Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have studied the uptake and removal of gallium, used as an analogue of aluminum, and the effects of aluminum itself on cultured human neuroblastoma cells treated with soluble metal complexes. The prohibitively high cost of measurement of the only available radioisotope of aluminum (26Al) precluded its usage, and so we considered that gallium, which is chemically extremely similar, would be the most suitable model. Gallium has been used thus in a number of previous biological studies and has been found to behave like aluminum in many respects. We have previously shown that Al-EDTA treatment results in uptake of aluminum and expression of hyperphosphorylated tau, a key component of Alzheimer's disease paired helical filaments. Here we demonstrate that gallium uptake can occur by two separate methods, both leading to physiologically relevant intracellular metal concentrations. Uptake from medium containing bovine transferrin occurred mainly by pinocytosis, but in the presence of human transferrin (hTf), uptake by transferrin-mediated endocytosis occurred also, despite a very low level of hTf saturation, indicating that Tf-mediated uptake is a very effective method of Ga internalization. The intracellular gallium is relatively stable, though partially removable by (1 mM) EDTA, desferrioxamine, or 1,2-dimethyl-3-hydroxypyrid-4-one. Aluminum and gallium treatment were found to increase the overall activity of lysosomal proteases, enzymes implicated in amyloid precursor protein cleavage. No effects were detected on choline acetyl transferase activity, cell growth, or tritiated thymidine incorporation or on the structure of the cells, as judged by light or electron microscopy.
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PMID:Mechanisms of uptake of gallium by human neuroblastoma cells and effects of gallium and aluminum on cell growth, lysosomal protease, and choline acetyl transferase activity. 978 93

Aluminum (Al) and iron (Fe) have been implicated as playing a toxic role in the pathologic lesions of Alzheimer's disease. In the following report we describe the uptake and toxicity of Al, the effect of Al on Fe uptake, and the expression of neurofibrillary tangle (NFT) protein in murine neuroblastoma cells (Neuro 2A). Significant cell Al uptake and inhibition of cell growth were seen in Neuro 2A cells at 24, 48, 72, and 96 h after plating in medium containing Al transferrin (Al-Tf) and Al citrate. Al-loaded Neuro 2A cells showed increased rates of 59Fe and 125I-Tf uptake and total cellular Fe content at 24, 48, 72, and 96 h after plating compared with control cultures. Significant increases in NFT protein staining were detected in Al-exposed cells at 72 and 96 h in culture compared with controls. The intensity of NFT staining in Al-loaded cells was directly proportional to the time in culture. There was no difference in malonyldialdehyde levels measured in control versus Al-loaded Neuro 2A cells. These results suggest that the accumulation of Al in Neuro 2A cells resulted in increased uptake of Fe, inhibition of cell growth, and expression of NFT protein, partially mimicking the pathological hallmarks of Alzheimer's disease. This model system may also be applicable for Al-induced dialysis dementia, because the Al concentrations at which cell toxicity occurred can be found in dialysis patients.
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PMID:Aluminum enhances iron uptake and expression of neurofibrillary tangle protein in neuroblastoma cells. 1021 85

