A MECP2 missense mutation within the MBD domain in a Brazilian male with autistic disorder.

Point mutations and genomic rearrangements in the MECP2 gene are the major cause of Rett syndrome (RTT), a pervasive developmental disorder affecting almost exclusively females. MECP2 mutations were also identified in patients with autism without RTT. In this study, we present a mutational and gene dosage analysis of the MECP2 in a cohort of 60 Brazilian males with autistic features but not RTT. No duplication or deletion was identified. Sequencing analysis, however, revealed four MECP2 sequence variations. Three of them were previously discussed as non disease causing mutations and one mutation (p.T160S) was novel. It affects a highly conserved amino acid located within the MBD domain, a region of the protein involved in specific recognition and interaction with methylated CpG dinucleotides. The p.T160S variation was not found in the control sample. This mutation may represent a potential genetic factor for autistic phenotype and should be object of further studies.

High frequency of nonrecurrent MECP2 duplications among Brazilian males with mental retardation.

Structural variations that affect the copy number of the MECP2 gene were shown to cause mental retardation in males by driving the overexpression of this gene. To access the impact of these rearrangements in males with unexplained mental retardation, we have performed a quantitative real-time polymerase chain reaction assay using SYBR Green I chemistry to quantify MECP2 gene copy number in 145 Brazilian males with mental retardation of unknown cause. Three patients carrying MECP2 duplications (approximately 2%) were identified. The analysis of additional markers flanking the MECP2 region showed that the duplications observed are nonrecurrent. Expression studies in two of these patients revealed the overexpression of the MECP2 gene compared to the expression level observed in controls. These findings corroborate other recent reports in the literature and highlight that the overexpression of MECP2 caused by duplications involving this gene is a relatively frequent genetic cause of mental retardation in males, highlighting the importance of MECP2 gene dosage for diagnostic purposes in such cases.