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)

Neuroblastoma is a heterogeneous childhood tumour of the sympathetic nervous system, in which deletions of chromosomal region 1p and amplification of the MYCN oncogene correlate with aggressive tumour behaviour. However, the majority of neuroblastoma tumours show neither of these aberrations, indicating that other chromosomal regions may be involved in tumorigenesis. Here, we report findings of loss of heterozygosity (LOH) on chromosome 3. In our neuroblastoma material, nine of 59 (15.3%) tested tumours showed allelic loss of chromosome 3p markers. We found significant clinical and biological differences between tumours with the loss of one entire chromosome 3 vs tumours with partial loss in chromosome region 3p. All children with tumours with whole chromosome 3 loss are long-term survivors, whereas all children with tumours showing partial 3p LOH have died from tumour progression. A consensus region found to be deleted in all the tumours with 3p deletions was defined by markers D3S1286 and D3S1295, i.e. 3p25.3-p14.3, distal to the FHIT gene.
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PMID:Loss of heterozygosity of 3p markers in neuroblastoma tumours implicate a tumour-suppressor locus distal to the FHIT gene. 966 47

The field of molecular genetics continues to see an ever increasing number of applications to pediatric tumor analysis. Studies in pediatric tumors have identified novel genes and other genetic changes, a large number of which reflect one of the following mechanisms: (1) activation of proto-oncogenes; (2) loss of tumor suppressor genes; or (3) creation of novel fusion proteins. At least one of these mechanisms is operational in each of the following pediatric tumors: neuroblastoma, Ewing sarcoma and peripheral primitive neuroectodermal tumor (pPNET), intra-abdominal desmoplastic small-cell tumor, rhabdomyosarcoma, synovial sarcoma, and Wilms tumor. Out of this research has come not only an increased understanding of oncogenesis but also, for each of the tumors listed above, diagnostic and/or prognostic markers that can be used by the pathologist and oncologist to improve overall patient management.
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PMID:Molecular genetics in the diagnosis and prognosis of solid pediatric tumors. 968 59

Specific germline mutations in the RET proto-oncogene predispose to the familial cancer syndromes: multiple endocrine neoplasia (MEN) types 2A and 2B, and familial medullary thyroid carcinoma. Expression of the RET receptor tyrosine kinase is tightly restricted to tumours of neural crest origin, such as neuroblastoma, and neuroblastoma has been observed in RET transgenic mice. Neuroblastoma tumour cell lines transfected with the MEN2A RET gene exhibit spontaneous neuritic differentiation, whereas MEN2B-type RET transfectants demonstrate altered cell adhesion and enhanced metastatic potential. In this study, the authors examined genomic DNA from 26 primary neuroblastoma tumours for MEN2A and MEN2B RET mutations, using restriction enzyme digestion of polymerase chain reaction products as an alternative to direct sequencing. Examination of RET exons 10 (codons 611, 618, 620), 11 (codons 632, 633, 634) and 16 (codon 918) in all 26 tumours revealed no RET mutations. Taken together these data suggest that abnormalities of the RET signalling pathway, rather than oncogenic, MEN2-type RET activation by mutation, may play a role in neuroblastoma tumorigenesis.
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PMID:Absence of MEN2A- or 2B-type RET mutations in primary neuroblastoma tumour tissue. 972 1

The retinoblastoma protein-interacting zinc finger gene RIZ maps to the distal short arm of human chromosome 1 (1p36), a region thought to harbor tumor suppressor genes for a variety of human cancers including breast cancer. The RIZ gene normally produces two protein products of different length, RIZ1 and RIZ2. RIZ2 is generated by an internal promoter and lacks an NH2-terminal motif of RIZ1, the PR domain conserved in a subfamily of zinc finger genes that function as negative regulators of tumorigenesis. We have here studied whether the RIZ gene may play a role in human neoplasia. We found that expression of RIZ1 is commonly decreased or at undetectable levels in breast cancer tissues and cell lines. Decreased RIZ1 expression was also found in other tumor types including neuroblastoma and lung cancer. Remarkably, RIZ2 is normally expressed in all cases examined, suggesting that the abnormality observed for RIZ1 is specific. Forced RIZ1 expression in breast cancer cells caused cell cycle arrest in G2-M and/or programmed cell death. These observations suggest an exclusive negative selection for RIZ1 but not RIZ2 in breast cancer and a role for RIZ1 in tumor suppression.
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PMID:RIZ1, but not the alternative RIZ2 product of the same gene, is underexpressed in breast cancer, and forced RIZ1 expression causes G2-M cell cycle arrest and/or apoptosis. 976 44

