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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The murine
neuroblastoma
appears to be a useful model for elucidating the mechanism of cellular differentiation. In tissue culture,
MNB
cells were induced to "irreversibly" differentiate into neuronal-like cells by DBcAMP alone or in combination with cAMP phosphodiesterase inhibitors: papaverine (Pap) and theophylline (Theo). Cells differentiated by DBcAMP, Pap, and Theo were no longer tumorgenic when reinoculated into animals of the host strain. In vivo, DBcAMP, Pap, and Theo caused a reduced tumor volume growth rate in animals with established tumors. Morphologically, this effect appears to be secondary to an arrest of cellular mitoses. Cells insensitive to these agents emerged after 3 to 4 days, and tumor growth accelerated to parallel the rate of the untreated tumors.
...
PMID:Differentiation of mouse neuroblastoma cells in vitro and in vivo induced by cyclic adenosine monophosphate (cAMP). 18 80
Laser-induced fluorescence (LIF) of photosensitizers is used to detect cancer. The effect of argon laser light with an average irradiance of 31 mW cm-2 and Photofrin II (Dihematoporphyrin ether, DHE) at concentrations of 1.0 and 5.0 micrograms ml-1 on C1300 murine
neuroblastoma
cells (
MNB
, NB41A3) in vitro was investigated. Growth curves and cell viability (trypan blue dye exclusion) were determined at 1, 24, 96, and 144 hr post-irradiation. Light doses of 1.8 and 9.0 J cm-2 combined with 5.0 micrograms DHE ml-1 decreased both cell numbers and viability, immediately and up to 144 hr postirradiation. Argon laser light alone at a fluence of 9.0 J cm-2 caused reversible injury to the cells. This in vitro study shows that both low energy argon laser light and low dose DHE are cytocidal to C1300
MNB
cells. LIF promises to aid in the detection and destruction of
neuroblastoma
. Surgeons should be aware that tissue irreversible damage is likely to occur when performing LIF detection of
neuroblastoma
. The doses of laser light and of Photofrin II found to be toxic to
neuroblastoma
cells in culture may provide guidelines for photodynamic therapy ablation of
neuroblastoma
clinically.
...
PMID:Effect of argon laser and Photofrin II on murine neuroblastoma cells. 182 78
Cytogenetic analysis of two murine
neuroblastoma
cell lines that show different malignant expression revealed consistent differences in the chromosomal composition between the two lines. The
MNB
-T1 (high-malignancy) cell line showed increased modal chromosome number, presence of homogeneously staining regions (HSRs), double minutes (dmin) and evidence of secondary chromosomal events when compared with the
MNB
-T2 (low-malignancy) cell line, which did not express these cytogenetic characteristics. Several of the cytogenetic events that have occurred in these murine cell lines, such as HSRs, dmin, and chromosomal deletions, have also been reported in human
neuroblastoma
cell lines. When comparisons are made for the involvement of chromosomal regions known to be involved in human
neuroblastoma
, similar tumor specific regions seem to be involved in the homologous mouse chromosomes.
...
PMID:Cytogenetic analysis of two C-1300 murine neuroblastoma cell lines expressing discordant malignant behavior. 279 Jul 51
Dihydropyrimidine dehydrogenase (DPD), the initial, rate-limiting step in pyrimidine degradation, was studied in two cell lines of murine
neuroblastoma
(
MNB
-T1 and
MNB
-T2) that were derived from C-1300
MNB
tumor carried in A/J mice. The
MNB
-T2 (low malignancy) cell line was originally derived from the in situ tumor and carried in tissue culture for more than 100 passages; the
MNB
-T1 (high malignancy) line consisted of a new sub-culture that was also established from the in situ
MNB
tumor. DPD activity was determined in cytosolic preparations of
MNB
utilizing high performance liquid chromatography to separate the radiolabeled substrate ([2-14C]thymine) from [2-14C]dihydrothymine. The apparent affinity of DPD for NADPH in
MNB
cells (Km approximately 0.08 mM) was identical to that of A/J mouse brain and liver. The DPD activity of the high malignancy (
MNB
-T1) cell line was 14.3% of that observed in the low malignancy (
MNB
-T2) line. In situ tumors formed after implantation of high malignancy (
MNB
-T1) cells into A/J mice had only 25.2% of the DPD activity observed in tumors derived from low malignancy (
MNB
-T2) cells. When
MNB
-T2 cells were injected into naive A/J mice, tumors developed in only 68% of animals, the tumor growth rate was slow and a mortality of 20% was observed. In contrast, tumors derived from injected
MNB
-T1 cells showed a faster growth rate and 100% mortality. Most
MNB
-T2 derived tumors were not lethal and ultimately resolved while the
MNB
-T1 derived tumors were invariably lethal. These studies support the concept that the levels of DPD activity in neoplastic cells are inversely related to their malignant expression and also provide a model to study differences between
neuroblastoma
cell lines derived from the same in situ tumor but which manifest different neoplastic behavior.
