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Query: UMLS:C0035412 (
rhabdomyosarcoma
)
6,156
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The levels of peripheral progenitor cells was measured serially after cancer chemotherapy in 4 patients with non-Hodgkin's lymphoma and one patient with
rhabdomyosarcoma
who received recombinant human granulocyte colony-stimulating factor (rG-CSF). This study was composed of two independent phases: in the first phase, patients received a course of cytotoxic chemotherapy only, and in the second phase, they received the same chemotherapy followed by subcutaneous injection of rG-CSF (2 micrograms/kg/day) for 10-14 days. In the control phase, the levels of granulocyte-macrophage colony-forming units (CFU-GM) and
erythroid
burst-forming units (BFU-E) per milliliter increased during the early recovery phase, but rG-CSF treatment increased the number of CFU-GM 3 to 18-folds, and the number of BFU-E increased 1.3 to 4.6-folds. An overshoot in the blood progenitor levels occurred at the day 8-10 of rG-CSF administration. And then, the peak of neutrophil count followed 3-5 days later. After the discontinuation of rG-CSF, the number of blood CFU-GM and BFU-E fell rapidly. This results suggest that in vivo expansion of circulating hemopoietic progenitors can be achieved by the administration of rG-CSF, and this approach might be clinically applicable to cancer patients who are a candidate of peripheral blood stem cell autotransplantation.
...
PMID:[Expansion of peripheral blood progenitors by recombinant human granulocyte colony-stimulating factor]. 170
We describe the molecular cloning of an anemogenic feline leukemia virus (FeLV), FeLV-C-Sarma, from the productively infected human
rhabdomyosarcoma
cell line RD(FeLV-C-S). Molecularly cloned FeLV-C-S proviral DNA yielded infectious virus (mcFeLV-C-S) after transfection of mammalian cells, and virus interference studies using transfection-derived virus demonstrated that our clone encodes FeLV belonging to the C subgroup. mcFeLV-C-S did not induce viremia in eight 8-week-old outbred specific-pathogen-free (SPF) cats. It did, however, induce viremia and a rapid, fatal aplastic anemia due to profound suppression of
erythroid
stem cell growth in 9 of 10 inoculated newborn, SPF cats within 3 to 8 weeks (21 to 58 days) postinoculation. Thus, the genome of mcFeLV-C-S encodes the determinants responsible for the genetically dominant induction of irreversible
erythroid
aplasia in outbred cats. A potential clue to the pathogenic determinants of this virus comes from previous work indicating that all FeLV isolates belonging to the C subgroup, an envelop-gene-determined property, and only those belonging to the C subgroup, are potent, consistent inducers of aplastic anemia in cats. To approach the molecular mechanism underlying the induction of this disease, we first determined the nucleotide sequence of the envelope genes and 3' long terminal repeat of FeLV-C-S and compared it with that of FeLV-B-Gardner-Arnstein (mcFeLV-B-GA), a subgroup-B feline leukemia virus that consistently induces a different disease, myelodysplastic anemia, in neonatal SPF cats. Our analysis revealed that the p15E genes and long terminal repeats of the two FeLV strains are highly homologous, whereas there are major differences in the gp70 proteins, including five regions of significant amino acid differences and apparent sequence substitution. Some of these changes are also reflected in predicted glycosylation sites; the gp70 protein of FeLV-B-GA has 11 potential glycosylation sites, only 8 of which are present in FeLV-C-S.
...
PMID:Molecular analysis and pathogenesis of the feline aplastic anemia retrovirus, feline leukemia virus C-Sarma. 301 87
RANTES is a member of a large supergene family of pro-inflammatory cytokines called CC chemokines that appear to play a fundamental role in inflammatory processes. The RANTES protein causes release of histamine from basophils and is a chemoattractant for CD45RO/CD4+ "memory" T lymphocytes, monocytes, and eosinophils. Although expression of RANTES was first thought to be limited to activated T cells, recent data have shown that it is produced by a variety of tissue types in response to specific stimuli. RANTES mRNA is expressed late (3 to 5 days) after activation of resting T cells whereas in fibroblasts, renal epithelial and mesangial cells, RANTES mRNA is quickly up-regulated by TNF-alpha stimulation. In order to gain a better understanding of the molecular mechanisms that regulate expression of the RANTES locus, we have characterized the RANTES gene and determined a putative promoter region. The RANTES gene spans approximately 7.1 kb and is composed of three exons of 133, 112 and 1075 bases and two introns of approximately 1.4 and 4.4 kb with the position of intron/exon boundaries conserved relative to the other CC chemokine family members. Approximately 1 kb of DNA from the immediate 5' upstream region of RANTES was sequenced and found to contain a large number of potential consensus elements for specific T cell/hemopoietic, myeloid, muscle, and ubiquitously expressed DNA-binding factors. RANTES-promoter-luciferase gene fusion assays demonstrate high levels of reporter gene activity in a "mature" T cell line Hut78, the erythroleukemic cell line HEL, and the
rhabdomyosarcoma
cell line RD, with little or no activity in the "early" T cell line Jurkat, the gamma delta T cell line PEER, the thymic tumor Molt4, or the pre-
erythroid
cell line K562. Deletion analysis of the promoter region indicates that different transcriptional mechanisms control expression of RANTES in the various tissues studied.
