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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recently, deletions encompassing the nuclear receptor binding
SET
-Domain 1 (NSD1) gene have been described as the major cause of Japanese patients with the Sotos syndrome, whereas point mutations have been identified in the majority of European Sotos syndrome patients. In order to investigate a possible phenotype-genotype correlation and to further define the predictive value of NSD1 mutations, we performed mutational analysis of the NSD1 gene in 20 patients and one familial case with Sotos syndrome, five patients with Weaver syndrome, six patients with unclassified overgrowth/
mental retardation
, and six patients with macrocephaly/
mental retardation
. We were able to identify mutations within the NSD1 gene in 18 patients and the familial case with Sotos syndrome (90%). The mutations (six nonsense, eight frame shifts, three splice site, one missense, one in-frame deletion) are expected to result in an impairment of NSD1 function. The best correlation between clinical assessment and molecular results was obtained for the Sotos facial gestalt in conjunction with overgrowth, macrocephaly, and developmental delay. In contrast to the high mutation detection rate in Sotos syndrome, none of the patients with Weaver syndrome, unclassified overgrowth/
mental retardation
and macrocephaly/
mental retardation
, harbored NSD1 mutations. We tested for large deletions by FISH analysis but were not able to identify any deletion cases. The results indicate that the great majority of patients with Sotos syndrome are caused by mutations in NSD1. Deletions covering the NSD1 locus were not found in the patients analyzed here.
...
PMID:Mutations in NSD1 are responsible for Sotos syndrome, but are not a frequent finding in other overgrowth phenotypes. 1457 Dec 71
Sotos syndrome (SoS, OMIM#117550) is an overgrowth disorder characterized by excessive growth-especially in the first years of childhood-distinctive craniofacial features, and various degrees of
mental retardation
. Haploinsufficiency of the nuclear receptor binding
SET
domain containing protein 1 (NSD1) gene, due to either intragenic mutations or whole-gene microdeletions, is found in the majority of patients with SoS. However, in approximately 10-40% of patients with a typical SoS phenotype, no abnormalities are detected. In this study, hemizygous hypermethylation or genomic sequence abnormalities of the promoter region of NSD1 were hypothesized to be the underlying cause in patients with a SoS phenotype, but without confirmed NSD1 alterations. In 18 patients, including one patient with a reported hepatocellular carcinoma, the promoter region of NSD1 was analyzed. However, no hypermethylation or sequence abnormalities in the promoter region could be detected. It therefore seems unlikely that such abnormalities of NSD1 are a major culprit in patients with phenotypical SoS. Additional methods are necessary for detection of other genetic or epigenetic causes of SoS.
...
PMID:Analysis of the NSD1 promoter region in patients with a Sotos syndrome phenotype. 1625 63
Histone covalent modifications regulate many, if not all, DNA-templated processes, including gene expression and DNA damage response. The biological consequences of histone modifications are mediated partially by evolutionarily conserved "reader/effector" modules that bind to histone marks in a modification- and context-specific fashion and subsequently enact chromatin changes or recruit other proteins to do so. Recently, the Plant Homeodomain (PHD) finger has emerged as a class of specialized "reader" modules that, in some instances, recognize the methylation status of histone lysine residues, such as histone H3 lysine 4 (H3K4). While mutations in catalytic enzymes that mediate the addition or removal of histone modifications (i.e., "writers" and "erasers") are already known to be involved in various human diseases, mutations in the modification-specific "reader" proteins are only beginning to be recognized as contributing to human diseases. For instance, point mutations, deletions or chromosomal translocations that target PHD fingers encoded by many genes (such as recombination activating gene 2 (RAG2), Inhibitor of Growth (ING), nuclear receptor-binding
SET
domain-containing 1 (NSD1) and Alpha Thalassaemia and
Mental Retardation
Syndrome, X-linked (ATRX)) have been associated with a wide range of human pathologies including immunological disorders, cancers, and neurological diseases. In this review, we will discuss the structural features of PHD fingers as well as the diseases for which direct mutation or dysregulation of the PHD finger has been reported. We propose that misinterpretation of the epigenetic marks may serve as a general mechanism for human diseases of this category. Determining the regulatory roles of histone covalent modifications in the context of human disease will allow for a more thorough understanding of normal and pathological development, and may provide innovative therapeutic strategies wherein "chromatin readers" stand as potential drug targets.
...
PMID:PHD fingers in human diseases: disorders arising from misinterpreting epigenetic marks. 1868 56
Wolf-Hirschhorn syndrome (WHS) is a malformation syndrome associated with growth retardation,
mental retardation
, and immunodeficiency resulting from a hemizygous deletion of the short arm of chromosome 4, called the WHS critical region (WHSC). The WHSC1 gene is located in this region, and its loss is believed to be responsible for a number of WHS characteristics. We identified WHSC1 in a genetic screen for genes involved in responding to replication stress, linking Wolf-Hirschhorn syndrome to the DNA damage response (DDR). Here, we report that the WHSC1 protein is a member of the DDR pathway. WHSC1 localizes to sites of DNA damage and replication stress and is required for resistance to many DNA-damaging and replication stress-inducing agents. Through its
SET
domain, WHSC1 regulates the methylation status of the histone H4 K20 residue and is required for the recruitment of 53BP1 to sites of DNA damage. We propose that Wolf-Hirschhorn syndrome results from a defect in the DDR.
...
PMID:Wolf-Hirschhorn syndrome candidate 1 is involved in the cellular response to DNA damage. 2178 15
Sotos syndrome, described in 1964, was characterized by overgrowth, a distinctive craniofacial configuration, and a non-progressive neurological disorder with
mental retardation
. There have been many developments since then and an update should be informative. The syndrome is associated with a number of abnormalities: brain, cardiac, urogenital, musculoskeletal (scoliosis), ophthalmologic, dental and neoplastic. It is a genetic disorder due to haploinsufficiency of the NSD1 gene (Nuclear receptor-binding
SET
Domain protein 1) on chromosome 5q35.2-35.3 in 90% of the patients: Sotos syndrome 1. Recently, heterozygous mutations in the NFIX gene (Nuclear Factor I, X type) on chromosome 19p13.3 were identified in a few children with the Sotos syndrome phenotype: Sotos syndrome 2. Genotype-phenotype correlations have been obtained. Many studies have been conducted to find out the functional pathway and the manner that the mutated genes altered transcription of other genes and the interaction with other proteins to generate the phenotype, but the functional pathway is largely unknown.
...
PMID:Sotos syndrome 1 and 2. 2534 81
