UMLS:C0917816 - FACTA Search

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Query: UMLS:C0917816 (mental retardation)
15,867 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Wilms' tumor is a childhood nephroblastoma that is postulated to arise through the inactivation of a tumor suppressor gene by a two-hit mechanism. A candidate 11p13 Wilms' tumor gene, WT1, has been cloned and shown to encode a zinc finger protein. Patients with the WAGR syndrome (Wilm's tumor, aniridia, genitourinary abnormalities, and mental retardation) have a high risk of developing Wilms' tumor and they carry constitutional deletions of one chromosome 11 allele encompassing the WT1 gene. Analysis of the remaining WT1 allele in a Wilms' tumor from a WAGR patient revealed the deletion of a single nucleotide in exon 7. This mutation likely played a key role in tumor formation, as it prevents translation of the DNA-binding zinc finger domain that is essential for the function of the WT1 polypeptide as a transcriptional regulator.
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PMID:Homozygous inactivation of WT1 in a Wilms' tumor associated with the WAGR syndrome. 768 65

Over the past few years, molecular neurogenetics has developed into one of the most promising and active research fields. The new discipline applies modern molecular genetic techniques to the investigation of classical neurological disorders. In the following article, a definition of neurogenetic disease is introduced, the molecular basis of four groups of neurogenetic disorders is described and recent diagnostic developments are presented. The first group of diseases is caused by trinucleotide expansions. "Expanding" trinucleotide repeats were not known to occur in any species until about three years ago. Today, disorders such as Huntington's disease, spinocerebellar ataxia type 1, fragile X mental retardation, spinobulbar muscular atrophy and myotonic dystrophy are all known to be caused by the expansion of trinucleotides. The second group is characterized by chromosomal deletions or uniparental disomies. Lissencephaly and the Miller-Dieker syndrome, Prader-Willi and Angelman syndromes and Duchenne and Becker muscular dystrophies belong to this category. The third group includes those neurogenetic disorders that are mainly caused by point mutations such as the X-linked leukodystrophies, including Pelizaeus-Merzbacher disease and adrenoleukodystrophy, Charcot-Marie-Tooth syndrome type 1, familial forms of amyotrophic lateral sclerosis, several types of craniosynostoses and some CNS tumor syndromes. Finally, Alzheimer's and Parkinson's disease are discussed as representatives of group four, i.e. genetically heterogeneous neurological disorders.
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PMID:Molecular basis and diagnosis of neurogenetic disorders. 796 63

Pancreaticoduodenectomy with revascularization of the hepatic artery and portal vein was performed on a 17-year-old girl with giant nonfunctioning islet cell tumor of the pancreas. She had a remote history of neonatal hypoglycemia leading to mental retardation and a right Wilms' tumor resected at 8 months. Serum pancreatic polypeptide levels were elevated. Her postoperative course was complicated by an ischemic perforation of the colon, which did not infect her prosthetic vascular grafts. The relationship between her neonatal hypoglycemia, Wilms' tumor, and subsequent islet cell neoplasm is unclear.
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PMID:Giant nonfunctioning islet cell tumor requiring pancreaticoduodenectomy and complete liver revascularization. 810 91

Alexander's disease is a progressive degenerative neurological disorder developing in early childhood which is characterized by accumulation of Rosenthal fibres throughout the cerebral white matter. These fibres are composed of glial fibrillary acidic protein and ubiquinated alpha beta crystallin. The absence of atypia, increased cellularity, mitotic activity or necrosis in biopsy material allows differentiation from neoplasia glial processes. Clinical features suggestive of the diagnosis include progressive mental retardation with an increase in head circumference.
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PMID:Test and teach. Number seventy-three. Diagnosis: Alexander's disease. 826 44

Six of 39 sporadic Wilms tumors had gross homozygous or hemizygous WT1 and WIT1 deletions. Two Wilms tumor-aniridia-genitourinary abnormalities-mental retardation syndrome patients had total hemizygous WT1 and WIT1 deletions in both constitutional and nonsporadic type tumor cells. Four of the 8 tumors with WT1 and WIT1 deletions showed loss of constitutional heterozygosity (LOH) for markers limited to the 11p13 region. Seven of 19 Wilms tumors with neither WT1 nor WIT1 deletions also had LOH on 11p; 4 in the 11p15-11p13 region, one in the 11p15 and possibly also 11p13 regions, and two solely in the 11p15 region. Thus, 15 of the 41 Wilms tumors (37%) had WT1 and WIT1 deletions or LOH on 11p, and only 2 of the 27 tumors whose nonneoplastic normal tissues were available for study showed LOH limited to the 11p15 region. None of the 7 non-Wilms childhood renal tumors showed WT1 or WIT1 deletions, or LOH on 11p. These data suggest that Japanese Wilms tumors may be characterized by a higher incidence of the gross WT1 deletion and a lower incidence of LOH limited to the 11p15 region than the Caucasian counterparts. These molecular-genetic features may be contributing to the lower incidence of Wilms tumors in Japanese children than in Caucasian ones.
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PMID:Deletion of WT1 and WIT1 genes and loss of heterozygosity on chromosome 11p in Wilms tumors in Japan. 839 32

