Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0035412 (rhabdomyosarcoma)
6,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

p57KIP2 is a potent tight-binding inhibitor of several G1 cyclin complexes, and is a negative regulator of cell proliferation. The gene encoding human p57KIP2 is located on chromosome 11p15.5, a region implicated in both sporadic cancers and Beckwith-Wiedemann syndrome (BWS), a cancer syndrome, making it a tumor suppressor candidate. Several types of childhood tumors including Wilms' tumor, adrenocortical carcinoma and rhabdomyosarcoma display a specific loss of maternal 11p15 alleles, suggesting that genomic imprinting plays an important part. Genetic analysis of the familial BWS has indicated maternal carriers and suggested a role in genomic imprinting. Previously, we demonstrated that p57KIP2 is imprinted in the mouse. Here we describe the genomic imprinting of human p57KIP2 and the reduction of its expression in Wilms' tumors. High resolution mapping locates p57KIP2 in the region responsible for both tumor suppressivity and BWS.
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PMID:Genomic imprinting of human p57KIP2 and its reduced expression in Wilms' tumors. 877 93

p57KIP2 is a potent tight-binding inhibitor of several G1 cyclin/Cdk complexes, and is a negative regulator of cell proliferation. The gene encoding p57KIP2 is located at 11p15.5 (ref. 2), a region implicated in both sporadic cancers and Beckwith-Wiedemann syndrome, a cancer-predisposing syndrome, making it a tumour-suppressor candidate. Several types of childhood tumours including Wilms' tumour, adrenocortical carcinoma and rhabdomyosarcoma exhibit a specific loss of maternal 11p15 alleles, suggesting that genomic imprinting is involved. Genetic analysis of the Beckwith-Wiedemann syndrome indicated maternal carriers, as well as suggesting a role of genomic imprinting. Previously, we and others demonstrated that p57KIP2 is imprinted and that only the maternal allele is expressed in both mice and humans. Here we describe p57KIP2 mutations in patients with Beckwith-Wiedemann syndrome. Among nine patients we examined, two were heterozygous for different mutations in this gene-a missense mutation in the Cdk inhibitory domain resulting in loss of most of the protein, and a frameshift resulting in disruption of the QT domain. The missense mutation was transmitted from the patient's carrier mother, indicating that the expressed maternal allele was mutant and that the repressed paternal allele was normal. Consequently, little or no active p57KIP2 should exist and this probably causes the overgrowth in this BWS patient.
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PMID:An imprinted gene p57KIP2 is mutated in Beckwith-Wiedemann syndrome. 884 Nov 73

The expression of GOK, a gene recently identified at 11p15.5, was studied in breast cancer, rhabdomyosarcoma, and rhabdoid tumor cell lines. In these neoplasms, deletions at 11p15 and suppression of tumorigenicity induced by a normal human chromosome 11 were previously demonstrated. Whereas breast cancer cell lines express readily detectable levels of GOK mRNA, expression is absent in rhabdomyosarcoma and rhabdoid tumor cell lines. This is in contrast with the high expression of GOK in skeletal muscle, the normal tissue of origin of rhabdomyosarcomas, suggesting that down-regulation of GOK expression could be involved in tumor development. In agreement with this hypothesis, transfection of GOK cDNA into G401 derived from a rhabdoid tumor and RD cells derived from a rhabdomyosarcoma that do not express detectable levels of GOK mRNA, induced cell death. Because GOK expression is not compatible with growth of these tumor cells, these results support the hypothesis that loss of GOK expression plays a role in tumor establishment or progression and suggest that GOK may act as a recessive tumor suppressor gene in rhabdomyosarcomas and rhabdoid tumors. On the contrary, transfection of GOK cDNA into the breast cancer cell line HBL100 produced no detectable effects, indicating that the growth-suppressive effect of GOK in RD and G401 cells was specific. Because rhabdomyosarcomas have been observed in cases of Beckwith-Wiedemann syndrome, a genetic disorder linked to 11p15, a role of GOK in this disease cannot be excluded.
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PMID:GOK: a gene at 11p15 involved in rhabdomyosarcoma and rhabdoid tumor development. 937 59

