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)

Neuroblastoma (NB), primitive neuroectodermal tumor (PNET), Ewing's sarcoma and rhabdomyosarcoma (RMS) are solid malignant tumors in childhood. Microscopically these tumors are grouped as small-round-cell tumors, and a different diagnosis is sometimes difficult. Cell surface membrane antigen, cytoskeletal protein and N-myc amplification and over-expression were analyzed in these cell lines and tumor tissues for the accurate diagnosis. NB and PNET could be distinguished from Ewing's sarcoma and RMS by the panel of monoclonal antibodies against cell surface membrane antigens. The cytoskeletal protein analysis is useful for the diagnosis of RMS and leiomyosarcoma. Alpha-smooth muscle actin and/or desmin were demonstrated in the S-type (epithelial-like) cells in 3 NB cell lines, suggesting the differentiation pathway of NB into smooth muscle cells. N-myc amplification and over-expression were observed in NB cell lines as well as one RMS cell line. The occurrence of N-myc amplification and over-expression in the RMS cell line cautions us against using N-myc as a distinguishable marker for NB.
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PMID:[Analysis of surface membrane antigens, cytoskeletal proteins and N-myc oncogene in pediatric solid malignant tumors, their diagnostic usefulness and relevant problems]. 132 30

A human tumour cell line, designated RMS-YM, was established from a childhood rhabdomyosarcoma. The monolayer cells were polygonal, round or spindle-shaped. The cells became multilayered and formed many focal piles when confluent. RMS-YM became stable with a doubling time of about 30 h and has been maintained for 104 passages to date. Tumourigenicity of the cells was confirmed by heterotransplantation into nude mice. Morphological features were similar to those of the primary tumour, and myofibrils were found by electron microscopy. The expression of desmin and human myoglobin, and high levels of striated muscle system specific enzymes were recognised. Chromosomal analysis revealed possible gene amplification in the form of homogeneously staining regions. Oncogene analysis was performed on the primary tumour and the cell line, but neither N-myc nor N-ras genes were amplified, nor were Ki-ras, Ha-ras or N-ras genes mutated at the 12th, 13th and 61st codons. The RMS-YM cell line may provide a system to identify novel genes which are amplified in rhabdomyosarcoma.
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PMID:Cytogenetic and cellular characteristics of a human embryonal rhabdomyosarcoma cell line, RMS-YM. 190 91

Chromosome abnormalities found in pediatric solid tumors include deletions, translocations, homogeneously staining regions (hsr)/double minutes (dms), and ploidy abnormalities. The discovery of a 13q14 deletion found in lymphocytes of patients with retinoblastoma and developmental delay has led to the cloning of the retinoblastoma gene. Likewise the discovery of an 11p13 deletion in lymphocytes of patients with Wilms' tumor and aniridia has led to the cloning of the Wilms' tumor gene. Chromosome deletions found in tumor cells are considered to play a role on the homologous deletion of cancer suppressor genes. Recently, various translocations have been found mostly in soft tissue sarcomas; i.e. t(11;22) in Ewing's sarcoma, t(2;13) in alveolar rhabdomyosarcoma, t(3;8) in pleomorphic adenoma, t(3;12) in lipoma, t(12;16) in liposarcoma, t(12;14) in leiomyosarcoma, and t(X;18) in synovial sarcoma. These translocations provide important information on the difficult diagnosis of soft tissue sarcomas, and on the selection of chemotherapy protocol. Tumor cells in advanced stage neuroblastomas often show hsr/dms, in which N-myc amplification occurs. While near triploidy was regularly found in early-stage neuroblastomas, near-diploidy or near-tetraploidy was usually found in advanced stage tumors. Among various prognostic factors, N-myc copy numbers and tumor cell ploidies had the largest influence on the prognosis of neuroblastoma patients. Cytogenetic and molecular genetic analyses on tumor cells are becoming increasingly important for the diagnosis of pediatric solid tumors, and the prediction of the patients' prognosis.
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PMID:[Cytogenetics in pediatric solid tumors]. 217 98