A novel gene, termed p73, encodes a protein with a significant homology to p53 and has been mapped at chromosome 1p36.3, which is a locus of multiple suppressor genes for tumors including neuroblastoma and other cancers. Since the 1p36 locus is reported to be deleted and p53 is frequently mutated in esophageal carcinomas, we examined loss of heterozygosity (LOH) and mutation of the p73 gene in 48 untreated esophageal tumors, as well as mRNA expression in 8 tumors. We screened the P1 genomic library to obtain a P1 clone containing the p73 gene and found a polymorphic short tandem CT repeat site at intron 9. Intragenic sequences for 14 PCR primer sets and a primer pair flanking the repeat were also determined for the analysis of PCR single-strand conformation polymorphism (SSCP) and LOH studies, respectively. Expression of p73 mRNA was detectable but at low levels in all 8 tumor tissues by reverse transcriptase PCR. We did not find any type of mutation other than polymorphisms in the 48 esophageal carcinomas, though aberration of the p53 gene on the PCR-SSCP gels was observed in 15 of 38 (39%) tumors of the same set. In addition, LOH for p73 was found in only 2 of 25 (8%) tumors. These results suggest that, at least in esophageal carcinomas, allelic loss or mutation of p73 may not be a main genetic event for the tumorigenesis as it is with p53.
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PMID:p73, a gene related to p53, is not mutated in esophageal carcinomas. 979 31

DCC, a candidate tumor suppressor gene from chromosome 18q21, is most highly expressed in the developing nervous system. In vitro studies suggest a role for DCC in neuronal differentiation, and 18q allelic loss occurs in a subset of neuroblastomas. To address the hypothesis that loss of DCC function may contribute to tumorigenesis in cells of neural origin, we utilized a combination of RNase protection, immunoblotting, and immunohistochemical approaches to characterize DCC expression in 62 primary neuroblastomas and 16 neuroblastoma cell lines. The DCC protein was undetectable in 38% of the primary tumors and 56% of the cell lines. Of note, primary tumors lacking DCC expression were more likely to have been obtained from patients with disseminated or stage D disease (P = 0.01). In addition, loss of DCC expression was observed in three of six primary tumors from stage DS patients. No consistent relationship between the loss of DCC expression and N-myc amplification was observed in our studies. Our findings suggest that loss of DCC expression may contribute to the dissemination of neuroblastoma cells, perhaps through alterations in growth and differentiation pathways distinct from those regulated by N-myc.
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PMID:Loss of DCC expression in neuroblastoma is associated with disease dissemination. 981 73

Several lines of evidence now indicate that type 1 insulin-like growth factor receptor (IGF1R) function may be particularly important in the pathogenesis of the pediatric cancer neuroblastoma. Modulating the expression of specific genes involved in neuroblastoma tumorigenesis could provide a much needed alternative treatment strategy for poor prognosis disease. We now report construction of an antisense expression vector to the IGF1R that markedly reduces cellular IGF1R levels and inhibits the proliferation and clonogenicity of neuroblastoma cells in vitro but not that of IGF1R null cells. This antitumor activity is associated with the induction of apoptotic cell death in transfected cells, as measured by annexin V staining and flow cytometry. Direct injection of this vector into established tumors growing in syngeneic mice results in a marked inhibition of tumor growth with complete and durable tumor regression in one-half of the animals. This effect appears to be immunologically mediated in that vector injection of neuroblastoma tumors growing in severe combined immunodeficiency mice results in only modest delay of tumor growth. Our results suggest that inhibition of IGF1R expression by direct intratumoral delivery of an antisense construct could provide a novel therapeutic approach in the management of poor prognosis neuroblastoma.
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PMID:Inhibition of insulin-like growth factor I receptor expression in neuroblastoma cells induces the regression of established tumors in mice. 985 76