Chromosome band 11p15.5 has proven to be an intriguing area of the human genome. Various studies have linked alterations in this region to growth-related disorders such as Beckwith-Wiedemann syndrome and a variety of human cancers. Furthermore, functional assays in G401 Wilms tumor cells and RD rhabdomyosarcoma cells support the existence of a tumor suppressor gene on 11p15.5, sometimes called WT2. In addition, several genes mapping to this region show imprinted expression, suggesting that 11p15.5 contains an imprinted domain. We have employed solution hybrid capture in combination with sequence analysis to identify 16 genes within the approximately 700-kb critical region of 11p15.5 between D11S601 and D11S1318. Two of these genes, NAP1L4 and KCNA9, had been previously reported. Ten novel transcripts were identified with partial cDNA sequences selected by solution hybrid capture. Sequence homology to known ESTs was used to identify the remaining gene transcripts. Interestingly, the tissue-specific mRNA expression of these genes correlates with the tumor types linked to this region. This work can be compiled into a transcript map, important in the elucidation of tumor suppressor activity on chromosome 11p15.5.
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PMID:Novel transcribed sequences within the BWS/WT2 region in 11p15.5: tissue-specific expression correlates with cancer type. 944 38

Chromosome region 11p15.5 harbors unidentified genes involved in neoplasms and in the genetic disease Beckwith-Wiedemann syndrome. The genetic analysis of a 170-kb region at 11p15.5 between loci D11S601 and D11S679 resulted in the identification of six transcriptional units. Three genes, hNAP2, CDKN1C, and KVLQT1, are well characterized, whereas three genes are novel. The three additional genes were designated BWR1A, BWR1B, and BWR1C. Full-length cDNAs for these three genes were cloned and nucleotide sequences were determined. While our work was in progress, BWR1C cDNA was described as IPL [Qian, N., Franck, D., O'Keefe, D., Dao, D. , Zhao, L., Yuan, L., Wang, Q., Keating, M., Walsh, C. & Tycko, B. (1997) Hum. Mol. Genet. 6, 2021-2029]. The cloning and mapping of these genes together with the fine mapping of the three known genes indicates that the transcriptional map of this region is likely to be complete. Because this region frequently is altered in neoplasms and in the genetic disease Beckwith-Wiedemann syndrome, we carried out a mutational analysis in tumor cell lines and Beckwith-Wiedemann syndrome samples that resulted in the identification of genetic alterations in the BWR1A gene: an insertion that introduced a stop codon in the breast cancer cell line BT549 and a point mutation in the rhabdomyosarcoma cell line TE125-T. These results indicate that BWR1A may play a role in tumorigenesis.
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PMID:Transcriptional map of 170-kb region at chromosome 11p15.5: identification and mutational analysis of the BWR1A gene reveals the presence of mutations in tumor samples. 952 Apr 60

Chromosome 11p15.5 harbors a gene or genes involved in Beckwith-Wiedemann syndrome that confer(s) susceptibility to Wilms' tumor, rhabdomyosarcoma, and hepatoblastoma. We have previously identified a transcript at 11p15.5 which encodes a putative membrane transport protein, designated organic cation transporter-like 2 (ORCTL2), that shares homology with tetracycline resistance proteins and bacterial multidrug resistance proteins. In this report, we have investigated the transport properties of ORCTL2 and show that this protein can confer resistance to chloroquine and quinidine when overexpressed in bacteria. Immunohistochemistry analyses performed with anti-ORCTL2 polyclonal antibodies on human renal sections indicate that ORCTL2 is localized on the apical membrane surface of the proximal tubules. These results suggest that ORCTL2 may play a role in the transport of chloroquine and quinidine related compounds in the kidney.
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PMID:Functional characterization of ORCTL2--an organic cation transporter expressed in the renal proximal tubules. 974 4