We have identified specific iron (Fe) chelators of the pyridoxal isonicotinoyl hydrazone (PIH) class that are far more effective ligands than desferrioxamine (DFO; Richardson et al, Blood 86:4295, 1995; Richardson and Milnes, Blood 89:3025, 1997). In the present study, we have compared the effect of DFO and one of the most active chelators (2-hydroxy-1-naphthylaldehyde isonicotinoyl hydrazone; 311) on molecular targets involved in proliferation. This was performed to further understand the mechanisms involved in the antitumor activity of Fe chelators. Ligand 311 was far more active than DFO at increasing Fe release from SK-N-MC neuroepithelioma and BE-2 neuroblastoma cells and preventing Fe uptake from transferrin. Like DFO, 311 increased the RNA-binding activity of the iron-regulatory proteins (IRPs). However, despite the far greater Fe chelation efficacy of 311 compared with DFO, a similar increase in IRP-RNA binding activity occurred after 2 to 4 hours of incubation with either chelator, and the binding activity was not inhibited by cycloheximide. These results suggest that, irrespective of the Fe chelation efficacy of a ligand, an increase IRP-RNA binding activity occurred via a time-dependent step that did not require protein synthesis. Further studies examined the effect of 311 and DFO on the expression of p53-transactivated genes that are crucial for cell cycle control and DNA repair, namely WAF1, GADD45, and mdm-2. Incubation of 3 different cell lines with DFO or 311 caused a pronounced concentration- and time-dependent increase in the expression of WAF1 and GADD45 mRNA, but not mdm-2 mRNA. In accordance with the distinct differences in Fe chelation efficacy and antiproliferative activity of DFO and 311, much higher concentrations of DFO (150 micromol/L) than 311 (2.5 to 5 micromol/L) were required to markedly increase GADD45 and WAF1 mRNA levels. The increase in GADD45 and WAF1 mRNA expression was seen only after 20 hours of incubation with the chelators and was reversible after removal of the ligands. In contrast to the chelators, the Fe(III) complexes of DFO and 311 had no effect on increasing GADD45 and WAF1 mRNA levels, suggesting that Fe chelation was required. Finally, the increase in GADD45 and WAF1 mRNAs appeared to occur by a p53-independent pathway in SK-N-MC and K562 cells, because these cell lines lack functional p53. Our results suggest that GADD45 and WAF1 may play important roles in the cell cycle arrest observed after exposure to these chelators.
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PMID:The potential of iron chelators of the pyridoxal isonicotinoyl hydrazone class as effective antiproliferative agents III: the effect of the ligands on molecular targets involved in proliferation. 1039 46

The dopamine analogue 6-hydroxydopamine (6-OHDA) is selectively toxic to catecholaminergic neurons. Because of its selectivity for neuroblastic cells in the sympathetic nervous system lineage, 6-OHDA has been suggested as a chemotherapeutic agent for targeted treatment of patients with neuroblastoma. We tested the hypothesis that the toxicity of 6-OHDA is caused by its interaction with serum ferric transferrin (Fe-TF) resulting in release of iron. We further hypothesized that this iron, through its redox-cycling by 6-OHDA, triggers generation of reactive oxygen species. 6-OHDA-induced release of iron from Fe-TF was demonstrated by: (1) low-temperature EPR spectroscopic evidence for decay of the characteristic Fe-TF signal (g = 4.3) and appearance of the high-spin signal from iron chelated by 6-OHDA oxidation products; (2) spectrophotometric detection of complexing of iron with the Fe(2+) chelator ferrozine; (3) redox-cycling of ascorbate yielding EPR-detectable ascorbate radicals; and (4) generation of hydroxyl radicals as evidenced by EPR spectroscopy of their adduct with a spin trap, 5, 5'-dimethylpyrroline oxide (DMPO) (DMPO-OH). Our low-temperature EPR studies showed that in human plasma, 6-OHDA caused iron release only under nitrogen gas but not under air or oxygen. The absence of a 6-OHDA effect in plasma under aerobic conditions was most likely due to its ferroxidase activity [with consequent reuptake of Fe(III) by apoTF] and catalytic oxidation of 6-OHDA by ceruloplasmin. Modeling of these plasma activities by a stable nitroxide radical, 2,2,6, 6-tetramethyl-1-piperidinyloxy (TEMPOL), resulted in protection of plasma Fe-TF against iron release under nitrogen. Parenteral administration of 6-OHDA to mice resulted in iron release from Fe-TF as evidenced by transformation of the Fe-TF low-temperature EPR signal that was indistinguishable from that seen in in vitro models. In addition, administration of the iron chelator deferoxamine (DFO) to mice prior to administration of toxic doses of 6-OHDA resulted in a decrease in activity impairment of mice as compared to that seen with 6-OHDA alone. These findings underscore the physiological and pharmacological relevance of 6-OHDA-mediated iron release from Fe-TF and suggest that iron chelators (DFO) may be used for prevention of 6-OHDA toxicity.
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PMID:Interaction between 6-hydroxydopamine and transferrin: "Let my iron go". 1072 33

We explored the potential of the xenogenization concept as an adjuvant procedure in anti-tumor immunity. To mediate effective loading we used polyarginine (pArg) molecules of various degrees of polymerization, cationic liposomes, or chimeric molecules of transferrin (Tf) and the polycation polyethyleneimine (PEI). Tetanus toxoid (TT) was loaded onto primary human leukemia cells, culture adapted primary human neuroblastoma cells, and human lymphoblastoid cell lines (LCLs) with high efficiency by all procedures. Trypsin treatment of loaded cells provided evidence that only liposomes and Tf-PEI mediated internalization of TT. Lymphocytes primed with xenogenized LCLs and challenged with unmodified LCLs showed increased IFNgamma secretion compared with lymphocytes primed with non-xenogenized LCLs.
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PMID:Xenogenization by tetanus toxoid loading into lymphoblastoid cell lines and primary human tumor cells mediated by polycations and liposomes. 1109 Sep 75

