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)

A child with an unusual association of cancers is described. The patient first presented with a rhabdomyosarcoma of the right scapular muscle, and was successfully treated with chemotherapy. Six years after diagnosis of the first malignancy, the child presented with two synchronous malignancies: osteosarcoma of the jaw and adrenocortical carcinoma. Genetic mutation analysis was performed and revealed a germline p53 mutation of CGT > CAT at codon 273. The family history was negative for any other cancer consistent with the Li-Fraumeni syndrome. This case highlights the need for close surveillance of patients with p53 mutation for malignancy and describes the occurrence of two malignancies synchronously.
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PMID:Rhabdomyosarcoma, osteosarcoma, and adrenocortical carcinoma in a child with a germline p53 mutation. 1539 Feb 94

Rhabdomyosarcoma (RMS) is a highly malignant tumor that is histologically related to skeletal muscle, yet genetic and molecular lesions underlying its genesis and progression remain largely unknown. In this study we have compared the molecular profiles of two different mouse models of RMS, each associated with a defined primary genetic defect known to play a role in rhabdomyosarcomagenesis in man. We report that RMS of heterozygous Patched1 (Ptch1) mice show less aggressive growth and a greater degree of differentiation than RMS of heterozygous p53 mice. By means of cDNA microarray analysis we demonstrate that RMS in Ptch1 mutants predominantly express a number of myogenic markers, including myogenic differentiation 1, myosin heavy chain, actin, troponin and tropomyosin, as well as genes associated with Hedgehog/Patched signaling like insulin-like growth factor 2, forkhead box gene Foxf1 and the growth arrest and DNA-damage-inducible gene Gadd45a. In sharp contrast, RMS in p53 mutants display higher expression levels of cell cycle-associated genes like cyclin B1, cyclin-dependent kinase 4 and the proliferation marker Ki-67. These results demonstrate that different causative mutations lead to distinct gene expression profiles in RMS, which appear to reflect their different biological characteristics. Our results provide a first step towards a molecular classification of different forms of RMS. If the described differences can be confirmed in human RMS our results will contribute to a new molecular taxonomy of this cancer, which will be critical for gene mutation- and expression-specific therapy.
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PMID:Profiling the molecular difference between Patched- and p53-dependent rhabdomyosarcoma. 1548 Apr 23

Carcinosarcoma of the esophagus is a rare tumor with a distinct pathological entity having squamous cell carcinoma as the most described carcinomatous component. This paper reports the first case of carcinosarcoma of the esophagus that showed predominant basaloid squamous carcinoma component in addition to squamous cell carcinoma and poorly differentiated carcinoma and sarcoma component. A 64-year-old male patient consulted for dysphasia and chest pain was examined and found to have gastrointestinal fiber-endoscope and a polypoid growth in the lower third of the esophagus. Partial esophagectomy was performed and the excised tumor showed histological features of carcinosarcoma with heterogeneous carcinomatous components with dominance of basaloid squamous carcinoma and minority of squamous cell carcinoma, poorly differentiated carcinoma, and sarcomatous component, immunohistochemically proven to be rhabdomyosarcoma. Immunohistochemical study and TP53 mutation analysis was carried out to explain the histogenesis of this rare tumor. The distinct immunohistochemical profiles of the carcinomatous and sarcomatous components suggested the possibility of transition from a carcinomatous to a sarcomatous component. The similar TP53 mutation in the carcinomatous and sarcomatous component suggested each of these components had the same origin, that is, the tumor was monoclonal in origin.
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PMID:Esophageal carcinosarcoma with basaloid squamous carcinoma and rhabdomyosarcoma components with TP53 mutation. 1548 72

Vaccines effectively prevent the onset of tumors in transgenic mice carrying activated oncogenes; however, human tumors are caused by combined alterations in oncogenes and oncosuppressor genes. We evaluated the impact of prophylactic vaccines in HER-2/neu transgenic, p53 wild-type/null mice that succumb to an aggressive cancer syndrome comprising mammary and salivary gland carcinomas and rhabdomyosarcoma. A vaccine made of allogeneic mammary carcinoma cells expressing HER-2/neu and interleukin 12 afforded long-term protection from tumor onset. Tumor prevention was mediated by T cell-derived cytokines, in particular gamma-interferon, and by anti-HER-2/neu antibodies. HER-2/neu expression was inhibited in target tissues of vaccinated mice, and somatic loss of the wild-type p53 allele did not occur. A highly effective vaccine against a single oncoprotein induced a powerful immune response that arrested multistep carcinogenesis in distinct target tissues.
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PMID:Immunological prevention of a multigene cancer syndrome. 1554 14