...
PMID:Pyrimidine base degradation in cultured murine C-1300 neuroblastoma cells and in situ tumors. 333 27
C-1300 murine
neuroblastoma
(
MNB
) contains the catecholamine biosynthetic pathway. This study investigated manipulation of this pathway for effects on cell growth and survival in tumor-bearing mice, and to correlate these findings with specific membrane-bound dopamine-binding activity. The dopamine antagonists domperidone, pimozide, and spiroperidol inhibited macromolecular synthesis in vitro as demonstrated by decreased [3H]TdR and [14C]leu incorporation in a dose-response fashion; 56, 49, and 43% inhibition was noted at 10(-6) M concentration of each drug, respectively, with no loss of cell viability. Dopamine agonists showed no significant inhibition. Scatchard analysis of dopamine binding was consistent with a single class of receptor sites with a mean concentration of 13.2 +/- 2.0 pmole/g wet weight of tissue and mean dissociation constant (Kd) = 0.69 +/- 0.38 nM, compared to a mean receptor concentration of 28.1 +/- 5.2 pmole/g wet weight of tissue and Kd = 0.38 +/- 0.09 nM in receptor-rich dog caudate nucleus, the normal control. A/J mice injected with 1 X 10(6) tumor cells and treated with daily pimozide or domperidone had a significant increase in disease-free survival when compared to controls (15 versus 8.5 days, P less than 0.001) as well as a significant increase in overall survival (35 versus 25 days, P less than 0.001). These data suggest that dopamine antagonists inhibit macromolecular synthesis in the C-1300
MNB
. The inhibition of
MNB
tumor growth in vivo by dopamine antagonists suggests a specific chemotherapeutic approach to
neuroblastoma
, possibly mediated by dopamine receptors.
...
PMID:Inhibition of murine neuroblastoma growth by dopamine antagonists. 672 21
The in vitro and in vivo activity has been investigated of antisera prepared against a murine (C-1300)
neuroblastoma
line (
MNB
) capable of differentiation. An antibody-dependent cellular cytotoxicity (ADCC) reaction was employed using rat spleen cells (RSC). ADCC activity in vitro (using 51Cr-release) was shown, but a maximum of only 50% of the immunologically releasable 51Cr was achieved. Nevertheless, in vivo (syngeneic mouse-tumor flank assay) significant delays were obtained in tumor onset and lethality. Under ideal circumstances, i.e., coating of tumor cells prior to inoculation and high RSC effector cell ratios, a significant number of animals could be cured of substantial tumor burdens (10(6) cells). While close proximity of the site of injection of effector cells was required (ectopic injections of RSC were ineffective), the anti-
MNB
ADCC was shown to be quite active in vivo without external precoating of the cells with antisera. RCS obtained from BCG-treated rats were more numerous and slightly more effective. RSC obtained from gamma-radiated animals retained normal activity. With appropriate antisera this approach could be useful under selected clinical circumstances.
...
