UMLS:C0035412 - FACTA Search

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

11p15.5 is an important tumor-suppressor gene region, showing loss of heterozygosity in Wilms tumor, rhabdomyosarcoma, adrenocortical carcinoma, and lung, ovarian, and breast cancer. We previously mapped directly by genetic complementation a subtransferable fragment (STF) harboring an embryonal tumor-suppressor gene and spanning about 2.5 Mb. We have now mapped the centromeric end of this STF between D11S988 and D11S12 and its telomeric end between D11S1318 and TH. We have isolated a complete contig of PAC, P1, BAC, and cosmid genomic clones spanning the entire 2.5-Mb region defined by this STF, as well as more than 200 exons from these genomic clones using exon trapping. We have isolated genes in this region by directly screening DNA libraries as well as by database searching for ESTs. Nine of these genes have been reported previously by us and by others. However, the initial mapping of most of those genes was based on FISH or somatic cell hybrid analysis, and here we precisely define their physical location. These genes include RRM1, GOK (D11S4896E), Nup98, CARS, hNAP2 (NAP1L4), p57KIP2 (CDKN1C), KVLQT1 (KCNA9), TAPA-1, and ASCL2. In addition, we have identified several novel genes in this region, three of which, termed TSSC1, TSSC2, and TSSC3, are reported here. TSSC1 shows homology to Rb-associated protein p48 and chromatin assembly factor CAF1, and it is located between GOK and Nup98. TSSC2 is homologous to Caenorhabditis elegans beta-mannosyl transferase, and it lies between Nup98 and CARS. TSSC3 shows homology to mouse TDAG51, which is implicated in FasL-mediated apoptosis, and it is located between hNAP2 and p57KIP2. Thus, these genes may play a role in malignancies that involve this region.
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PMID:A 2.5-Mb transcript map of a tumor-suppressing subchromosomal transferable fragment from 11p15.5, and isolation and sequence analysis of three novel genes. 940 53

Various chromosome 11 alterations have been described in rhabdomyosarcoma (RMS). Allelic losses of 11p15.5 are characteristic of embryonal RMS (eRMS), whereas an increase in the expression of the Igf2 gene located on 11p15.5 has regularly been observed in eRMS and alveolar RMS (aRMS). The aim of our study was to analyse chromosome 11 alterations of RMS by combining different molecular-genetic and cytogenetic methods. 16 RMSs (7 aRMS with proven 2;13 or 1;13 translocations, 9 eRMS) were studied by a PCR-based microsatellite analysis of loci 11p15.5 and 11q23. Comparative genomic hybridization (CGH) was performed in 8/16 cases. The ploidy status of chromosome 11 was evaluated using the FISH technique. A RT-PCR analysis of Igf2 gene region was performed to evaluate the imprinting status. Allelic losses (LOH) of 11p15.5 were observed in 4/7 aRMS and 8/9 eRMS. These losses were accompanied by LOH of 11q23 in 2/7 aRMS and 5/9 eRMS, respectively. CGH of all the eRMSs and one aRMS studied revealed gains of genetic material mostly involving the entire length of chromosome 11. One aRMS showed a loss of chromosome 11 material, both in CGH and LOH analysis. In 2/9 aRMS, which neither in CGH nor in LOH analysis had exhibited chromosome 11 alterations, biallelic IGF-II expression was revealed. Our results show that chromosome 11 alterations play a major role in the biology of both alveolar and eRMS. Combining the data of our study, we demonstrated that three different chromosome 11 alterations are involved in the tumorigenesis of RMS: 1) LOH resulting in hemizygosity of chromosome 11. 2) LOH with simultaneous gains of chromosome 11 material due to uniparental polysomy. 3) loss of imprinting for the Igf2 gene in the absence of gross chromosome 11 alterations.
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PMID:[Evidence of genetic alterations in chromosome 11 in embryonal and alveolar rhabdomyosarcoma]. 1009 36

We present three patients with variegated aneuploidy and premature centromere division (PCD), a rare chromosomal abnormality in humans. Comparison of these three and eight other patients with variegated aneuploidy related to PCD demonstrates a phenotype comprising most frequently microcephaly, CNS anomalies (with cerebellar affection and migration defects), mental retardation, pre-and postnatal growth retardation, flat and broad nasal bridge, apparently low-set ears, eye and skin abnormalities, and ambiguous genitalia in male patients. The occurrence of Wilms tumor in three patients, rhabdomyosarcoma in two others and acute leukemia in a fifth characterizes this condition as a chromosome or genome instability disorder with a high risk of malignancy. FISH studies in uncultured blood and buccal smear cells demonstrate that the random aneuploidies are not limited to cultured cells, but also occur in vivo.
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PMID:Variegated aneuploidy related to premature centromere division (PCD) is expressed in vivo and is a cancer-prone disease. 1116 58

