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)

Proliferative cell nuclear antigen (PCNA) is a cell-cycle-related nuclear protein that is maximally elevated in late G1 and S phase of proliferating cells. In this study, PCNA was identified immunohistochemically using paraffin section in 67 human neuroblastomas. Percentage of the PCNA-positive nuclei (PCNA index: PCI) ranged from 0% to 75%. There were significant relations between the PCNA expression and mitotic karyorrhexis index (MKI), histological classification, cell concentration, tumor weight, clinical stage, local invasion, lymph node metastasis, liver metastasis, or DNA ploidy. PCI was significantly low in patients who received aggressive chemotherapy before surgery. Patients with PCI higher than 30% showed a worse survival rate compared with those with PCI lower than 10% (P < .01). High PCI significantly related with poor survival, so that PCI may be an independent prognostic factor in neuroblastoma. Although further studies are required, PCNA immunostaining may be useful for assessing proliferating activity and for providing prognostic information in human neuroblastoma.
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PMID:Immunohistochemical analysis of proliferating cell nuclear antigen expression in human neuroblastoma. 759 26

The neuropoietic cytokines ciliary neurotrophic factor (CNTF) and leukemia inhibitory factor (LIF) regulate VIP gene expression through a cytokine response element (CyRE) which interacts with members of the STAT transcription factor family. The CyRE STAT site is, however, insufficient to mediate full transcriptional activation by CNTF/LIF, suggesting that other sequences and nuclear proteins are also important. As C/EBP proteins participate in the transcriptional effects of the related cytokine, interleukin-6, we investigated the role of possible C/EBP-binding sites in the response of the VIP CyRE to CNTF/LIF. Using DNase I footprinting, transactivation studies, DNA mobility shift assays, and mutational analysis, three sites within the VIP CyRE were identified as C/EBP-related binding sites and shown to be important to CNTF/LIF-mediated transcriptional activation. The CyRE C/EBP-related sites interact with nuclear proteins from the human neuroblastoma cell line, NBFL, including a novel, protein synthesis-dependent, nuclear protein complex, induced by CNTF treatment. These nuclear proteins are not, however, recognized by antisera to known C/EBP proteins. Therefore, other nuclear proteins regulated by independent pathways act in concert with the JAK-STAT pathway to mediate CNTF/LIF regulation of VIP gene expression through the CyRE.
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PMID:C/EBP-related sites in addition to a STAT site are necessary for ciliary neurotrophic factor-leukemia inhibitory factor-dependent transcriptional activation by the vasoactive intestinal peptide cytokine response element. 771 8

While investigating the glycosylation of nuclear envelope proteins of neuroblastoma cells, we found several proteins that bound the sialic acid-specific Sambucus nigra agglutinin. The strongest signals were obtained for proteins with apparent molecular masses of 66 and 180 kDa. The specificity of the lectin binding was checked by acylneuraminyl hydrolase treatment of nuclear envelope proteins, which prohibited S. nigra agglutinin binding. Digestion of nuclear envelope proteins with the N-glycosidase F revealed that sialic acid was N-glycosidically linked to the 180-kDa protein and very probably O-glycosidically linked to the 66-kDa protein. Upon extraction, the latter behaved like the nucleoporin p62 in that it was partly extracted by high ionic strength buffers, could not be solubilized by nonionic detergent, and was completely removed from the nuclear envelope with urea. Two-dimensional gel electrophoretic comparison showed that the S. nigra agglutinin-binding protein and p62 have an identical isoelectric point of about 5.0 and an identical apparent molecular mass of 66 kDa. This, together with the binding of the anti-nucleoporin antibody, demonstrated the identity of the 66-kDa sialoprotein and p62. S. nigra agglutinin inhibits nuclear protein transport in neuroblastoma cells, strongly suggesting a functional significance of sialylation of p62.
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PMID:The nuclear pore complex protein p62 is one of several sialic acid-containing proteins of the nuclear envelope. 777 35

N-myc oncogene amplification in neuroblastoma has been found to be significantly associated with advanced stage disease and tumor progression. However, there is a lack of data on tumors, regarding the relationship between N-myc gene amplification and proliferation activity. Proliferating cell nuclear antigen (PCNA) is a proliferation-induced 36 kD nuclear protein that is the auxiliary component of DNA polymerase delta. PCNA levels in tissues have been found to correlate with proliferative activity. We have examined PCNA levels in neuroblastomas in relation to N-myc gene amplification and tumor stage. Statistically, significantly higher levels of PCNA were observed in tumors with an amplified N-myc gene relative to tumors with a single gene copy. The highest levels of PCNA were observed in advanced stage tumors with an amplified N-myc gene. Treatment of neuroblastoma cells in culture with retinoic acid, which induces differentiation, resulted in a substantial decrease in PCNA. Our results suggest that PCNA levels may reflect differences in proliferative activity between neuroblastomas, related to stage of the disease and to N-myc gene copy number.
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PMID:PCNA levels in neuroblastoma are increased in tumors with an amplified N-myc gene and in metastatic stage tumors. 809 85

