UMLS:C0025362 - FACTA Search

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Query: UMLS:C0025362 (mental retardation)
15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 7-year-old boy with aniridia, Wilms' tumor, and mental retardation, previously reported as having an interstitial deletion of the short arm of chromosome 8 resulting from a t(8p+;11q-) translocation (Ladda et al., 1974), has been restudied using high-resolution trypsin-Giemsa banding of prometaphase chromsomes. The results revealed a complex rearrangement with four break points in 8p, 11p, and 11q, leading to a net loss of an interstitial segment of 11p (region p1407 yields p1304) but not of 8p. His red blood cells contained normal activities of glutathione reductase (gene on 8p) and lactate dehydrogeanse A (gene on 11p12), indicating a gene dosage consistent with the chromosomal findings. The revised interpretation of this case agrees with seven others reported as having aniridia and interstitial 11p deletions in establishing the distal half of band 11p13 as the site of gene(s) which lead to aniridia and predispose to Wilms' tumor if present in a hemizygous state. Possible relationships between heterozygous deletion of specific chromosomal bands 11p13 and 13q14 and the autosomal dominant disorders aniridia, Wilms' tumor, and retinoblastoma, respectively, are discussed.
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PMID:Aniridia-Wilms' tumor association: evidence for specific deletion of 11p13. 22 31

The genetic basis of retinoblastoma is reviewed and the following conclusions are drawn: 1) The mode of inheritance of the hereditary variety of retinoblastoma (R) is autosomal dominant with about 90% penetrance. 2) About 68% of inherited cases are bilateral, and about 32%, unilateral. There is an intrafamilial correlation between penetrance as measured by segregation ratio and expressivity as measured by the fraction of bilaterally affected patients. 3) The vast majority of all R patients are sporadic cases, i.e., they are the only affected members of otherwise unaffected families. The porportion of bilateral cases is much lower among sporadic than among hereditary cases. 4) All bilaterally affected patients with sporadic R and patients with unilateral sporadic R with more than one primary tumor have to be regarded as germ cell mutants; they will transmit the gene to 50% of their offspring. Only 10%-12% of unilateral sporadic cases are germ cell mutants; 88%-90% are nonhereditary; in these cases the tumor is probably caused by a somatic mutation. 5) In a minority of cases, deletion of the chromosome segment 13q14(=intersitital deletion of the long arm of chromosome 13) has been observed. In addition to R, the patients show a variable degree of general or mental retardation; often there are few external indications of a chromosome aberration. Other chromosome studies suggest anomalies of chromosome 13 in tumor tissue even in cases not showing an anomaly of this chromosome in blood cultures, and possibly a slightly increased chromosome instability. 6) Patients with bilateral, and possibly in general with hereditary, R run an increased risk of becoming affected with other tumor diseases, such as osseous sarcomas, in later life. 7) Knudson's hypothesis of two mutational steps leading to both the hereditary and the nonhereditary variants of R is discussed critically, and the alternative possibility is suggested that in the nonhereditary variant a single mutational step--possibly a small chromosome aberration--could be enough to produce a tumor. 8) Evidence indicating a possible viral origin of R is cited, and animal experiments are mentioned in which R-like tumors have successfully been produced by local DNA virus inoculation. 9) As a consequence of improved survival and reproduction of R patients, an increased in the incidence of R and in the proportion of bilateral cases among all R patients must be anticipated. 10) Detailed rules for genetic counseling in families affected by R are given.
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PMID:Genetics of retinoblastoma. 39 14

A girl with sporadic unilateral retinoblastoma and mental retardation has an interstitial deletion in the long arm of chromosome 13. Her mother has a paracentric inversion of one chromosome 13; the deleted chromosome 13 in the daughter is derived from the mother's normal chromosome 13.
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PMID:Retinoblastoma with 13q- chromosomal deletion associated with maternal paracentric inversion of 13q. 42 28

A partial monosomy 13 by interstitial deletion was found in the complement of two patients with mental retardation and mild dysmorphic features. Neither of the patients had a retinoblastoma, even though the second patient had a 13q14 deletion. The karyotype-phenotype correlation in the two patients suggests the need to reconsider the clinical profile of these rare chromosomal syndromes in a large series of subjects.
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PMID:Interstitial deletion 13q syndromes: a report on two unrelated patients. 53 87

