Gene/Protein
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Gene/Protein
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Target Concepts:
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Query: UMLS:C0085584 (
encephalopathy
)
18,178
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We identified individuals with variations in
ACTL6B
, a component of the chromatin remodeling machinery including the BAF complex. Ten individuals harbored bi-allelic mutations and presented with global developmental delay, epileptic
encephalopathy
, and spasticity, and ten individuals with de novo heterozygous mutations displayed intellectual disability, ambulation deficits, severe language impairment, hypotonia, Rett-like stereotypies, and minor facial dysmorphisms (wide mouth, diastema, bulbous nose). Nine of these ten unrelated individuals had the identical de novo c.1027G>A (p.Gly343Arg) mutation. Human-derived neurons were generated that recaptured
ACTL6B
expression patterns in development from progenitor cell to post-mitotic neuron, validating the use of this model. Engineered knock-out of
ACTL6B
in wild-type human neurons resulted in profound deficits in dendrite development, a result recapitulated in two individuals with different bi-allelic mutations, and reversed on clonal genetic repair or exogenous expression of
ACTL6B
. Whole-transcriptome analyses and whole-genomic profiling of the BAF complex in wild-type and bi-allelic mutant
ACTL6B
neural progenitor cells and neurons revealed increased genomic binding of the BAF complex in
ACTL6B
mutants, with corresponding transcriptional changes in several genes including TPPP and FSCN1, suggesting that altered regulation of some cytoskeletal genes contribute to altered dendrite development. Assessment of bi-alleic and heterozygous
ACTL6B
mutations on an
ACTL6B
knock-out human background demonstrated that bi-allelic mutations mimic engineered deletion deficits while heterozygous mutations do not, suggesting that the former are loss of function and the latter are gain of function. These results reveal a role for
ACTL6B
in neurodevelopment and implicate another component of chromatin remodeling machinery in brain disease.
...
PMID:Mutations in ACTL6B Cause Neurodevelopmental Deficits and Epilepsy and Lead to Loss of Dendrites in Human Neurons. 3103 Oct 12
ACTL6B
is a component of the neuronal BRG1/brm-associated factor (nBAF) complex, which is required for chromatin remodeling in postmitotic neurons. We recently reported biallelic pathogenic variants in
ACTL6B
in patients diagnosed with early infantile epileptic
encephalopathy
, subtype 76 (EIEE-76), presenting with severe, global developmental delay, epileptic
encephalopathy
, cerebral atrophy, and abnormal central nervous system myelination. However, the pathophysiological mechanisms underlying their phenotype is unknown. Here, we investigate the molecular pathogenesis of
ACTL6B
p.(Val421_Cys425del) using in silico 3D protein modeling predictions and patient-specific induced pluripotent stem cell-derived neurons. We found neurons derived from EIEE-76 patients showed impaired accumulation of
ACTL6B
compared to unaffected relatives, caused by reduced protein stability. Furthermore, EIEE-76 patient-derived neurons had dysregulated nBAF target gene expression, including genes important for neuronal development and disease. Multielectrode array system analysis unveiled elevated electrophysiological activity of EIEE-76 patients-derived neurons, consistent with the patient phenotype. Taken together, our findings validate a new model for EIEE-76 and reveal how reduced
ACTL6B
expression affects neuronal function.
...
PMID:An epilepsy-associated ACTL6B variant captures neuronal hyperexcitability in a human induced pluripotent stem cell model. 3314 62