Li-Fraumeni syndrome and the LF-like syndrome, rare heritable conditions that predispose to the development of malignancy, are associated with germline mutations of the tumor suppressor gene p53. The authors describe a 14-month-old boy who presented with synchronous rhabdomyosarcoma and adrenal cortical carcinoma and a novel mutation of the p53 gene. Analysis of exons 2 through 11 of the p53 gene using the polymerase chain reaction and DNA sequencing revealed a mutation of codon 273. Although codon 273 is a known hotspot region for p53 mutation, the patient's mutation, R273H, has not been associated with development of adrenal cortical carcinoma.
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PMID:Germline p53 mutation presenting as synchronous tumors. 1609 28

Glutamate antagonists limit the growth of human cancers in vitro. The mechanism of anticancer action of NMDA antagonists is not known, however. In this article, we report that the NMDA antagonist dizocilpine inhibits the extracellular signal-regulated kinase 1/2 pathway, an intracellular signaling cascade that is activated by growth factors and controls the proliferation of cancer cells. Dizocilpine reduces the phosphorylation of cAMP-responsive element binding protein, suppresses the expression of cyclin D1, up-regulates the cell cycle regulators and tumor suppressor proteins p21 and p53, and increases the number of lung adenocarcinoma cells in the G(2) and S phases of the cell cycle. Silencing of the tumor suppressor protein p21 abolishes antiproliferative action of dizocilpine. Consistent with inhibition of the extracellular signal-regulated kinase 1/2-signaling cascade, dizocilpine reverses the stimulation of proliferation induced by epidermal, insulin, and basic fibroblast growth factors in lung adenocarcinoma cells. Furthermore, dizocilpine prolongs the survival of mice with metastatic lung adenocarcinoma and slows the growth of neuroblastoma and rhabdomyosarcoma in mice. These findings reveal the mechanism of antiproliferative action of dizocilpine and indicate that it may be useful in the therapy of human cancers.
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PMID:NMDA antagonist inhibits the extracellular signal-regulated kinase pathway and suppresses cancer growth. 1623 Jun 11

Rhabdomyosarcoma (RMS) is the most common soft tissue neoplasm of children, and those metastatic at presentation have a poor prognosis. RMS development is related to defective skeletal muscle differentiation, involving a variety of cell signaling and transcriptional control pathways, including aberrant hedgehog signaling. Here we evaluate Fem1a, a gene highly expressed in skeletal muscle, as a candidate for involvement in RMS. Fem1a is a homolog of fem-1, which controls cell fate decisions in the sex determination pathway of Caenorhabditis elegans, a pathway with homology to mammalian hedgehog signaling. We show that Fem1a expression is activated during myocyte differentiation of C2C12 myoblasts, and this expression is largely confined to the terminally differentiating pool, not to the satellite-cell-like quiescent reserve cell pool. We find that the human homolog, FEM1A, is downregulated in all of 8 different human RMS cell lines, including those derived from embryonal and alveolar RMS. Using mouse genetic models of RMS development, we further show that Fem1a is consistently downregulated in primary RMS from Ptch1+/- mice, from p53-/- mice, from p53+/-; Ptch1+/- mice, and from HGF/SF-Ink4a/Arf-/- mice. Therefore, Fem1a downregulation may be involved in, and/or a marker of, an early cell fate defect fundamental to RMS pathogenesis.
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PMID:The Fem1a gene is downregulated in Rhabdomyosarcoma. 1625 58

