AI Article Synopsis
- Autosomal dominant intellectual development disorder-6 (MRD6) is caused by a gene mutation leading to various neurodevelopmental issues, including cognitive disabilities and autism-like traits.
- A case study of a three-year-old Moroccan boy highlights the complexity of MRD6, as initial tests were inconclusive until exome sequencing revealed a pathogenic nonsense mutation in a gene associated with the disorder.
- The findings emphasize the importance of the identified gene in brain development and underline the significance of new genetic mutations in understanding intellectual developmental disorders.
Article Abstract
Autosomal dominant intellectual development disorder-6 (MRD6) arises from a gene mutation, inducing neurodevelopmental issues. The effects of MRD6 encompass cognitive disabilities, seizures, muscle tone decline, and autism-like traits. Its severity ranges from mild impairment to severe epilepsy. The disorder's rarity is emphasized by roughly 100 reported GRIN2B-related cases, spotlighting the gene's significance in brain development. We present the case of a three-year-old Moroccan boy who was referred to a neuropediatric department for a molecular diagnosis. Initial genetic testing yielded inconclusive results, and subsequent tests for Angelman syndrome and metabolic diseases showed no abnormalities. Given the complexity of the disorder, exome sequencing was employed to identify the underlying genetic cause. Exome sequencing identified a nonsense (STOP) mutation c.3912C>G (p.Tyr1304Ter) in the gene in the heterozygous state known to be present in MRD6 (Online Mendelian Inheritance in Man (OMIM) 613970). The family segregation study shows that this is a de novo variant, which is confirmed by Sanger sequencing. This variant has not been previously reported in the GnomAD database. Based on current scientific knowledge, the variant is considered pathogenic (PVS1, PS2, PM2, PP3, PP5) according to the criteria of the American College of Medical Genetics and Genomics (ACMG). The mutation in the gene (p.Tyr1304Ter) was predicted to be deleterious through bioinformatics analysis tools. This study highlights the crucial role of the gene in normal brain development and communication within the nervous system. It also sheds light on the impact of a novel genetic mutation, identified through exome sequencing, on causing an intellectual developmental disorder in a child patient from Morocco.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10623208 | PMC |
| http://dx.doi.org/10.7759/cureus.46456 | DOI Listing |
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