We applied the technique of comparative genomic hybridization (CGH) to a series of 16 hepatoblastomas. Our goals were (1) to identify all quantitative chromosome abnormalities that appear in this type of tumor and (2) to compare the results with data from similar studies on other tumors associated with the Beckwith-Wiedemann syndrome (BWS). We found that the most commonly detected (> 30%) chromosome abnormalities were gains of chromosomes 1, 2, 7, 8, and 17. Losses of chromosomes were found in only a few cases. On comparing our results with those from studies on the BWS-associated tumors, Wilms tumor and rhabdomyosarcoma, it became clear that three chromosome regions, namely, 7q, 8q, and 17q, were the ones most commonly involved in all three types of tumors. These regions, therefore, may harbor genes that play a role in the etiology of BWS-associated tumors in general.
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PMID:Comparative genomic hybridization analysis of hepatoblastomas: additional evidence for a genetic link with Wilms tumor and rhabdomyosarcoma. 1054 9

A specific subset of solid childhood tumors-Wilms' tumor, adrenocortical carcinoma, rhabdomyosarcoma, and hepatoblastoma-is characterized by its association with Beckwith-Wiedemann syndrome. Genetic abnormalities found in these tumors affect the same chromosome region (11p15), which has been implicated in the etiology of Beckwith-Wiedemann syndrome. This suggests that the development of these tumors occurs along a common genetic pathway involving chromosome 11. To search for additional common genetic pathways, this article reviews the genetic data published for these tumors. It was found that, up until now, the only genetic abnormalities detected in all four tumors affect chromosome band 11p15 and the TP53 gene. In addition, there are several aberrations that occur in two or three of the neoplasms. It is concluded that, of the four tumors, the genetic relationship is most evident between Wilms' tumor and rhabdomyosarcoma.
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PMID:Genetics of Beckwith-Wiedemann syndrome-associated tumors: common genetic pathways. 1073 97

Sporadic childhood tumors associated with Beckwith-Wiedemann syndrome (BWS) all show abnormalities of the same region on chromosome 11. In addition to chromosome 11, other chromosome regions are affected in some of these tumor types. In this study we analyzed the region on chromosome 1p involved in the etiology of BWS-associated tumors, Wilms tumor, rhabdomyosarcoma, and hepatoblastoma. For this purpose we determined the location of two novel translocation breakpoints in this chromosome region in cells from a Wilms tumor and cells from a rhabdomyosarcoma. We constructed a map of the region and found that both breakpoints are separated by at least 875 kb. We identified a PAC clone which crosses the rhabdomyosarcoma breakpoint and found several exons within this clone. We established that this breakpoint is located proximal to the PAX7 gene and, therefore, identified a new region involved in the etiology of rhabdomyosarcomas.
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PMID:Delineation and physical separation of novel translocation breakpoints on chromosome 1p in two genetically closely associated childhood tumors. 1082 13

Rhabdomyosarcoma (RMS) is a soft tissue tumor of childhood frequently diagnosed between the first and fifth year of life. Children with the Beckwith-Wiedemann syndrome (BWS), a congenital overgrowth syndrome characterized by exomphalos, macroglossia, and macrosomia, have an increased risk of developing childhood tumors including Wilms tumor, hepatoblastoma, neuroblastoma, and RMS. Although an association between RMS and the BWS is well accepted, only four cases have been reported to date, and of these, three were reported as embryonal RMS. Based on these data, an association between BWS and embryonal RMS has been proposed. We report three additional cases of BWS with RMS and review the clinical data for each patient as well as the pathology of their tumors. All three cases of BWS had histology consistent with alveolar RMS and were diagnosed at 6 weeks and 5 and 13 years of age. In two of these BWS cases, constitutional defects of 11p15 imprinting were demonstrated. Furthermore, cytogenetic analysis of the tumors did not detect the t(2;13) or t(1;13) translocations that generate the PAX3- or PAX7-FKHR fusion proteins common to alveolar RMS. These observations suggest that the development of alveolar RMS tumors in BWS may occur without the chromosomal rearrangement producing the PAX-FKHR fusion protein. In summary, we present three new cases of RMS demonstrating a new association between BWS and an uncommon subtype of alveolar RMS. The absence of the translocations commonly associated with alveolar rhabdomyosarcoma suggests a common 11p15 pathway for alveolar RMS and BWS.
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PMID:Association of alveolar rhabdomyosarcoma with the Beckwith-Wiedemann syndrome. 1182 61


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