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)

A panel of seven murine monoclonal antibodies reactive with human hepatocellular carcinoma (HCC) cell line, SK- HEP-1, resulted in the definition of four distinct antigen systems, designated HB4, HB5, HB1 and HJ2. HB4 antigen was found to be expressed specifically on HCC cell lines and fresh HCC specimens but not on normal liver. Immunoprecipitation tests suggest that the HB4 epitope may be a heat-stable carbohydrate determinant on a high molecular mass molecule. HB5 antigen was found to have less-restricted expression on a panel of normal adult tissues and on melanoma, astrocytoma, sarcoma, neuroblastoma and epithelial cancer cell lines. In fetal and adult liver, HB5 antigen localized to bile canaliculi and ducts. Under reducing conditions, three mAbs detected a Mr 140,000 glycoprotein using lysates of [125-I], [3-H]-glucosamine and [35-S]-methionine labeled SK-HEP-1 cells. Under non-reducing conditions an additional component of greater than Mr 200,000 was also detected. HB1 antigen was found on almost all monolayer cell lines and not on most cultured suspension cells. This antigen was also detected on cultured HCC cells inoculated into nu/nu mice. Immunoprecipitation experiments revealed that the HB1 antigen is a bimolecular complex with an Mr 170,000 alpha chain and Mr 130,000 beta chain under non-reducing conditions, and three subunits of Mr 140,000, Mr 30,000 and Mr 130,000 under reducing conditions. Two antibodies reacted with epitopes on the alpha chain. HJ2 antigenic determinant is a heat-stable component which could not be immunoprecipitated. This most widely expressed antigen was found in secreted form in many of the cells and tissues examined. These antibodies introduce new antigens which may serve as useful markers for the diagnosis, classification and investigation of HCC and other liver diseases.
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PMID:Serological analysis and biochemical characterization of monoclonal antibodies defining antigens of human hepatocellular carcinoma. 255 3

Apparent interferon-mediated persistent infection of rabies virus (HEP-Flury strain) was established in a human neuroblastoma SYM-I (clone K-104) cell line, which had the ability to produce interferon. This infection produced variable but small amounts of progeny virus and interferon (up to 100 IU/ml), and resisted superinfection with vesicular stomatitis virus (VSV) and Sindbis virus as well as homologous rabies virus. The treatment of this infection with anti-interferon antibody stimulated virus replication and extensive c.p.e. However, some cells survived and grew rapidly without any sign of c.p.e. These produced increased amounts (100 to 1000 times) of infectious and DI particles in the presence of anti-interferon antibody, becoming susceptible to superinfection with VSV but remaining resistant to the original rabies virus. Small plaque mutants appeared and replaced the original virus during the long-term cultivation of the persistent infection. Several mutants tested were all identified as Sdi (DI-resistant) mutants, suggesting that the persisting viruses were endowed by the Sdi mutation with a selective advantage over the original virus even in interferon-mediated persistent infections.
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PMID:Persistent infection of rabies virus (HEP-Flury strain) in human neuroblastoma cells capable of producing interferon. 399 11

K-104 cells, a cloned cell line derived from a human neuroblastoma (SYM-I), were induced by rabies HEP-Flury virus to release large amounts of interferon, and the resulting antiviral activity significantly suppressed the rabies virus replication. The role of endogenous interferon was confirmed by treatment with anti-interferon antibody which increased the yield of progeny virus. The virus yield in the second undiluted passage through K-104 cells was much less than that in the first passage, because of the antiviral state initiated by brief contact of interferon present in the virus inoculum with cells during the short period of virus adsorption. When the m.o.i. was relatively low, as in the third undiluted passage, the effect of interferon present in the inoculum was enhanced and most of the infected cells survived but were shown to be in a state of persistent infection. Defective interfering (DI) particles did not accumulate rapidly during these three undiluted passages. When Sindbis virus was used for infection, the endogenous interferon system of K-104 cells was not activated during 12 undiluted passages. However, on the 12th passage, the yield began to decline due to the generation and accumulation of DI particles.
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PMID:Comparative studies of rabies and Sindbis virus replication in human neuroblastoma (SYM-I) cells that can produce interferon. 620 14