PMID:Antibody-dependent cellular cytotoxicity-mediated serotherapy against murine neuroblastoma. I. In vitro and in vivo treatment using normal, gamma-irradiated and immune-stimulated rat effector cells. 676 19
One hallmark of prion diseases is the accumulation of the abnormal isoform PrP(Sc) of a normal cellular glycoprotein, PrPc, which is characterized by a high content of beta-sheet structures and by its partial resistance to proteinase K. It was hypothesized that the PrP region comprising amino acid residues 109 to 122 [PrP(109-122)], which spontaneously forms amyloid when it is synthesized as a peptide but which does not display significant secondary structure in the context of the full-length PrPc molecule, should play a role in promoting the conversion into PrP(Sc). By using persistently scrapie-infected mouse
neuroblastoma
(Sc+-
MNB
) cells as a model system for prion replication, we set out to design dominant-negative mutants of PrPc that are capable of blocking the conversion of endogenous, wild-type PrPc into PrP(Sc). We constructed a deletion mutant (PrPc delta114-121) lacking eight codons that span most of the highly amyloidogenic part, AGAAAAGA, of PrP(109-122). Transient transfections of mammalian expression vectors encoding either wild-type PrPc or PrPc delta114-121 into uninfected mouse
neuroblastoma
cells (Neuro2a) led to overexpression of the respective PrPc versions, which proved to be correctly localized on the extracellular face of the plasma membrane. Transfection of Sc+-
MNB
cells revealed that PrPc delta114-121 was not a substrate for conversion into a proteinase K-resistant isoform. Furthermore, its presence led to a significant reduction in the steady-state levels of PrP(Sc) derived from endogenous PrPc. Thus, we showed that the presence of amino acids 114 to 121 of mouse PrPc plays an important role in the conversion process of PrPc into PrP(Sc) and that a deletion mutant lacking these codons indeed behaves as a dominant-negative mutant with respect to PrP(Sc) accumulation. This mechanism could form a basis for a new gene therapy and/or a prevention concept for prion diseases.
...
PMID:Overexpression of nonconvertible PrPc delta114-121 in scrapie-infected mouse neuroblastoma cells leads to trans-dominant inhibition of wild-type PrP(Sc) accumulation. 944 12
S-Adenosylmethionine (AdoMet) synthetase (EC 2.5.1.6), which catalyzes the synthesis of AdoMet from methionine and ATP, is the major methyl donor for transmethylation reactions and propylamino donor for the biosynthesis of polyamines in biological systems. We have reported previously that wild-type C-1300 murine
neuroblastoma
(wMNB) cells, made resistant to the nucleoside analogue (Z)-5'-fluoro-4',5'-didehydro-5'-deoxyadenosine (MDL 28,842), an irreversible inhibitor of S-adenosylhomocysteine (AdoHcy) hydrolase (EC 3.3.1.1), express increased AdoMet synthetase activity (M. R. Hamre et al., Oncol. Res., 7: 487-492, 1995). In the present study, immunoblot analyses of AdoMet Synthetase with isoform-specific (MATII) antibodies demonstrated an elevation in the AdoMet synthetase immunoprotein in nucleoside analogue-resistant
MNB
cells (rMNB-MDL) when compared to wild-type, nonresistant
MNB
cells. An increase of 2.1-fold was observed in the alpha2/alpha2' catalytic subunit, which differed significantly from the much smaller increment in the noncatalytic beta-subunit of AdoMet synthetase. Densitometric analyses revealed that an increased expression of AdoMet synthetase in rMNB-MDL cells was due to overexpression of the alpha2 (Mr 53,000; 2.6-fold) and alpha2' (Mr 51,000; 1.8-fold) subunits. AdoMet synthetase mRNA expression in rMNB-MDL cells was remarkably greater than wMNB cells, as determined by quantitative competitive reverse transcription-PCR (QC-PCR) analysis. DNA (cytosine) methyl transferase expression, measured by reverse transcription-PCR analysis, was also elevated significantly in rMNB-MDL cells. In contrast, Western blot analyses demonstrated down-regulation (1.6-fold) of AdoMet synthetase in doxorubicin-resistant human leukemia cells (HL-60-R) expressing multidrug resistance protein when compared with wild-type, nonresistant HL-60 cells. The resistance of rMNB-MDL cells to nucleoside analogue inhibitors of S-adenosylhomocysteine hydrolase correlates directly with overexpression of the alpha2/alpha2' subunits of AdoMet synthetase. Cellular adaptation allows sufficient AdoMet to be synthesized, so that viability of the
MNB
cells can be maintained even in the presence of high AdoHcy concentrations. This novel mechanism of drug resistance does not appear to require multidrug resistance protein (P-glycoprotein) overexpression.