The interstitial deletion of a segment of chromosome 13, 13q21 leads to 13q22, and its inversion and insertion into the long arm of chromosome 3 at breakpoint q12, was found to segregate in 3 generations of a family. Segregation of this 3 break rearrangement gave rise to individuals monosomic, trisomic, or balanced for the involved segment. Monosomy for 13q21 leads to 13q22 was associated with mental retardation, expressive aphasia, microcephaly, hand abnormalities, and short stature. Partially trisomic individuals had normal mentality, extremely high arched palate, and mild dysmorphic features. There was no evidence for retinoblastoma in the individuals examined. The balanced carriers were normal. Comparison of monosomic individuals with one previous report of a similar deletion reveals marked phenotypic similarities.
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PMID:Segregation of an insertional chromosome rearrangement in 3 generations. 73 29

This annotation has been confined to well-established clinical syndromes with recently discovered chromosomal etiologies. It deliberately omits retinoblastoma, the oft-cited paradigm of a contiguous gene syndrome, since it is usually inherited as a Mendelian single gene disorder. However, it was recognition of both the deletion of band q14 of chromosome 13 in mentally retarded children with retinoblastoma, and the linkage of retinoblastoma with the genetic marker esterase D, which resulted in the eventual cloning of the gene. Also omitted are microdeletions of the X chromosome. These disorders are seen primarily in males, who manifest the phenotypic effects of the deletion of the loci of various combinations of adjacent genes: Duchenne muscular dystrophy, glycerol kinase deficiency, adrenal hypoplasia, optic albinism, hypogonadotropic hypogonadism and anosmia (Kallman syndrome), chondrodysplasia punctata and ichthyosis. Many are also mentally retarded. The third group omitted are Mendelian disorders occurring with atypical mental retardation (not usually part of the disorder), the presumption being that they include small deletions. It is expected that other contiguous gene syndromes will be recognized eventually; Rubinstein-Taybi and Cornelia de Lange syndromes are prime candidates. Why do deletions have such dramatic consequences when a normal homologue of the region is present? If their effects were due to the uncovering of recessive genes, we would expect to see greater variations in phenotype among carriers, including normal individuals whose deletions were masked by the protective effects of dominant alleles in the homologous regions. Imprinting--the 'stamping' of a gene as it passes through the germ line--provides a more satisfactory explanation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Old syndromes and new cytogenetics. 222 45

The authors have analysed the esterase-D levels in 500 retinoblastoma patients of whom 15 showed red cell enzyme activities of approximately 50% that of normal controls. Chromosome analysis of these 15 patients confirmed the presence of a deletion involving region 13q14 in all cases. Seven of the 15 cases had not previously been diagnosed and all of these showed sub-band deletions within 13q14. None of these seven patients were mentally retarded although the remaining eight who showed larger chromosome deletions demonstrated the full spectrum of psychomotor abnormalities associated with 13q deletions. Two other mentally retarded retinoblastoma patients with normal esterase-D activity showed no karyotypic abnormality, demonstrating that mental retardation cannot be taken to indicate a chromosome deletion in all cases. Eight of the 15 deletion cases were only unilaterally affected. The data presented in this article suggest that esterase-D quantitation could provide the primary means of detection of chromosome deletions in retinoblastoma patients.
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PMID:Genetic and cytogenetic analysis of patients showing reduced esterase-D levels and mental retardation from a survey of 500 individuals with retinoblastoma. 277 82

Wilms' tumour of the kidney usually occurs sporadically, but can also segregate as an autosomal dominant trait with incomplete penetrance. Patients with the WAGR syndrome of aniridia, genitourinary anomalies, mental retardation and high risk of Wilms' tumour have overlapping deletions of chromosome 11p13 which has suggested a possible location for a Wilms' tumour locus. Moreover, many sporadic tumours have lost a portion of chromosome 11p. A second locus at 11p15 is implicated by association of the tumour with the Wiedemann-Beckwith syndrome and by tumour-specific losses of chromosome 11 confined to 11p15. Here we report a multipoint linkage analysis of a family segregating for Wilms' tumour, using polymorphic DNA markers mapped to chromosome 11p. The results exclude the predisposing mutation from both locations. In a second family, the 11p15 alleles lost in the tumour were derived from the affected parent, thus precluding this region as the location of the inherited mutation. These findings imply an aetiological heterogeneity for Wilms' tumour and raise questions concerning the general applicability of the carcinogenesis model that has been useful in the understanding of retinoblastoma.
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PMID:Familial predisposition to Wilms' tumour does not map to the short arm of chromosome 11. 284 99