The relative susceptibility of neurons and glia, grown as monolayers in vitro, to rabies virus infection was explored. Established cell lines of neuronal or glial phenotype and primary cultures of cells derived from mouse dorsal root ganglia (DRC) or brain were used as homologues of the targets of rabies virus in the nervous system. Fixed rabies virus (CVS) strain was used in most experiments; other fixed rabies strains (PV, HEP, ERA) and a street rabies virus isolate were used in some. Virus-cell tropism was determined by immunofluorescence assay for rabies nucleocapsid antigen and cell permissivity was assessed by titration of virus yields. Neuronal cells always exhibited a much greater susceptibility to infection and a greater propensity to sustain viral growth. By immunofluorescence, 90-100% of neurons commonly had viral inclusion bodies, while doses of the virus three to four orders of magnitude higher still left greater than 99% of astrocytes, in brain cell cultures and 90 +/- 5% of the non-neuronal cells in DRG cultures without any obvious signs of rabies virus. Neuroblastoma cells (95 +/- 5% with viral antigens) produced viral yields about four orders of magnitude higher than glioma cells (10 +/- 5% with viral antigens). Though the overall infectivity of street virus was lower than that of fixed virus strains, a significantly higher viral tropism for neurons than for glia was maintained. Thus, primary neuronal cultures offer a means of exploring molecular events in rabies virus infection and their role in pathogenesis.
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PMID:Neurotropism of rabies virus. An in vitro study. 686 37

Mouse neuroblastoma (MNB) cells infected with ERA virus were specifically lysed in the presence of rabbit complement by antisera produced in mice to challenge virus standard (CVS), ERA, Flury HEP or street virus (SV) strains of rabies. MNB or EL-4 cells persistently infected with ERA, MNB cells infected with CVS, and BHK-21/S13 cells infected with ERA or Flury HEP also were suitable targets. CER cells infected with either ERA, CVS or Flury HEP, BHK-21/S13 cells infected with CVS and MNB cells infected with Flury HEP were not suitable targets. Two unusual findings indicated that 1. some cells which were greater than 80 percent positive for rabies viral membrane antigen(s) were poorly lysed, and 2. some cells that expressed cytoplasmic antigen lacked detectable membrane antigens.
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PMID:Influence of cell type and virus upon lysis of rabies virus-infected cells by antibody and complement. 733 91

Each of several strains of fixed rabies virus was found to replicate to high titers in C1300 mouse neuroblastoma (clone NA) cells, without adaptation. Rabies serogroup Lagos bat, Mokola, and Duvenhage viruses also replicated efficiently in NA cells. Kotonkan and Obodhiang viruses replicated efficiently after adaptation, to titers not previously obtained in vitro. Infection in NA cells was frequently more cytopathic than in BHK-21 cells, allowing titration of Kotonkan and Obodhiang viruses by plaque assay. Duvenhage virus caused syncytium formation. Serial propagation of rabies viruses at a high multiplicity of infection in NA cells led to a rapid decline in virus yields; similar "autointerference" has not previously been demonstrated with rabies virus in other cell systems. Rabies virus infection in NA cells exhibited extreme sensitivity to interference by experimentally added defective interfering virions. Although several strains of attenuated rabies virus consistently reverted rapidly to virulence after propagation in NA cells, other strains of attenuated rabies and rabies serogroup viruses acquired increased virulence at a more gradual rate or not at all, suggesting that diverse characters may control virulence. When attenuated Flury HEP rabies virus was serially propagated at a low multiplicity of infection in either NA cells or suckling mouse brain, virulence appeared at a very variable rate, indicating that these systems may selectively enhance replication of randomly occurring virulent virus mutants.
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PMID:Rabies serogroup viruses in neuroblastoma cells: propagation, "autointerference," and apparently random back-mutation of attenuated viruses to the virulent state. 738 May 49

Two strains of fixed rabies virus were examined for their ability to regenerate defective interfering (DI) particles and for possible correlation of DI particle production with the expression of virulence. A plaque-purified stock of the attenuated ERA strain (ERApp), which characteristically caused an auto-interfering death response in adult mice inoculated i.c., was serially passed at a high m.o.i. inBHK-21 cells. By the sixth passage, DI particles were regenerated that corresponded in sedimentation velocity and DI/RNA size to the smallest of three sizes of DI particles produced by the parental stock virus. The regeneration of ERA DI particles in vivo was not detected during 15 serial high or low m.o.i. passages of infected newborn mouse brain, though the passaged virus consistently elicited an auto-interfering-type death response when assayed in adult mice. The attenuated Flury HEPpp strain regenerated up to three unique size classes of DI particles during serial passage in BHK-21 or murine neuroblastoma C1300 clone NA cells compared with the one band of DI particles produced by the parental Flury HEP stock virus. The BHK-21 cell-adapted Flury HEPpp virus failed to kill adult mice when inoculated at high concentrations after two serial passages in NA cells. However, the virus became fully virulent and a single band of regenerated DI particles was visible. Additional bands of defective particles were visible following the third serial passage in NA cells. Single-stranded RNA with a mol. wt. of 0.62 x 10(6) was extracted from the first DI particle population to be regenerated. This corresponded in mol. wt. to the DI/ssRNA characteristic of the parental attenuated Flury HEP virus. However, in the parental type DI/RNA, partially dsRNA could be isolated in addition to ssRNA. Double-stranded RNA could not be detected in the regenerated DI particles derived from the virulent NA cell-propagated Flura HEPpp virus. These results suggest that the virulence phenotype of fixed rabies viruses does not depend on the presence or absence of DI particles.
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PMID:Regeneration of DI particles of virulent and attenuated rabies virus: genome characterization and lack of correlation with virulence phenotype. 746 9