...
PMID:S-adenosylmethionine synthetase is overexpressed in murine neuroblastoma cells resistant to nucleoside analogue inhibitors of S-adenosylhomocysteine hydrolase: a novel mechanism of drug resistance. 1021 91
We have previously reported that C-1300 murine
neuroblastoma
(rMNB) cells made resistant to the nucleoside analogue, (Z)-5'-fluoro-4', 5'-didehydro-5'deoxyadenosine (MDL), an irreversible inhibitor of S-adenosylhomocysteine (AdoHcy) hydrolase have an increased expression of the S-adenosylmethionine (AdoMet) synthetase gene. Results of the immunoblot analysis of DNA (cytosine) methyltransferase with anti-human DNA (cytosine) methyltransferase specific polyclonal antibody demonstrated a significant increase ( approximately 2-fold, p<0.01) in expression of DNA (cytosine) methyltransferase protein in rMNB/MDL cells compared to wild-type C1300
MNB
(wMNB) cells. To rule out the possibility that multidrug resistance (MDR) genes are involved in development of acquired drug resistance in murine
neuroblastoma
(rMNB/MDL) cells made resistant to MDL, the expression of Mdr1a, Mdr1b, Mdr2 (multidrug resistance/P-glycoprotein), and Mrp-1 (multidrug resistance associated protein) was examined in rMNB-MDL cells. The analysis of Mdr and Mrp-1 expression was performed by RT-PCR using PCR specific primers to respective genes. No significant difference was observed in the expression of MDR1a, Mdr1b and Mrp-1 genes between wMNB and rMNB-MDL cells, however, a slight decrease was noticed in Mdr1 expression in some samples. Expression of the Mdr2 (human MDR3) gene, which is not associated with the acquired drug resistance phenotype, was significantly decreased in rMNB-MDL cells. These findings were also confirmed by the immunoblot analyses using specific monoclonal antibodies to Mdr1/3 proteins. Expression of N-Myc gene--a prognostic factor in
neuroblastoma
tumors was also not altered in rMNB-MDL cells. Results of the present study suggest that acquired drug resistance in rMNB-MDL cells to MDL is associated to the overexpression of DNA (cytosine) methyltransferase, and could be due to genetic or epigenetic changes in particular to DNA hypermethylation in response to an increased AdoMet synthetase gene expression.
...
PMID:DNA (cytosine) methyltransferase overexpression is associated with acquired drug resistance of murine neuroblastoma cells. 1117 99
A fundamental event in the pathogenesis of transmissible spongiform encephalopathies (TSE) is the conversion of a normal, proteinase K-sensitive, host-encoded protein, PrP-sen, into its protease-resistant isoform, PrP-res. During the formation of PrP-res, PrP-sen undergoes conformational changes that involve an increase of beta-sheet secondary structure. While previous studies in which PrP-sen deletion mutants were expressed in transgenic mice or scrapie-infected cell cultures have identified regions in PrP-sen that are important in the formation of PrP-res, the exact role of PrP-sen secondary structures in the conformational transition of PrP-sen to PrP-res has not yet been defined. We constructed PrP-sen mutants with deletions of the first beta-strand, the second beta-strand, or the first alpha-helix and tested whether these mutants could be converted to PrP-res in both scrapie-infected
neuroblastoma
cells (Sc(+)-
MNB
cells) and a cell-free conversion assay. Removal of the second beta-strand or the first alpha-helix significantly altered both processing and the cellular localization of PrP-sen, while deletion of the first beta-strand had no effect on these events. However, all of the mutants significantly inhibited the formation of PrP-res in Sc(+)-
MNB
cells and had a greatly reduced ability to form protease-resistant PrP in a cell-free assay system. Thus, our results demonstrate that deletion of the beta-strands and the first alpha-helix of PrP-sen can fundamentally affect PrP-res formation and/or PrP-sen processing.
...
PMID:Deletion of beta-strand and alpha-helix secondary structure in normal prion protein inhibits formation of its protease-resistant isoform. 1158 71
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