One in 10,000 children develops Wilms' tumour, an embryonal malignancy of the kidney. Although most Wilms' tumours are sporadic, a genetic predisposition is associated with aniridia, genito-urinary malformations and mental retardation (the WAGR syndrome). Patients with this syndrome typically exhibit constitutional deletions involving band p13 of one chromosome 11 homologue. It is likely that these deletions overlap a cluster of separate but closely linked genes that control the development of the kidney, iris and urogenital tract (the WAGR complex). A discrete aniridia locus, in particular, has been defined within this chromosomal segment by a reciprocal translocation, transmitted through three generations, which interrupts 11p13. In addition, the specific loss of chromosome 11p alleles in sporadic Wilms' tumours has been demonstrated, suggesting that the WAGR complex includes a recessive oncogene, analogous to the retinoblastoma locus on chromosome 13. In WAGR patients, the inherited 11p deletion is thought to represent the first of two events required for the initiation of a Wilms' tumour, as suggested by Knudson from epidemiological data. We have now isolated the deleted chromosomes 11 from four WAGR patients in hamster-human somatic cell hybrids, and have tested genomic DNA from the hybrids with chromosome 11-specific probes. We show that 4 of 31 markers are deleted in at least one patient, but that of these markers, only the gene encoding the beta-subunit of follicle-stimulating hormone (FSHB) is deleted in all four patients. Our results demonstrate close physical linkage between FSHB and the WAGR locus, suggest a gene order for the four deleted markers and exclude other markers tested from this region. In hybrids prepared from a balanced translocation carrier with familial aniridia, the four markers segregate into proximal and distal groups. The translocation breakpoint, which identifies the position of the aniridia gene on 11p, is immediately proximal to FSHB, in the interval between FSHB and the catalase gene.
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PMID:The beta-subunit of follicle-stimulating hormone is deleted in patients with aniridia and Wilms' tumour, allowing a further definition of the WAGR locus. 301 43

High resolution prometaphase chromosome banding has allowed the detection of discrete chromosome aberrations which escaped earlier metaphase examinations. Consistent tiny deletions have been detected in some well established malformation syndromes: an interstitial deletion in 15q11/12 in the majority of patients with the Prader-Willi syndrome and in a minority of patients with the Angelman (happy puppet) syndrome; a terminal deletion of 17p13.3 in most patients examined with the Miller-Dieker syndrome; an interstitial deletion of 8q23.3/24.1 in a large majority of patients with the Giedion-Langer syndrome; an interstitial deletion of 11p13 in virtually all patients with the WAGR (Wilms' tumour-aniridia-gonadoblastoma-retardation) syndrome; and an interstitial deletion in 22q11 in about one third of patients with the DiGeorge sequence. In addition, a combination of chromosome prometaphase banding and DNA marker studies has allowed the localisation of the genes for retinoblastoma and for Wilms' tumour and the clarification of both the autosomal recessive nature of the mutation and the possible somatic mutations by which the normal allele can be lost in retina and kidney cells. After a number of X linked genes had been mapped, discrete deletions in the X chromosome were detected by prometaphase banding with specific attention paid to the sites of the gene(s) in males who had from one to up to four different X linked disorders plus mental retardation. Furthermore, the detection of balanced translocations in probands with disorders caused by autosomal dominant or X linked genes has allowed a better insight into the localisation of these genes. In some females with X linked disorders, balanced X; autosomal translocations have allowed the localisation of X linked genes at the breakpoint on the X chromosome. Balanced autosome; autosome translocations segregating with autosomal dominant conditions have provided some clues to the gene location of these conditions. In two conditions, Greig cephalopolysyndactyly and dominant aniridia, two translocation families with one common breakpoint have allowed quite a confident location of the genes at the common breakpoint at 7p13 and 11p13, respectively.
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PMID:Microdeletion syndromes, balanced translocations, and gene mapping. 305 93

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