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Article Abstract
The MYT1L gene plays a critical role in brain development, promoting the differentiation and proliferation of cells, important for the formation of brain connections. MYT1L is also involved in regulating the development of the hypothalamus, which is a crucial actor in weight regulation. Genetic variants in the MYT1L are associated with a range of developmental disorders, including intellectual disability, autism spectrum disorder, facial dysmorphisms, and epilepsy. The specific role of MYT1L in epilepsy remains elusive and no patients with developmental and epileptic encephalopathy (DEE) have been described so far. In this study, we report a patient with DEE presenting with severe refractory epilepsy, obesity, and behavioral abnormalities. Exome sequencing led to the identification of the heterozygous variant NM_001303052.2: c.1717G>A, p.(Gly573Arg) (chr2-1910340-C-T; GRCh38.p14) in the MYT1L gene. This variant was found to be inherited by the father, who was a mosaic and did not suffer from any neuropsychiatric disorders. Our observations expand the molecular and phenotype spectrum of MYT1L-related disorders, suggesting that affected individuals may present with severe epileptic phenotype leading to neurocognitive deterioration. Furthermore, we show that mosaic parents may not display the disease phenotype, with relevant implications for genetic counseling.
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