The histological subtype of alveolar rhabdomyosarcoma (AR) is characterised by the cytogenetic translocation t(2;13)(q35;q14) in approximately 70% of cases, a rearrangement rarely present in the embryonal rhabdomyosarcoma (ER) subtype. The MYCN gene is amplified in some cases of AR. We present a young man with an unusual pattern, namely solid variant of AR with hypotetraploidy and the t(2;13) in an unbalanced form. The MYCN gene was not amplified on FISH, but showed increased copy number, consistent with ploidy.
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PMID:Solid variant of alveolar rhabdomyosarcoma with unbalanced t(2;13) and hypotetraploidy, without MYCN amplification. 1128 May 99

Soft tissue sarcomas constitute a heterogeneous group of malignant tumors of mesenchymal origin, the classification of which may present a diagnostic challenge. We present here the cytological, histopathological, immunohistochemical, and cytogenetic findings of an unusual case of a highly aggressive sarcoma. Based on the morphology and the immunohistochemical profile, this primitive tumor and its metastases could not be conclusively classified as any of the defined subtypes of sarcomas, although the findings were suggestive of a variant of rhabdomyosarcoma. Cytogenetic characterization using G-banding, SKY, FISH, and CGH revealed almost identical chromosomal compositions of the primary tumor and the metastasis. The hypertetraploid karyotype was characterized by numerical imbalances as well as by an unbalanced translocation t(1;19)(q12;q13.2), which has not been previously reported.
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PMID:A highly aggressive primitive mesenchymal tumor with a translocation (1;19)(q12;q13.2). 1142 51

Rhabdomyosarcoma has 2 major histological subtypes, embryonal and alveolar. Alveolar histology is associated with the fusion genes PAX3-FKHR and PAX7-FKHR. Definition of alveolar has been complicated by changes in terminology and subjectivity. It is currently unclear whether adverse clinical behaviour is better predicted by the presence of these fusion genes or by alveolar histology. We have determined the presence of the PAX3/7-FKHR fusion genes in 91 primary rhabdomyosarcoma tumours using a combination of classical cytogenetics, FISH and RT-PCR, with a view to determining the clinical characteristics of tumours with and without the characteristic translocations. There were 37 patients with t(2;13)/PAX3-FKHR, 8 with t(1;13) PAX7-FKHR and 46 with neither translocation. One or other of the characteristic translocations was found in 31/38 (82%) of alveolar cases. Univariate survival analysis revealed the presence of the translocation t(2;13)/PAX3-FKHR to be an adverse prognostic factor. With the difficulties in morphological diagnosis of alveolar rhabdomyosarcoma on increasingly used small needle biopsy specimens, these data suggest that molecular analysis for PAX3-FKHR will be a clinically useful tool in treatment stratification in the future. This hypothesis requires testing in a prospective study. Variant t(1;13)/PAX7-FKHR appears biologically different, occurring in younger patients with more localised disease.
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PMID:Detection of the PAX3-FKHR fusion gene in paediatric rhabdomyosarcoma: a reproducible predictor of outcome? 1155 33

Soft tissue sarcomas are rare and may be a source of problems for diagnosis and treatment. Four types of genetic disorders can be distinguished: translocations, gene amplifications, mutations and complex genetic imbalances. Detection of these disorders may help in diagnosis and in determining prognosis. Detection of specific translocation is recommended in synovial sarcoma, alveolar rhabdomyosarcoma or PNET diagnosis because of therapeutic consequences; in case of rarer histologic type (low grade fibromyxoid sarcoma, clear cell sarcoma, infantile fibrosarcoma...), it may confirm the diagnosis. In some cases, some translocations have a prognostic value (alveolar rhabdomyosarcoma) whereas it is discussed in others (synovial sarcoma). The techniques used to detect these translocations are very sensitive so it may be used to detect microscopical metastasis (bone marrow metastasis of alveolar rhabdomyosarcoma for example). Detection of MDM2 and CDK4 genes amplifications (FISH or quantitative PCR) may be sometimes useful in well differentiated and dedifferentiated liposarcomas diagnosis. Mutation detection of KIT or PDGFRA may help in GIST diagnosis and type of mutation is predictive of response to treatment. Study of complex genomic imbalances in sarcomas is not used in routine practice but remains useful in research.
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PMID:[Soft tissue sarcomas: update on molecular data]. 1644 27