The APC gene was identified in 1991 at chromosome 5 q 21, which is responsible for the familial adenomatous polyposis (FAP). The gene has been classified as one of the tumor suppressor genes. The APC gene mutations were suggested to initiate sporadic as well as inherited colorectal neoplasia and to be related to mental retardation. The different forms of APC gene expression and their association to carcinogenesis have been carefully studied. However, the function of APC gene in the central nervous system has not been known. In this study, on the basis of the cDNA cloning of APC homologue in the guinea pig by Dr. Fan Meng, we rescued this fragment including the full length encoding region from plasmid pMe 18s and then subcloned it into the polylink site of the plasmid pBluscript KS. Both digoxigenin labeled sense and anti-sense RNA were synthesized by in vitro transcription. RNase protection assay and in situ hybridization enable us to examine the distribution of APC transcripts in guinea pig brain. Strong signals were detected in hippocampus. APC mRNA was mainly localized in the pyramidal neurons of CA 1, CA 3, as well as in the dentate granule cells; the cerebellum granular cells also showed strong staining; in the cerebrum, the parietal and primary olfactory cortex showed stronger signals than the frontal cortex; in olfactory bulb, positive cells with strong signals were observed: the brain stem showed a relatively weaker staining. Very similar expression pattern was also shown in embryonic guinea pig brain; except that the expression of APC gene in frontal cortex and olfactory bulb was stronger than that in adult animals. The results suggest that the APC transcripts in brain may play an important role during the early development of the central nervous system. Further study may enable us to take a deeper insight into the mechanism underlying inherited mental deficiency.
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PMID:[The distribution of tumor suppressor gene APC mRNA in guinea pig brain]. 857 9

The study of Wilms tumor-predisposing congenital syndromes has led to the identification of one tumor-suppressor gene, WT1, and to the localization of WT2. Molecular genetic analyses of these and sporadic Wilms tumors have clarified the role of WT1 in Wilms tumor with aniridia, genitourinary malformations, and mental retardation (WAGR)-syndrome patients, but much remains unclear in the case of WT2 and the Beckwith-Wiedemann syndrome. Loci on chromosomes 16q and 1p have now been implicated in the progression of Wilms tumor and may serve as molecular prognostic markers. It is now clear that Wilms tumors are genetically heterogeneous and may be multigenic in origin. Molecular analyses can now be used for genetic counseling in some children and may become useful in individualizing therapy.
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PMID:Molecular genetics of Wilms tumor. 859 61

Tuberous sclerosis (TSC) is an autosomal dominant disorder characterized by seizures, mental retardation, and hamartomatous lesions. Although hamartomas can occur in almost any organ, they are most common in the brain, kidney, heart, and skin. Allelic loss or loss of heterozygosity (LOH) in TSC lesions has previously been reported on chromosomes 16p13 and 9q34, the locations of the TSC2 and TSC1 genes, respectively, suggesting that the TSC genes act as tumor-suppressor genes. In our study, 87 lesions from 47 TSC patients were analyzed for LOH in the TSC1 and TSC2 chromosomal regions. Three findings resulted from this analysis. First, we confirmed that the TSC1 critical region is distal to D9S149. Second, we found LOH more frequently on chromosome 16p13 than on 9q34. Of the 28 patients with angiomyolipomas or rhabdomyomas, 16p13 LOH was detected in lesions from 12 (57%) of 21 informative patients, while 9q34 LOH was detected in lesions from only 1 patient (4%). This could indicate that TSC2 tumors are more likely than TSC1 tumors to require surgical resection or that TSC2 is more common than TSC1 in our patient population. It is also possible that small regions of 9q34 LOH were missed. Lastly, LOH was found in 56% of renal angiomyolipomas and cardiac rhabdomyormas but in only 4% of TSC brain lesions. This suggests that brain lesions can result from different pathogenic mechanisms than kidney and heart lesions.
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PMID:Allelic loss is frequent in tuberous sclerosis kidney lesions but rare in brain lesions. 875 27

The prevalence of all neurological disorders in a Japanese town was calculated, with a result of 91.1 per 1,000 population. The prevalence of cerebrovascular disease was 28.8; myelopathy and/or radiculopathy caused by deformity of the spine or disc herniation, 23.9; neuralgia, 11.5; dementia, 10.4; peripheral nerve disturbance, 5.5; epilepsy, 4.4; Parkinson's disease, 2.0; mental retardation, 2.9; brain/spinal tumor, 1.4; headache, 10.8, and vertigo/dizziness, 4.4. The prevalence of headache and vertigo/dizziness was also calculated from the results of the questionnaires sent to inhabitants: headache, 79.6, and vertigo/dizziness, 60.8. Neurological disorders are common in Japan and likely to continue to increase.
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PMID:Prevalence of neurological disorders in a Japanese town. 881 3

Sixty-eight children with malignant brain tumors were treated with the "8 in 1" chemotherapy protocol from 1986 to 1993 in Finland. The overall 5-year survival rate was 43%. Thirty-one children are still alive and tumor-free, and have been evaluated in the present study. Of these 31 children, 26% had hemi- or tetraplegia, 13% intractable seizures, and 30% attend special schools. The mean full scale (FS) IQ was 85 (range 45-138), 24% had an FSIQ value less than 70, and 36% more than 90. One-half of the survivors were placed in Bloom's group I or II, are able to lead an active life, and have only mild neurologic disabilities. In the other, neurologic late complications accumulated and these children were relegated to Bloom's group III or IV, with major disabilities such as hemiplegia, intractable epilepsy, or mental retardation. The most important prognostic factors were severe perioperative complications, young age at diagnosis, and cranial irradiation.
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PMID:Neuropsychologic late effects in children with malignant brain tumors treated with surgery, radiotherapy and "8 in 1" chemotherapy. 883 71

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