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XB-ART-60498
Brain 2024 Apr 04;1474:1553-1570. doi: 10.1093/brain/awad405.
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A novel SMARCC1 BAFopathy implicates neural progenitor epigenetic dysregulation in human hydrocephalus.

Singh AK , Allington G , Viviano S , McGee S , Kiziltug E , Ma S , Zhao S , Mekbib KY , Shohfi JP , Duy PQ , DeSpenza T , Furey CG , Reeves BC , Smith H , Sousa AMM , Cherskov A , Allocco A , Nelson-Williams C , Haider S , Rizvi SRA , Alper SL , Sestan N , Shimelis H , Walsh LK , Lifton RP , Moreno-De-Luca A , Jin SC , Kruszka P , Deniz E , Kahle KT .


Abstract
Hydrocephalus, characterized by cerebral ventriculomegaly, is the most common disorder requiring brain surgery in children. Recent studies have implicated SMARCC1, a component of the BRG1-associated factor (BAF) chromatin remodeling complex, as a candidate congenital hydrocephalus (CH) gene. However, SMARCC1 variants have not been systematically examined in a large patient cohort or conclusively linked with a human syndrome. Moreover, CH-associated SMARCC1 variants have not been functionally validated or mechanistically studied in vivo. Here, we aimed to assess the prevalence of SMARCC1 variants in an expanded patient cohort, describe associated clinical and radiographic phenotypes, and assess the impact of Smarcc1 depletion in a novel Xenopus tropicalis model of CH. To do this, we performed a genetic association study using whole-exome sequencing from a cohort consisting of 2,697 total ventriculomegalic trios, including patients with neurosurgically-treated CH, that total 8,091 exomes collected over 7 years (2016-2023). A comparison control cohort consisted of 1,798 exomes from unaffected siblings of patients with autism spectrum disorder and their unaffected parents were sourced from the Simons simplex consortium. Enrichment and impact on protein structure were assessed in identified variants. Effects on the human fetal brain transcriptome were examined with RNA-sequencing and Smarcc1 knockdowns were generated in Xenopus and studied using optical coherence tomography imaging, in situ hybridization, and immunofluorescence. SMARCC1 surpassed genome-wide significance thresholds, yielding six rare protein-altering de novo variants (DNVs) localized to highly conserved residues in key functional domains. Patients exhibited hydrocephalus with aqueductal stenosis; corpus callosum abnormalities, developmental delay, and cardiac defects were also common. Xenopus knockdowns recapitulated both aqueductal stenosis and cardiac defects and were rescued by wild-type but not patient-specific variant SMARCC1. Hydrocephalic SMARCC1-variant human fetal brain and Smarcc1-variant Xenopus brain exhibited a similarly altered expression of key genes linked to midgestational neurogenesis, including the transcription factors NEUROD2 and MAB21L2. These results suggest DNVs in SMARCC1 cause a novel human BAFopathy we term "SMARCC1-associated Developmental Dysgenesis Syndrome (SaDDS)", characterized by variable presence of cerebral ventriculomegaly, aqueductal stenosis, DD, and a variety of structural brain or cardiac defects. These data underscore the importance of SMARCC1 and the BAF chromatin remodeling complex for human brain morphogenesis and provide evidence for a "neural stem cell" paradigm of CH pathogenesis. These results highlight utility of trio-based WES for identifying pathogenic variants in sporadic congenital structural brain disorders and suggest WES may be a valuable adjunct in clinical management of CH patients.

PubMed ID: 38128548
PMC ID: PMC10994532
Article link: Brain
Grant support: [+]

Species referenced: Xenopus tropicalis
Genes referenced: banf1 mab21l2 neurod2 smarca4 smarcc1
GO keywords: positive regulation of cell differentiation [+]
Antibodies: Digoxigenin Ab2
Morpholinos: smarcc1 MO1
gRNAs referenced: smarcc1 gRNA1 smarcc1 gRNA2

Disease Ontology terms: autism spectrum disorder [+]
OMIMs: HYDROCEPHALUS, CONGENITAL, 1; HYC1 [+]
References [+] :
Al Mutairi, A mendelian form of neural tube defect caused by a de novo null variant in SMARCC1 in an identical twin. 2018, Pubmed