The first family identified as having a nonsyndromic intellectual disability was mapped in 1988. Here we show that a mutation of IQSEC2, encoding a guanine nucleotide exchange factor for the ADP-ribosylation factor family of small GTPases, caused this disorder. In addition to MRX1, IQSEC2 mutations were identified in three other families with X-linked intellectual disability. This discovery was made possible by systematic and unbiased X chromosome exome resequencing.
The urinary creatine:creatinine (Cr:Crn) ratio was measured in males from 49 families with a family history compatible with X-linked mental retardation (XLMR) in order to estimate the prevalence of SLC6A8 deficiency in Estonia. We identified 11 boys from 9 families with an increased urinary Cr:Crn ratio (18%). In three related boys, a hemizygous missense mutation (c.1271G>A; p.Gly424Asp) was identified. Their mother was heterozygous for the same mutation. Although many missense mutations have been described, the p.Gly424Asp mutation has not been previously reported. The clinical expression varied widely among affected males of this family. Patients 1 and 3 had relatively mild clinical expression (mild mental retardation (MR) and attention deficit disorder), but patient 2 had all typical clinical signs of SLC6A8 defect such as moderate MR, autistic features, expressive dysphasia and epilepsy. Among our patients, we saw significant problems in speech and language development combined with attention and behavioural difficulties. The number of false-positive biochemical results with increased urinary Cr:Crn ratio was higher (18%) in our study than in previous reports (1.8–10%). We therefore suggest that repeated biochemical testing should be performed before DNA sequencing analysis. Our study suggests that 2% (95% confidence limits: 0.05–11.1%) of this Estonian XLMR panel are due to mutations in the SLC6A8, which is similar to the prevalence reported in other populations. We therefore conclude that creatine transporter deficiency is a relatively common genetic disorder in males with sporadic or familiar MR and diagnostic screening of them should always include screening for SLC6A8 deficiency.
The aim of this study is to establish the prevalence of fragile X syndrome among Estonian mentally retarded and also among the entire children's population born during the years 1984-2005. The study group consisted of 516 patients (448 boys and 68 girls) who were screened for full mutations in the FMR1 gene during the period 1997-2006. Fourteen boys (2.7%) were found with full mutations of the total mentally retarded individuals tested (3.1% of mentally retarded boys); the full mutation was not detected among girls. The live-birth prevalence of full mutation among boys was 1:13 947. The overall live-birth prevalence of fragile X syndrome was 1:27 115. It was found that the prevalence of fragile X syndrome among mentally retarded individuals in Estonia was the same as in previous studies, but the live-birth prevalence of fragile X syndrome among boys was significantly lower.
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