p73, a novel p53 family member, is a recently identified candidate neuroblastoma (NBL) suppressor gene mapped at chromosome 1p36.33 and was found to inhibit growth and induce apoptosis in cell lines. To test the hypothesis that p73 is a NBL suppressor gene, we analysed the p73 gene in primary human NBLs. Loss of heterozygosity (LOH) for p73 was observed in 19% (28/151) of informative cases which included 92 mass-screening (MS) tumors. The high frequency of p73 LOH was significantly associated with sporadic NBLs (9% vs 34%, P<0.001), N-myc amplification (10% vs 71%, P<0.001), and advanced stage (14% vs 28%, P<0.05). Both p73alpha and p73beta transcripts were detectable in only 46 of 134 (34%) NBLs at low levels by RT-PCR methods, while they were easily detectable in most breast cancers and colorectal cancers under the same conditions. They found no correlation between p73 LOH and its expression levels (P>0.1). We found two mutations out of 140 NBLs, one somatic and one germline, which result in amino acid substitutions in the C-terminal region of p73 which may affect transactivation functions, though, in the same tumor samples, no mutation of the p53 gene was observed as reported previously. These results suggest that allelic loss of the p73 gene may be a later event in NBL tumorigenesis. However, p73 is infrequently mutated in primary NBLs and may hardly function as a tumor suppressor in a classic Knudson's manner.
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PMID:p73 at chromosome 1p36.3 is lost in advanced stage neuroblastoma but its mutation is infrequent. 1002 82

HMGI-C and HMGI(Y) are architectural DNA-binding proteins that participate in the conformational regulation of active chromatin. Their pattern of expression in embryonal and adult tissues, the analysis of the "pygmy" phenotype induced by the inactivation of the HMGI-C gene, and their frequent qualitative or quantitative alteration in experimental and human tumors indicate their pivotal role in the control of cell growth, differentiation, and tumorigenesis in several tissues representative of the epithelial, mesenchymal, and hematopoietic lineages. In contrast, very little information is available on their expression and function in neural cells. Here, we investigated the expression of the HMGI(Y) and HMGI-C genes in neuroblastoma (NB), a tumor arising from an alteration of the normal differentiation of neural crest-derived cells and in embryonal and adult adrenal tissue. Although HMGI(Y) is constitutively expressed in the embryonal and adult adrenal gland and in all of the NB cell lines and ex vivo tumors examined, its regulation appears to be associated to growth inhibition and differentiation because we observed that HMGI(Y) expression is reduced by retinoic acid (RA) in several NB cell lines that are induced to differentiate into postmitotic neurons, whereas it is up-regulated by RA in cells that fail to differentiate. Furthermore, the decrease of HMGI(Y) expression observed in RA-induced growth arrest and differentiation is abrogated in cells that have been made insensitive to this drug by NMYC overexpression. In contrast, HMGI-C expression is down-regulated during the development of the adrenal gland, completely absent in the adult individual, and only detectable in a subset of ex vivo NB tumors and in RA-resistant NB cell lines. We provide evidence of a causal link between HMGI-C expression and resistance to the growth arrest induced by RA in NB cell lines because exogenous HMGI-C expression in HMGI-C-negative and RA-sensitive cells is sufficient to convert them into RA-resistant cells. Therefore, we suggest that HMGI-C and HMGI(Y) may participate in growth- and differentiation-related tumor progression events of neuroectodermal derivatives.
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PMID:HMGI(Y) and HMGI-C genes are expressed in neuroblastoma cell lines and tumors and affect retinoic acid responsiveness. 1034 62

In primary breast cancer, mutations of the p53 tumor suppressor gene lead to loss of growth-suppressive properties and poor outcome. Recently, a p53-related gene, termed p73, has been cloned and its gene product possesses a function similar to p53. p73 has been mapped at chromosome 1p36.3, a region frequently deleted in breast cancer, neuroblastoma and other malignancies. To elucidate the functional significance of p73 in the oncogenesis of breast cancer, we have studied genetic alterations of p73 in tissue specimens obtained from 87 patients with primary breast cancer. Thirteen percent of informative cases showed loss of heterozygosity (LOH) at the p73 gene. However, there was no correlation between the p73 LOH and clinical features such as histopathological types, metastatic behavior or expression of estrogen or progesterone receptor. The levels of p73 transcript in primary breast cancer were not significantly different from those in normal breast tissue. Moreover, PCR-SSCP analysis failed to detect any missense or frameshift mutations in the p73 gene. Our observations suggest that allelic loss, expression levels and mutations of the p73 gene may not contribute to oncogenesis of primary breast cancers.
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PMID:Mutational analysis of the p73 gene in human breast cancers. 1037 54

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