Linking Genotype to Clinical Features in SMC1A-Related Phenotypes: From Cornelia de Lange Syndrome to Developmental and Epileptic Encephalopathy, a Comprehensive Review

Germline mutations in the X-linked cohesin subunit gene SMC1A have been increasingly recognized as a cause of developmental and epileptic encephalopathy (DEE); however, the underlying basis of its marked phenotypic heterogeneity remains elusive. In our narrative review, starting from all literature-reported clinical cases of SMC1A-related DEE, we propose an integrative framework summarizing all the clinical and genetic features, stratified by mutation type, mosaic fraction, and X-chromosome inactivation (XCI) patterns to provide valuable support for genetic diagnosis and variants, found to date. Also, we discuss how somatic mosaicism and epigenetic variability underlie the clinical diversity of SMC1A-associated epilepsy and systematically describe the entire phenotypic spectrum, from early-onset, therapy-resistant seizures to milder intellectual disability profiles. We further examine how SMC1A mutations perturb cohesin’s canonical roles in chromatin loop formation and sister-chromatid cohesion, leading to widespread transcriptional dysregulation of neurodevelopmental gene networks. Evidence that XCI skewing can ameliorate or exacerbate neuronal cohesin deficits and, thus modulate seizure threshold, is presented.