p32/6.3, a low-abundance, highly conserved nuclear protein, is a target for lead. Very few low abundance nuclear proteins have been described and no others have been associated with lead. Its wide distribution and conservation indicate a fundamental nuclear role. Further, it increases many fold in grey matter of brain and spinal cord during the neonatal period; there are no other identified nuclear proteins which serve as markers for this period of nervous system development. There are several links between lead and p32/6.3. It is a major component of lead-induced intranuclear inclusion bodies from the kidney. Its accumulation in kidney is a relatively early event in the process of lead intoxication. Exposure to lead increases p32/6.3 in mouse neuroblastoma 2a cells within one day, blocking its degradation almost completely. These observations suggest that lead either structurally alters p32/6.3 or inhibits a protease for which p32/6.3 is a substrate. In these lead-treated cells nuclear envelope invaginations and small nuclear bodies increase. The possible involvement of lead and p32/6.3 with the formation and movement of nuclear bodies is discussed.
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PMID:A nuclear matrix protein stabilized by lead exposure: current knowledge and future prospects. 824 12

Retinoic acid (RA) induces the differentiation of tumor cells of neural origin and may do so by binding to one or more nuclear receptor proteins. We have identified transcripts and nuclear RA receptor (RAR) protein in a clonal line of human neuroblastoma cells that differentiate in response to RA. Prior to any exposure to RA, LA1-15n cells express two transcripts for RAR alpha (approximately 3.6 and approximately 2.7 kb) as well as low levels of transcript for RAR beta (approximately 3.4) and RAR gamma (approximately 2.8 kb). Exposure of LA1-15n cells to RA leads to the induction of a approximately 2.9-kb RAR beta mRNA, whereas the expression of transcripts for RARs alpha and gamma does not change appreciably. The 2.9-kb RAR beta transcript is increased by 4 h (8-fold) and continues to increase for 24-48 h (40- to 60-fold). The RA-associated increase in RAR beta mRNA in LA1-15n cells is not diminished by the addition of the protein synthesis inhibitor, cycloheximide, but is abolished by the addition of the RNA synthesis inhibitor, actinomycin D. In addition to RAR transcripts, LA1-15n cells contain a nuclear protein with the requisite characteristics of a RAR. The nuclear protein binds all-trans-[3H]RA with high affinity (Kd approximately 0.2 nM). The nuclear protein sediments at approximately 4S, which is consistent with the molecular mass deduced from RAR cDNAs (approximately 50,000 Da). The nuclear protein is clearly distinguishable from a all-trans-[3H]RA-binding protein found in the cytosolic fraction of LA1-15n cells. The cytosolic protein sediments at approximately 2S on sucrose density gradients, consistent with the expected molecular mass of the cellular retinoic acid-binding protein (approximately 16,000 Da). The nuclear [3H]RA-binding protein binds to DNA-cellulose and to the RAR beta response element. These results support the hypothesis that RARs are present in human neuroblastoma cells and may be involved in human neuroblastoma cell differentiation. They also demonstrate that RA markedly influences the expression of steady-state levels of mRNA for one of its own receptors, the RAR beta.
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PMID:Identification and characterization of all-trans-retinoic acid receptor transcripts and receptor protein in human neuroblastoma cells. 838 32

Mutations of the p53 tumor suppressor gene are rarely found in neuroblastoma. Though typically a nuclear protein, a number of tumor cell types have recently been reported to exhibit cytoplasmic p53 immunostaining, and it has been suggested that altered cellular localization is another mechanism of inhibiting p53 function. We examined p53 protein expression, localization, and function in neuroblastoma cell lines with wild-type p53 genes. Basal p53 levels were largely confined to the cytoplasmic compartment in these cells. However, after irradiation, p53 protein levels increased predominately in the nucleus. Transcriptional activity of p53 was intact in these cells because "downstream" proteins, p21WAF1 and MDM2, were induced by irradiation. In contrast to a neuroblastoma cell line harboring a mutant p53 gene, the neuroblastoma cells with wild-type protein were associated with an intact G1 arrest after DNA damage. The induced nuclear protein in these neuroblastoma cells also appeared functional as measured by its capacity to bind to a DNA oligomer containing a p53-consensus sequence. We have concluded that although p53 expression in neuroblastoma cells is primarily localized to the cytosol, ionizing radiation induces a functional p53 protein in the nucleus and that this cytoplasmic sequestration of p53 in human neuroblastoma is not a mechanism of inactivating p53 function.
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PMID:The p53 signal transduction pathway is intact in human neuroblastoma despite cytoplasmic localization. 862 10

