UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The main cause for the failure of chemotherapeutic treatment of advanced cancer probably lies in the emergence of drug resistance clones. In the present study we compared the sensitivity to adriamycin (ADR) and the capacity of ADR uptake in two human neuroblastoma cell lines differing in properties relevant to metastatic potential, the GP2 and MB, of low- and high-malignancy phenotype, respectively. Examination of the ADR effect on in vitro proliferative capacity of the two cell lines revealed a higher sensitivity of GP2 as compared to the MB variant. Intracellular ADR accumulation was determined by fluorocytometry, spectrofluorometry and fluorescence microscopy. According to the three methods, the GP2 line cells, representing a low-malignancy phenotype, had a higher uptake ability than the MB cells, possessing a phenotype of higher aggressiveness. The quantitative determination revealed that over a broad range of ADR concentrations, the GP2 cells accumulated 2-3.5 folds the amount of cytotoxic agent penetrating the MB cells. The FACS analysis showed that the cell population of each of the variants consisted of two subpopulations varying in their ability to accumulate ADR. In the GP2 line the high permeability subpopulation represented nearly half of the total cell population, whereas in the MB line this subpopulation represented a minority. The correlation observed between ADR uptake capacity and sensitivity to the cytotoxic agent, as evidenced by its effect on proliferative capacity, suggests that the resistance of the MB cells is due to a P-G-P modification-related mechanism.
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PMID:Malignant phenotype correlating with drug resistance in two human neuroblastoma cell lines. 796 87

Reduced expression of nm23 RNAs/proteins has been associated previously with high tumor metastatic potential. In contrast, we report that regional (state III) and metastatic (stage IV) childhood neuroblastomas exhibit elevated nm23 RNA levels as compared with localized tumors. Elevated neuroblastoma nm23 RNA levels were associated with significant reductions in patient survival in the overall (n = 75) and N-myc non-amplified (n = 61) portion of the cohort. Amplification of the chromosomal nm23-H1 gene was observed in 6/18 stage III and IV tumors; amplification of nm23-H2 was not demonstrated. Genomic amplification of nm23-H1 was associated with increased tumor nm23 RNA expression and reduced patient survival. Single-strand conformational polymorphism (SSCP) analysis was performed on seven neuroblastomas. Minor subpopulations of cDNAs exhibiting altered mobility were apparent in both nm23-H1 and nm23-H2 translated regions of stage III and IV tumors, suggestive of mutations. Confirmation of the SSCP data was provided by direct sequencing of nm23-H2 in a stage IV tumor, revealing a leucine to valine mutation at position 48. The data indicate that molecular alterations to nm23 other than its reduced expression can be associated with tumor aggressiveness, and provide the first evidence for nm23 mutation in a human cancer.
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PMID:Evidence for nm23 RNA overexpression, DNA amplification and mutation in aggressive childhood neuroblastomas. 838 56

Neuroblastoma is the most common extracranial tumor in children, and cytogenetically, chromosome 1p deletions, extrachromosomal double minutes, and homogeneously staining regions (HSRs) are commonly observed in cell lines and in tumors in advanced stages. It is found that an HSR represents genomic amplification of N-myc, which plays a key role in determining the aggressiveness of neuroblastoma. However, stage IV neuroblastomas or cell lines which lack N-myc amplification are also progressive, and some of them show evidence of N-myc expression in terms of mRNA and/or N-Myc oncoprotein. It was recently shown that a small proximal locus mapped between 1p35-36.1 and 1p36.23 may function as a suppressor gene of N-myc amplification. In neuroblastoma, a pattern of diploidy is associated with rapid tumor growth and poor survival. Expression of bcl-2 proto-oncogene is strongly associated with unfavorable histology, while expressions of Ha-ras and trk-A proto-oncogenes indicate a favorable prognosis. trk-A proto-oncogene encodes a receptor for nerve growth factor. Genetic characteristics of neuroblastomas found by urinary catecholamine mass screening are also discussed.
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PMID:Genetic clinical markers of human neuroblastoma with special reference to N-myc oncogene: amplified or not amplified?--An overview. 865 15