The E1A-targeted transcription factor E4F1 is a key player in the control of mammalian embryonic and somatic cell proliferation and survival. Mouse embryos lacking E4F die at an early developmental stage, whereas enforced expression of E4F1 in various cell lines inhibits cell cycle progression. E4F1-antiproliferative effects have been shown to depend on its capacity to repress transcription and to interact with pRb and p53. Here we show that full-length E4F1 protein (p120(E4F1)) but not its E1A-activated and truncated form (p50(E4F1)), interacts directly in vitro and in vivo with the LIM-only protein FHL2, the product of the p53-responsive gene FHL2/DRAL (downregulated in rhabdomyosarcoma Lim protein). This E4F1-FHL2 association occurs in the nuclear compartment and inhibits the capacity of E4F1 to block cell proliferation. Consistent with this effect, ectopic expression of FHL2 inhibits E4F1 repressive effects on transcription and correlates with a reduction of nuclear E4F1-p53 complexes. Overall, these results suggest that FHL2/DRAL is an inhibitor of E4F1 activity. Finally, we show that endogenous E4F1-FHL2 complexes form in U2OS cells upon UV-light-induced nuclear accumulation of FHL2.
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PMID:The LIM-only protein FHL2 is a negative regulator of E4F1. 1665 57

Rhabdomyosarcoma is the most common soft tissue sarcoma in children, yet the genetic changes causing this disease are poorly understood. The Fos protein, a major component of the AP-1 transcription factor, is essential for osteoclast differentiation, acts as an oncogene, potentiates transforming signals and controls invasive growth and angiogenesis during tumor progression. To genetically investigate a potential interaction between the p53 and Fos pathways, Trp53/Fos double knock-out mice were generated. These mice develop highly proliferative and invasive rhabdomyosarcomas of the facial and orbital regions with more than 90% penetrance at 6 months of age. Expression of Fos in Trp53/Fos mutant rhabdomyosarcoma cell lines established from primary tumors is associated with enhanced apoptosis and downregulation of Pax7 expression. Our results show that Trp53/Fos double knock-out mice recapitulate major aspects of human rhabdomyosarcoma development and therefore provide a mouse model for the human disease. Furthermore, this study identifies a novel and unexpected tumor suppressive function of the Fos proto-oncogene.
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PMID:[Rhabdomyosarcoma development in Trp53/fos mutant mice: tumor suppressor functions of the Fos protooncogene]. 1689 56

Hypoxia inducible factor-1 (HIF-1) is the major transcription factor and key regulator of adoptive responses to hypoxia. Although it usually promotes tumor cell survival under hypoxia, it has also been implied to trigger apoptosis. Although the impact of hypoxia has been extensively studied in many adult solid tumors, its role in most childhood tumors, for example, in rhabdomyosarcoma (RMS) or Ewing sarcoma (ES), has not yet been addressed. Here, we report that hypoxia protects A204 RMS and A673 ES cells against anticancer drug- or tumor necrosis factor-related apoptosis-inducing ligand-induced apoptosis and that Hif-1alpha plays a key role in conferring apoptosis resistance under hypoxia. Although a functional HIF-1 pathway and proapoptotic proteins such as p53 and Bcl-2/E1B 19 kDa interacting protein 3 were activated under hypoxia in both A204 RMS and A673 ES cells, these cells remained refractory to apoptosis. Concomitant analysis of antiapoptotic proteins revealed that hypoxia induced expression of Bcl-2 and inhibitor of apoptosis proteins (IAP)-2 as well as proteins associated with anaerobic metabolism such as the glucose transporter protein GLUT-1 and the glycolytic enzyme Aldolase A. Specific downregulation of Hif-1alpha by RNA interference significantly enhanced apoptosis under hypoxia by preventing the hypoxia-mediated increase in GLUT-1 expression without altering expression levels of the antiapoptotic proteins Bcl-2 or cIAP-2. Moreover, glucose deprivation-induced apoptosis of A204 RMS and A673 ES cells was inhibited under hypoxic conditions in a Hif-1alpha-dependent manner. As GLUT-1 was induced via Hif-1alpha under hypoxia in A204 RMS and A673 ES, these findings suggest that the Hif-1alpha-mediated increase in glucose uptake plays an important role in conferring apoptosis resistance. Thus, hypoxia-inducible genes may represent novel targets for therapeutic intervention in some pediatric tumors, which warrants further investigation.
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PMID:Role of hypoxia inducible factor-1 alpha in modulation of apoptosis resistance. 1704 58

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