The RET proto-oncogene, which encodes a receptor tyrosine kinase, displays multiple alternative splicing variants. Splicing of sequences 3' of exon 19 to generate several coding and untranslated region (UTR) sequences has been previously reported. We have sequenced the full length RET coding region and characterized the transcripts and 3' UTRs generated by alternative splicing of the RET 3' terminus. These analyses were performed using both RET cDNA cloned from a pheochromocytoma library and reverse transcriptase PCR products generated using RNA from a neuroblastoma cell line (LA-N-2). Three different carboxyl termini were identified. In addition to the nine and 51 terminal amino acid forms already known, we identified a third with 43 terminal amino acids predicted to encode a novel RET protein isoform. A total of 3621 base pairs of DNA 3' of exon 19, which spans the alternatively spliced exons and RET UTRs, was sequenced. Four polyadenylation sites were identified. The observed combinations of polyadenylation sites and 3' coding sequence suggest that RET transcripts with up to 10 different 3' sequences and up to 40 different full length RET transcripts may exist.
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PMID:Characterization of RET proto-oncogene 3' splicing variants and polyadenylation sites: a novel C-terminus for RET. 747 23

Neuroblastomas demonstrate both clinical and biological heterogeneity. We have proposed that neuroblastomas may be classified in three genetically distinct subtypes, based on cytogenetic and molecular analysis. The first comprises those with hyperdiploid or triploid modal karyotypes (or compatible DNA content by flow cytometry), 1p LOH and MYCN amplification are absent, and TRKA expression is high. These patients are likely to be infants with low stages of disease (stages 1, 2, or 4S by the International Neuroblastoma Staging System), and they have a very favourable outcome (> 90% cure). The second group consists of tumours that generally have a near diploid or tetraploid modal chromosome number or DNA content but lack MYCN amplification. They usually have 1p allelic loss, 14q allelic loss or other structural changes, and TRKA expression is usually low. These patients are generally older with advanced stages of disease (stages 3 or 4), and they have a slowly progressive course, with a cure rate of 25-50%. The third group is characterised by tumours with MYCN amplification. These tumours are generally near diploid or tetraploid, with 1p allelic loss, and low or absent TRKA expression. The patients are usually between 1 and 5 years of age with advanced stages of disease, and they have a very poor prognosis (< 5%). It remains to be determined if tumours in one group ever evolve into a less unfavourable group, but current evidence suggests that they are distinct genetically. The identification of the oncogenes, suppressor genes and growth factor receptor pathways involved in neuroblastomas has provided great insight into the mechanisms of malignant transformation and progression, and ultimately they may provide the targets for future therapy.
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PMID:Molecular basis for heterogeneity in human neuroblastomas. 757 54

From a newly determined cDNA sequence of the human ERK gene, a highly hydrophobic portion was identified upstream of the putative tyrosine kinase domain. This is the first evidence that the ERK protein possesses a receptor-like membrane-spanning structure. Fluorescence in situ hybridization analysis of R-banded metaphase chromosomes revealed that the ERK gene is located in chromosome region 1p36.1. This locus is near the frequent translocation breakpoint or deletion region of neuroblastoma and some other cancers. A comparative mapping study of the mouse and rat homologues indicated that each counterpart maps to the mouse chromosome 4D2.2-D3 and rat chromosome 5q36.13 regions, both of which have conserved linkage homology to human chromosome 1p.
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PMID:Identification of the human ERK gene as a putative receptor tyrosine kinase and its chromosomal localization to 1p36.1: a comparative mapping of human, mouse, and rat chromosomes. 760 66

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