The recognition that genetic defects identify some pediatric solid tumors and may represent prognostic markers has provided cytologists with an extra tool for dealing with such tumors. Using some entities as archetypes, we discuss the importance of the association of fine needle biopsy and genetics, in the diagnosis, prognosis, and therapy selection of solid pediatric tumors. Immunocytochemistry is important to differentiate neuroblastoma, PNET/Ewing sarcoma, alveolar rhabdomyosarcoma, lymphoma, and desmoplastic small round cell tumor. Despite its usefulness in many cases, it is not conclusive and some of the aforementioned tumors even share the expression of some antibodies. The detection of specific diagnostic translocations will thus provide additional information and allows a precise cytologic diagnosis. Kidney tumors are also frequent in children. Although no genetic abnormalities have been identified so far in nephroblastoma, other kidney tumors, such as mesoblastic nephroma, whose cytology pattern can masquerade nephroblastoma, are also characterized by specific translocations. Kidney tumors in children have also been associated recently with typical genetic alterations such as Xp11.2RCC. Concerning prognosis and therapy selection, neuroblastoma is a sort of paradigm. The identification of MYCN oncogene status as an independent prognostic factor is determinant, not only in the assessment of clinical evolution, but also in the identification of risk groups, and consequently in the appropriate therapy selection. Cytopathologists should be aware of the genetic alterations characterizing pediatric tumors in order to collect extra material to perform cytogenetics, FISH, PCR, and Southern blotting, to achieve the correct identification of such genetic changes.
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PMID:Fine needle biopsy and genetics, two allied weapons in the diagnosis, prognosis, and target therapeutics of solid pediatric tumors. 1867 57

The diagnosis of 17 small-cell round tumors of the bone and soft tissue, which were histologically similar to Ewing's sarcoma (EWS), was verified on paraffin sections, by using tissue microarray (TMA) technology, immunohistochemistry, cytogenetic (FISH) and molecular biological (RT-PCR) methods. Classical EWS was found to be in 8 patients, large-cell EWS in 1 patient; atypical EWS in 1, and endothelial ESW in 1. Two patients were diagnosed as having primitive neuroectodermal tumor (PNET), synovial sarcoma was present in 1 patient, embryonic rhabdomyosarcoma in 1, high-grade undifferentiated sarcoma in 1 and diffuse B-cell large-cell lymphoma in 1. TMA makes it possible to perform a number of diagnostic procedures on the same block containing a copious number of tumor samples and to assess the results of their use. It is emphasized that the diagnosis of small-cell round tumors requires the use of a package of the currently available methods providing the qualitative characteristics of each neoplasm.
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PMID:New approaches in the diagnosis of small-cell round tumors of bone and soft tissue. 1951 57

The fusion oncoproteins PAX3-FOXO1 [t(2;13)(q35;q14)] and PAX7-FOXO1 [t(1;13)(p36;q14)] typify alveolar rhabdomyosarcoma (ARMS); however, 20-30% of cases lack these specific translocations. In this study, cytogenetic and/or molecular characterization to include FISH, reverse transcription polymerase chain reaction (RT-PCR), and sequencing analyses of five rhabdomyosarcomas [four ARMS and one embryonal rhabdomyosarcoma (ERMS)] with novel, recurrent t(2;2)(p23;q35) or t(2;8)(q35;q13) revealed that these noncanonical translocations fuse PAX3 to NCOA1 or NCOA2, respectively. The PAX3-NCOA1 and PAX3-NCOA2 transcripts encode chimeric proteins composed of the paired-box and homeodomain DNA-binding domains of PAX3, and the CID domain, the Q-rich region, and the activation domain 2 (AD2) domain of NCOA1 or NCOA2. To investigate the biological function of these recurrent variant translocations, the coding regions of PAX3-NCOA1 and PAX3-NCOA2 cDNA constructs were introduced into expression vectors with tetracycline-regulated expression. Both fusion proteins showed transforming activity in the soft-agar assay. Deletion of the AD2 portion of the PAX3-NCOA fusion proteins reduced the transforming activity of each chimeric protein. Similarly, but with greater impact, CID domain deletion fully abrogated the transforming activity of the chimeric protein. These studies (1) expand our knowledge of PAX3 variant translocations in RMS with identification of a novel PAX3-NCOA2 fusion, (2) show that both PAX3-NCOA1 and PAX3-NCOA2 represent recurrent RMS rearrangements, (3) confirm the transforming activity of both translocation events and demonstrate the essentiality of intact AD2 and CID domains for optimal transforming activity, and (4) provide alternative approaches (FISH and RT-PCR) for detecting PAX-NCOA fusions in nondividing cells of RMS. The latter could potentially be used as aids in diagnostically challenging cases.
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PMID:Recurrent t(2;2) and t(2;8) translocations in rhabdomyosarcoma without the canonical PAX-FOXO1 fuse PAX3 to members of the nuclear receptor transcriptional coactivator family. 1995 35

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