The thyrotropin-releasing hormone (TRH) gene is regulated negatively at the transcriptional level by thyroid hormone (T3). T3 positive regulatory effects on other target genes, such as the growth hormone gene, are mediated through heterodimerization of thyroid hormone receptors (TRs) with RXR or other auxiliary nuclear protein(s). To explore whether an accessory co-suppressor protein(s) may be involved in T3 inhibitory regulation of human TRH gene transcription, transient gene expression studies have been carried out using a hTRH-luciferase (TRH-Luc) chimetric reporter construct, an hTR beta 1 expression construct, and pABgal-hTR beta 1 ligand-binding domain (LBD) fusion constructs, cotransfected into a human neuroblastoma cell line (HTB-11,ATCC). Results herein indicate that T3-dependent inhibitory regulation (48-60% of control) of the hTRH gene promoter by hTR beta 1-T3 complexes could be abrogated completely by cotransfection of a 10 x excess of hTR beta 1-LBD (TR 168-456 aa) in a pABgal94 vector. In striking contrast, cotransfection of a 10 x excess of highly truncated hTR beta 1-LBD (TR 452-456 aa) failed to reverse T3-mediated TRH promoter inhibition. This squelching effect by excessive intact TR-LBD, moreover, could not be reversed by raising T3 concentration 100-fold (from 10(-8) to 10(-6) M), thus excluding a squelching effect of T3 itself by excess LBD. These results suggest that negative regulation of the hTRH gene promoter activity by TR beta 1-T3 complexes involves interactions with an accessory co-suppressor protein, which may bridge DNA-bound TR beta 1-T3 complexes to the transcriptional initiation complex.
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PMID:Reversal of TR-T3 inhibition of the hTRH gene by excess TR ligand-binding domain: evidence for novel accessory protein. 883 32

In a previous study we showed that a region from -182 to +10 bp in the mouse mu-opioid receptor (MOR) promoter exhibited strong promoter activity. To identify protein-DNA interactions in this fragment, gel shift and DNase I footprint analyses were performed using nuclear extracts from mouse brain and the human neuroblastoma cell line, SK-N-SH. Two regions, nucleotide (nt) -121 to -100 and nt -42 to -22, were identified as being specific protein binding sites. The protein-DNA interaction in the nt -42 to -22 region was characterized in detail in this study. Methylation interference analysis of this region showed that nuclear protein from SK-N-SH cells contracted nucleotides within the sequence ATG-CAAAT, which is a binding motif for octamer trans-acting factors. An octamer-1 (Oct-1)-specific antibody super-shifted the protein-DNA complex in a gel shift assay. A UV cross-linking experiment showed that a nuclear protein, whose molecular weight is similar to that of the Oct-1 factor, bound to the octamer element in the nt -42 to -22 region. Mutagenesis of four base pairs within the octamer cis-acting element eliminated the specific protein binding in vitro. When the MOR-luciferase reporter construct (-182 to +10 bp) with the same four base pairs mutated was transiently transfected into SK-N-SH cells, a 200% increase in transcriptional activity was observed. Collectively, these data suggest that Oct-1 is binding to the octamer motif in the MOR gene and negatively modulating MOR gene expression.
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PMID:Identification of an octamer-1 transcription factor binding site in the promoter of the mouse mu-opioid receptor gene. 885 15

As an initial approach to define the regulatory elements and transcriptional factors that account for cell-restricted expression of the alpha2c-adrenergic receptor (AR) gene, we isolated and characterized the receptor gene and identified regions of the gene conferring cell-specific expression. A 4300-nucleotide (nt) fragment of the 5'-flanking region of the rat alpha2c-AR gene was isolated from a genomic library. The genomic sequence contained the uninterrupted sequence of the 5'-untranslated region of a previously isolated alpha2c-AR cDNA clone indicating the lack of introns in the 5' gene segment. RNase protection assays and/or RNA blot analysis indicated the expression of alpha2c-AR mRNA in rat brain but not in kidney or liver, which is consistent with the major expression of this gene in neuronal tissue. The 5' gene segment was used to identify sites of transcriptional initiation and promoter activity by RNase protection assays and transient transfection of reporter gene constructs. With the use of RNA probes progressively upstream of the translational start site, RNase protection assays with rat brain total RNA indicated multiple sites of transcriptional initiation within a approximately 70-nt span (-660 to -730 nt 5' to the translational start codon). The zone of transcriptional initiation was part of a larger GC-rich area of the 5' gene segment that is a characteristic of genes initiating transcripts at multiple sites. The promoter activity of this zone of transcriptional initiation and the influence of gene segments 5' to this area were addressed using chloramphenicol acetyl transferase reporter gene constructs. Transient transfection of reporter gene constructs indicated that a 96-nt gene fragment (-699/-603 relative to the translational start codon) was sufficient to direct transcription in the neuroblastoma X glioma hybrid cell line NG108-15, a cell line expressing the endogenous alpha2c-AR. Promoter activity was not observed in constructs lacking the zone of transcriptional initiation. The promoter segment was inactive when introduced into the rat glioma cell line C6B4, the rat submandibular cell line RSMT-A5, and the rat pancreatic beta cell line RIN-5AH, all of which do not express the endogenous alpha2c-AR gene. Upon incubation with nuclear extracts, a 129-nt fragment encompassing the promoter exhibited a gel mobility shift pattern that was specific for cells expressing the receptor protein and involved a nuclear protein that recognized a Sp1 oligonucleotide. These data indicate that a 96-nt gene promoter segment of the alpha2c-AR gene functions in a cell-type-specific manner.
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PMID:Analysis of the alpha2C-adrenergic receptor gene promoter and its cell-type-specific activity. 896 63

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