...
PMID:Genomic organization and transcriptional regulation of the RANTES chemokine gene. 768 10
We have recently observed that many of our sarcoma patients presented also with thyroid disorders. Literature data are almost unavailable on this topic. The relationship between the sarcoma and thyroid disorders is examined. Retrospective analysis of files of patients with sarcoma and clinically overt thyroid disorders was carried out. Of the 375 patients with soft tissue sarcomas (STS) and 235 with bone sarcoma (BS) including small blue round cell tumors (SBRC), 28 patients (4.6%) had an associated significant thyroid disorder. The types of sarcoma were mainly liposarcoma followed by malignant fibrous histiocytoma, leiomyosarcoma and bone sarcoma. The primary sites were mainly limb and trunk. The interval between the diagnosis of the thyroid disorder and the sarcoma varied between -14 years (thyroid first) and +16.5 years (thyroid later) with a median of -0.2 years. Thyroid disorders included goiter, thyroiditis and carcinoma. There are both basic-science and clinical evidence to a possible common pathway that leads to the association between overt thyroid disorders and sarcomas of bone or soft tissues. Oncogene erbA activity is related to thyroid receptors to T3 and to development of sarcoma. Cross talk of the sarcoma oncogene and the erbA might contribute to the development of sarcoma. The thyroid hormone receptor and the highly related viral oncoprotein v-erbA are found exclusively in the nucleus as stable constituents of chromatin. It has been shown that v-erbA can block the spontaneous differentiation in
erythroid
cells transformed by various retroviral oncogenes. V-erbA can alter the spectrum of neoplasia induced by the v-src oncogene, which causes predominantly sarcomas and erythroblastosis in chicks. The erbA can cooperate with other oncogenes such as v-erbB or with v-fms, v-ras, and c-kit. Cooperation with v-myc may play a role in the development of
rhabdomyosarcoma
especially in thyroid hormone deficiency state. The possible clinical implications are the need to screen patients with sarcoma to thyroid disorders, and patients with thyroid disorders for malignant diseases.
...
PMID:Sarcoma and thyroid disorders: a common etiology? 1206 23
The erythropoietin receptor (EpoR) is expressed by cells from the
erythroid
lineage; however, evidence has accumulated that it is also expressed by some solid tumors. This is an important observation, because recombinant erythropoietin (EPO) is employed in cancer patients to treat anemia related to chemo/radiotherapy. In our studies we employed eight
rhabdomyosarcoma
(RMS) cell lines (three alveolar-type RMS cell lines and five embrional-type RMS cell lines), and mRNA samples obtained from positive, PAX7-FOXO1-positive, and fusion-negative RMS patient samples. Expression of EpoR was evaluated by RT-PCR, gene array and FACS. The functionality of EpoR in RMS cell lines was evaluated by chemotaxis, adhesion, and direct cell proliferation assays. In some of the experiments, RMS cells were exposed to vincristine (VCR) in the presence or absence of EPO to test whether EPO may impair the therapeutic effect of VCR. We report for a first time that functional EpoR is expressed in human RMS cell lines as well as by primary tumors from RMS patients. Furthermore, EpoR is detectably expressed in both embryonal and alveolar RMS subtypes. At the functional level, several human RMS cell lines responded to EPO stimulation by enhanced proliferation, chemotaxis, cell adhesion, and phosphorylation of MAPKp42/44 and AKT. Moreover, RMS cells became more resistant to VCR treatment in the presence of EPO. Our findings have important potential clinical implications, indicating that EPO supplementation in RMS patients may have the unwanted side effect of tumor progression.
...
PMID:Human rhabdomyosarcoma cells express functional erythropoietin receptor: Potential therapeutic implications. 2641 93
