontofacial syndrome). ACTB encodes beta-actin, a highly conserved protein involved in cell motility, structure and integrity. Deletions including ACTB, and, more rarely, single-nucleotide loss-of-function variants in ACTB have been described in patients with a distinct phenotype including developmental delay, ID, microcephaly, growth restriction, cardiac and renal abnormalities and dysmorphic features.

Methods: We collected 14 individuals and 1 fetus carrying a heterozygous deletion including ACTB, and 4 individuals with a heterozygous truncating variant. Genotypic and phenotypic data were analysed. Furthermore, a comprehensive review of all cases reported to date was also undertaken.

Results: Twelve out of 17 individuals presented with ID, and 3 out of 17 with learning disabilities. Speech delay and behavioural abnormalities were observed in 15 out of 17 and 12 out of 17 individuals, respectively, motor delay in 9 out of 17 and growth restriction in 9 out of 18. Most of the individuals (13/18) had recognisable dysmorphic features. 11 anomalies were de novo, except for 1 deletion inherited from the mother. The size of the deletion varied from 125 kb to 1.6 Mb and could result from a fork stalling and template switching.

Conclusion: This study allowed us to better characterise the phenotype associated with the haploinsufficiency of ACTB, underlying the high prevalence of neurodevelopmental disorders (ID, speech and motor delay, behavioural abnormalities) and growth restriction in this recognisable syndrome.

Keywords: Cytogenetics; Genetic Counseling; Genetics; Human Genetics; Sequence Analysis, DNA.

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Conflict of interest statement

Competing interests: None declared.

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