Several unique features of neuroblastoma (NB), including the capacity for spontaneous regression and maturation to benign pathology, suggest that genes that regulate cellular proliferation, survival and differentiation may be involved in directing clinical tumour aggressiveness. The in situ expression of Bcl-2, Rb, p21, p53 and Bax proteins, as well as the proliferation marker proliferating cell nuclear antigen (PCNA) were examined immunocytochemically in a selection of 38 stage- and outcome-identified NB tumours. Apoptotic cells were identified morphologically and by a DNA fragmentation labelling technique (TUNEL). Although the tumour cell density of Bcl-2, p53, Bax, PCNA and TUNEL positivity correlated with patient survival, a spatially organized expression pattern was further recognized in stroma-poor differentiating tumours. Immature tumour cells adjacent to thin fibrovascular stroma are proliferating, as evidenced by PCNA positivity, and often express Bcl-2. At increasing distance from this fibrovascular stroma, intermediately differentiated tumour cells express Rb, while with more advanced differentiation, proliferation ceases and Bcl-2 immunoreactivity is lost. The most differentiated tumour cells, which often express p53, and occasionally p21 and Bax, lie adjacent to TUNEL-positive, morphologically apoptotic cells. This spatial organization in favourable outcome NB tumours suggests that physiological regulation of differentiation and apoptosis may be involved in tumour regression.
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PMID:Spatial association of apoptosis-related gene expression and cellular death in clinical neuroblastoma. 909 68

The ciliary neurotrophic factor (CNTF) can regulate survival and differentiation of many types of developing and adult neurons; in metastatic SK-N-BE neuroblastoma cells, it promotes differentiation and neurite outgrowth. The expression of Gelatinase A (MMP-2) and its specific tissue inhibitor (TIMP-2), a degradative system whose balance is involved in matrix invasion and metastasis, was investigated in SK-N-BE cells cultured with and without CNTF or NGF. Zymographic analysis of conditioned media revealed that the cells constitutively secrete two gelatinases, mainly pro-MMP-2 but also traces of pro-MMP-9. In a time-course experiment in the presence of 25 ng/ml of CNTF, the MMP-2 mRNA expression showed no significant modulation, while TIMP-2 mRNA up-regulated to > 2-fold after 48 h and then fell dramatically. At the same concentrations, NGF showed no effect. TIMP-2 mRNA expression showed a dose-dependent increase of up to 8-fold from 1 to 250 ng/ml of CNTF and increased secretion of TIMP-2 was confirmed by Western blotting. MMP-2 was only slightly over-expressed under the same conditions, at either mRNA or protein level, with no correlation with neurocytokine concentration. These results suggest that boosting the expression of TIMP-2 by CNTF could restrain both matrix degradation following nervous system injury and neuroblastoma aggressiveness.
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PMID:CNTF up-regulation of TIMP-2 in neuroblastoma cells. 937 46

Expression of trk family genes are prognostic indicators of neuroblastoma. However, the functional role of neurotrophins and their receptors in neuroblastomas in vivo is still unclear. We studied the expression of neurotrophin receptors (trk-A, trk-B, trk-C) and their responsiveness to neurotrophins (NGF, BDNF, NT-3) in 25 human neuroblastomas using a primary culture system. The tumours in early stages and stage 4s responded to both NGF and NT-3, but not to BDNF, by surviving and differentiating terminally and the responsiveness was correlated with high levels of trk-A, especially the neuronal isoform. However, in many advanced stage tumours, the expression of trk-A was down-regulated and the response pattern to neurotrophins was diverse, without showing terminal differentiation. Interestingly, a stage 4 tumour with MYCN amplification which expressed high level of neuronal trk-A was dependent on nerve growth factor (NGF) for both survival and differentiation in primary culture. The results suggest that the NGF/trk-A signalling may be the main regulatory pathway for differentiation and survival of neuroblastoma in vivo and that trk-A overexpression may overcome aggressiveness, even of the tumour with MYCN amplification.
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PMID:Role of neurotrophins and their receptors in human neuroblastomas: a primary culture study. 951 51

HuD is one of a family of neural antigens recognised by the sera of patients with antibody-associated paraneoplastic encephalomyelitis. Localised exclusively to neurons, these proteins are among the earliest markers of the developing nervous system. Sequence analysis suggests that HuD is an RNA-binding protein. Hu protein levels were determined for the three cell types characterising human neuroblastoma cell lines: sympathoadrenal neuroblasts (N), substrate-adherent Schwann/glial/melanoblastic precursors (S) and stem cells (I) which can give rise to both N and S cells. Western blot analysis showed similar levels of protein in three N-type cell lines; S cells have no detectable Hu protein. Northern blot analysis indicated that N cells express all three Hu genes, HuD, HuC and Hel-N1. N cells, mostly from MYCN-amplified cell lines, have consistently higher steady-state levels of MYCN mRNA than S cell counterparts. Nuclear run-on and mRNA half-life experiments revealed no differences in transcription rate or mRNA stability between N and S cells from the LA-N-1 cell line, implicating differences in post-transcriptional regulation. HuD is postulated to be instrumental in splicing/processing and/or stabilisation of mRNAs involved in cell growth and neuronal differentiation. As determined by gel-mobility shift assays, HuD fusion protein binds to the 3'UTR of human MYCN mRNA. Analysis of HuD deletion mutants has demonstrated that the first and second RNA-recognition motifs (RRMs) are required for binding. Whether HuD regulates MYCN expression and thereby influences tumour aggressiveness is of major interest.
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PMID:HuD, a neuronal-specific RNA-binding protein, is a potential regulator of MYCN expression in human neuroblastoma cells. 951 55