A parent rhabdomyosarcoma cell line designated SCMC-RM2 was established from bone-marrow tumor cells taken from an 11-year-old girl with an embryonal rhabdomyosarcoma. Subsequently a cloned SCMC-RM2-1 cell line was isolated from a parent line. These cell lines grew as adherent monolayers in liquid culture with a doubling time of 50 and 52 hr, respectively. In addition, colonies were established in soft agar, which grew in a dose-dependent fashion with a cloning efficiency of 0.7 and 0.8%, respectively. Chromosomal analysis showed these cell lines had neither double minutes nor homogeneously staining regions. Chromosome number ranged from 61 to 93, translocation; t(9;13)(p22;q14) was identified, and no alteration of chromosome 2 was observed. Surface membrane antigen profile of parent and cloned lines by using a panel of 24 monoclonal antibodies (MAbs) excluded the possibility of these being neuroblastoma cell lines. In addition, MAbs to the cytoplasmic protein desmin, myoglobin, muscle actin (alpha and gamma) and alpha-sarcomeric actin reacted with these cell lines, SCMC-RM2 and SCMC-RM2-1 being thus identified as rhabdomyosarcoma. Southern blot analyses revealed 8- and 7-fold amplification of the N-myc gene in SCMC-RM2 and SCMC-RM2-1 as compared with the promyelocytic cell line HL60. Over-expression of the N-myc mRNA was noted over control cell lines.
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PMID:Characterization of an embryonal rhabdomyosarcoma cell line showing amplification and over-expression of the N-myc oncogene. 232 48

N-myc is a member of the myc oncogene family and has been thought to be specific to neurogenic cells, since it is amplified in some neuroblastomas, retinoblastomas and small-cell lung carcinomas with endocrine properties. Hybridization analyses of DNAs isolated from surgically removed tumors revealed that N-myc was amplified about 6-fold in one of the three embryonic rhabdomyosarcomas examined. The rhabdomyosarcoma containing the amplified N-myc had metastasized into bone marrow, which is preferentially involved in the metastasis of neuroblastomas but is usually not involved in the case of rhabdomyosarcomas. Since rhabdomyoblasts are derived from mesenchyme, this indicates that N-myc gene amplification is not restricted to neurogenic tumors.
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PMID:Amplification of N-myc in a rhabdomyosarcoma. 243 51

DNA was extracted from formalin-fixed and paraffin-embedded tissues of 85 patients with pediatric malignant solid tumors which had been resected at surgery or obtained at autopsy during a 24-year period. The tumors examined included 25 rhabdomyosarcomas, 12 Wilms' tumors, 10 hepatoblastomas and 37 neuroblastoma group tumors. Neuroblastoma group tumors were subclassified into 25 neuroblastomas and 12 ganglioneuroblastomas among which 6 composite ganglioneuroblastomas were included. Sample blocks were selected from both tumors and normal tissues in the majority of cases. We were able to reliably detect N- and c-myc gene amplification in tumor DNA by dot blot-hybridization. The N-myc gene showed approximately from 3- to 500-fold amplification in 19 of 33 cases of stage IV neuroblastoma group tumor. All of these 33 patients had been intensively treated with chemotherapy and/or radiotherapy. The c-myc was amplified 8-fold in 1 case of rhabdomyosarcoma, but neither N-myc nor c-myc was amplified in any cases of Wilms' tumor or hepatoblastoma. We retrospectively examined the association among N-myc gene amplification, prognosis, and histologic subtype in 33 patients with stage IV neuroblastoma group tumors. The survival of the patients with N-myc gene amplification was shorter than that of the patients without amplification of N-myc (p less than 0.05). There was no significant difference in prognosis between the 2 histologic subtypes; neuroblastoma and ganglioneuroblastoma, and the cases of tumors with amplified N-myc showed shorter survivals for each subtype (p less than 0.05). In every case of neuroblastoma group tumor, the copy number of the N-myc gene was the same among primary site and multiple metastatic tumors, even when the lesions showed differences in histologic subtype like neuroblastoma and ganglioneuroblastoma.
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PMID:Retrospective study on amplification of N-myc and c-myc genes in pediatric solid tumors and its association with prognosis and tumor differentiation. 341 33

Molecular and genetic analyses of tumor cell show that cellular oncogenes and suppressor genes are involved in neoplastic transformation. In pediatric tumors oncogenes as N-myc play an important role in the tumor progression. In retinoblastoma, neuroblastoma, Wilms' tumor, and rhabdomyosarcoma loss of heterozygosity for specific chromosome loci has been suggested to be a critical step in cancer development. Oncogene abnormalities can also be useful as a molecular tumor factor to foresee the prognosis of the disease. The present article is a review on the role of the oncogenes and suppressor genes in pediatric solid tumors.
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PMID:[Oncogenes and suppressor genes in the genesis and progression of solid tumors in children]. 797 41