Neuroblastoma is one of the most common pediatric solid tumors originating from the sympathoadrenal lineage of the neural crest. The tumors found in infants very frequently regress spontaneously by differentiating and/or undergoing programmed cell death, while those in children over one year of age are very aggressive and eventually kill the patients. The recent advances in neuroblastoma research have revealed that the neurotrophin signals, especially those through nerve growth factor and its receptor, TrkA, play an important role in regulating the regression of neuroblastoma. The genetic abnormalities such as allelic loss of the distal region of chromosome 1p, gain of chromosome 17q21-q25, and MYCN amplification, all of which are associated with the tumor aggressiveness, inhibit the regression of neuroblastoma. In the regressing tumor cells, caspases are induced and surviving, which is mapped to 17q25 and is overexpressed in the advanced stage tumors, is down-regulated. Thus, the molecular mechanism of spontaneous regression of neuroblastoma is now being unveiled. However, many more questions including the developmental machinery to trigger regression still remain to be clarified.
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PMID:Molecular basis of spontaneous regression of neuroblastoma: role of neurotrophic signals and genetic abnormalities. 1008 74

In neuroblastoma, a childhood tumor of neural crest, a tumor suppressor gene located at 1p36 has been implicated to play a major role in tumor aggressiveness and clinical prognosis. We have examined 30 different staged primary neuroblastoma tumors using RT-PCR, for expression of the p73 gene located at 1p36.3, and its correlation to other clinical and biological features of these tumors. No correlation between expression of p73 and MYCN-amplification or 1p-deletion could be found, five of ten 1p-deleted tumors showed detectable levels of p73, and no mutations could be detected, neither in the retained alleles nor in any other parts of the material. In five 1p-deleted cases the origin of deletion were determined, two were of maternal and three of paternal origin. Both tumors with maternal 1p-loss showed detectable levels of p73, whereas the three with paternal loss did not. This suggests that p73 is expressed from the paternal allele only in advanced staged neuroblastoma tumors. Furthermore, it suggests absence of correlation between p73-expression and stage in these tumors. In conclusion, we could find no evidence for p73 being the neuroblastoma tumor suppressor gene in 1p36.
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PMID:Variable expression and absence of mutations in p73 in primary neuroblastoma tumors argues against a role in neuroblastoma development. 1034 Dec 87

With the advent of new therapeutic modalities, the treatment options for oncologists can vary greatly depending upon the aggressiveness of the patient's cancer. Patients may receive no therapy, adjuvant therapy, aggressive adjuvant therapy (taxane based), monoclonal antibody therapy (e.g. Herceptin) or bone marrow transplantation. It is now mandatory to determine accurate prognostic patient profiles at diagnosis and during therapy to determine who would benefit most from a particular therapeutic regimen or to determine who should be shifted into more aggressive therapy. We now have ultra-sensitive methods of tumor cell detection that can determine the presence of minimal residual cancer (MRC) in marrow, stem cell product (SCP) and lymph node to help create these prognostic profiles. The author has conducted a critical review of the literature regarding the type of testing used to detect MRC, the incidence of MRC in marrow, SCP, and lymph node, and the clinical significance of MRC at diagnosis and during therapy. To date it is now clear that immunohistochemistry is a very useful diagnostic tool with adequate sensitivity to detect MRC. The presence of MRC at diagnosis in marrow and/or lymph node is associated with a poor prognosis for a number of disorders including breast cancer, neuroblastoma, gastrointestinal tumors, and lung cancer. In addition, the presence of MRC during therapy in marrow and/or SCP is associated with a very poor prognosis for patients with breast cancer. The use of testing for MRC in the patient provides prognostic information that may be of use to the oncologist.
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PMID:Clinical relevance of minimal residual cancer in patients with solid malignancies. 1050 48

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