Oncogenes are genes associated with causation of cancer. They were originally associated with the ability of retroviruses to cause tumors in animals. These viral oncogenes (V-onc) have their cellular counterparts (C-onc) called Proto oncogenes. Function of Proto oncogenes is to maintain cellular growth and development. Activation of these proto-oncogenes can occur due to mutation which leads to uncontrolled cell growth. The Proto oncogenes can be grouped into different categories based on their protein products, i.e. protein kinases, growth factors, growth factor receptors, and DNA binding proteins. There are also genes that normally suppress malignant transformation and these are called anti oncogenes. Loss of their suppressor activity leads to unimpeded growth. Oncogene abnormalities are seen in pediatric leukemias, lymphomas, and various solid tumors. Anti oncogenes are associated with retinoblastoma (Rb gene), Wilms' tumor, rhabdomyosarcoma and neuroblastoma, etc. Identification of these abnormalities have diagnostic, prognostic and therapeutic implications. The utility of oncogenes in classification of human cancer and monitoring cancer therapy is quite clear, but the future of these for therapeutic interventions remains uncertain. Role of c-abl oncogene in chronic myeloid leukemia (CML), bcl-2, in lymphomas, N-myc in neuroblastomas and retinoblastoma (Rb) gene in retinoblastomas is well understood and used in designing proper therapeutic approaches. Since oncogenes also control normal cellular function, their use for therapy may be limited by the amount of damage to normal cells. Their maximum therapeutic benefit may be realized only when used in combination with other modalities.
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PMID:Oncogenes: present status. 824 94

The effects of dexamethasone, a synthetic glucocorticoid, and of N,N-dimethylformamide on in vitro growth and differentiation and on proto-oncogene expression of human rhabdomyosarcoma cells were studied. RD/18 clone cells (derived from the embryonal rhabdomyosarcoma cell line RD) treated with 100 nM dexamethasone showed an almost complete block of differentiation: about 5% myosin-positive cells were observed after 2 weeks of culture in dexamethasone-supplemented differentiation medium, compared to 20% of untreated cultures. Dexamethasone also induced a 20-30% growth inhibition and a more flattened morphology. The treatment with N,N-dimethylformamide induced a significantly increased proportion of myosin-positive cells (reaching about 30%) and a 40% growth inhibition. Induction of differentiation inversely correlated with the levels of c-myc proto-oncogene expression: after a 2 week culture dexamethasone-treated cells showed the highest c-myc expression and N,N-dimethylformamide-treated cells the lowest. Culture conditions per se down-modulated c-erbB1 and up-regulated c-jun expression, with no relationship to the differentiation pattern. Other proto-oncogenes were not expressed (c-sis, N-myc, c-mos, c-myb) or were not modulated (c-fos, c-raf). Therefore dexamethasone and N,N-dimethylformamide, both causing a decreased growth rate, showed opposing actions on myogenic differentiation and on c-myc proto-oncogene expression of human rhabdomyosarcoma cells.
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PMID:Uncoupling of growth inhibition and differentiation in dexamethasone-treated human rhabdomyosarcoma cells. 847 24

There are major differences between tumors in children and adults, viz. the incidence of tumor types, the predisposition of certain organs and tissues (e.g. sympathetic nervous tissue, kidney, and soft tissues) to develop tumors, problems related to tumor classification, and the biologic behavior of childhood malignancies, which are usually characterized by high rates of proliferation activity. A large number of new entities, especially in soft tissue tumors, have been published over the past years, including nodular mesothelial hyperplasia, which is a tumor-like lesion derived from peritoneal macrophages; infantile myofibromatosis, which can mimic leiomyosarcoma; intermediate grade fibrohistiocytic tumors, like dermatofibrosarcoma protuberans-related giant-cell fibroblastoma, plexiform fibrohistiocytic tumor and angiomatoid malignant fibrous histiocytoma displaying evidence of myogeneous differentiation; finally, the high-grade intraabdominal desmoplastic small cell tumor. With modern methods we can gain better insights into the biology of tumors. For example, tumors of the Ewing's sarcoma family have in common a characteristic t(11; 22) chromosomal translocation, the Ewing's sarcoma (EWS) (22q12) gene rearrangement, and the MIC2 gene. The EWS gene rearrangement is not restricted to tumors of the Ewing's sarcoma family (classic Ewing's sarcoma and malignant peripheral neuroectodermal tumor), however, but occurs in malignant melanoma of the soft tissue and in intraabdominal desmoplastic small cell tumor. Rhabdomyosarcomas (RMS) can be divided into two basic types with different prognoses: embryonal RMS, including botryoid and spindle-cell variants, and alveolar RMS, including the solid variant. The prognosis of alveolar RMS is poorer than that of classic embryonal RMS, mainly due to early tumor dissemination in alveolar RMS. The prognosis of neuroblastoma is mainly based on chromosomal and molecular biologic findings. Structural chromosome 1 abnormalities, double minute chromosomes, homogeneously staining regions, N-myc amplifications, and DNA diploidy are indications for an unfavorable outcome. Despite progress in childhood solid tumor pathology, many questions remain open, including those relating to basic chromosomal defects in germ cell tumors and the obscure nature of tumor heterogeneity.
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PMID:New entities, concepts, and questions in childhood tumor pathology. 854 1


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