An alpha-2,8-sialyltransferase (ST8), the enzyme involved in the biosynthesis of polysialic acid chains, has been purified and partly characterized from undifferentiated human erythroleukemia K562 cells. Purification, based on a key step of affinity chromatography utilizing immobilized colominic acid, was greater than 1000-fold. The enzyme molecular weight determined by SDS-PAGE was estimated to be about 40 kDa, in good agreement with literature data. For the determination of the main kinetic parameters (Vmax and K(M)), fetuin turned out to be the unique substrate acceptor. In fact, other compounds such as asialofetuin, transferrin, alpha1-acid glycoprotein, and G(M3), routinely used to explore the different ST8 isoforms' activities, did not serve as substrate acceptors. In all cases, contrary to the routinely adopted protocol where a radioactive substrate donor is employed, for our purpose a non-radioactive, fluorescent substrate donor such as cytidine-5'-monophospho-9-(3-fluoresceinylthioureido)-9-deoxy-N-acetyl-neuraminic acid (CMP-9-fluoresceinyl-NeuAc) was used. Thus, under our experimental conditions, by using fetuin, data reported in a typical Lineweaver-Burk plot gave a Vmax value of about 4 nkatal/mg of protein and a K(M) value around 0.61 mM. Just as with the estimated molecular weight, these kinetic data were also in good agreement with those already reported for the ST8 purified from human neuroblastoma CHP-134 cells. In particular, in both cases, Vmax values were almost similar (4 nkatal/mg of protein for our ST8 purified from K562 cells and 4.35 nkatal/mg of protein for ST8 purified from CHP-134 cells); conversely, the K(M) value we found was about 3.25-fold lower than that found by Stoykova and Glick (0.61 mM vs. 2 mM). Then, although our purification was lower than that obtained by Stoykova and Glick (1080-fold vs. 2910-fold), the enzyme we purified showed a greater apparent affinity.
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PMID:Purification and partial characterization of an alpha-2,8-sialyltransferase from human erythroleukemia K562 cells. 1176

We have recently developed surface-shielded transferrin-polyethylenimine (Tf-PEI)/DNA delivery systems that target reporter gene expression to distant tumors after systemic application. In the present study, we used surface-shielded Tf-PEI/DNA complexes for delivering the gene for a highly potent cytokine, tumor necrosis factor-alpha (TNFalpha). TNFalpha is known for its ability to induce hemorrhagic tumor necrosis and tumor regression. However, the therapeutic application of TNFalpha is hampered by its high systemic toxicity dictating the need to target TNFalpha activity to the tumor. Systemic application of surface-shielded Tf-PEI complexes with the TNFalpha gene resulted in preferential expression of TNFalpha in the tumor without detectable TNFalpha serum levels, in contrast to the application of nontargeted complexes. Tumor-targeted TNFalpha gene delivery induced pronounced hemorrhagic tumor necrosis and inhibition of tumor growth in three murine tumor models of different tissue origins, Neuro2a neuroblastoma, MethA fibrosarcoma, and M-3 melanoma, with complete tumor regressions observed in the MethA model. No systemic TNF-related toxicity was observed due to the localization of the TNFalpha activity to the tumor. Targeted gene therapy may be an attractive strategy applicable to highly active, yet toxic, molecules such as TNFalpha.
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PMID:Tumor-targeted gene delivery of tumor necrosis factor-alpha induces tumor necrosis and tumor regression without systemic toxicity. 1213 28

The objective of this study was to investigate the functional significance of Ankhzn, a novel zinc binding FYVE finger protein, which was previously identified by our gene trap experiment. On the basis of the fact that a family of FYVE double zinc finger proteins is involved in membrane transport, the present immunohistochemical study was undertaken with a focus on the localization of Ankhzn and endocytotic structures. First, the distribution of Ankhzn was observed in mouse macrophages that were in the process of incorporation of dextran particles in vitro. Ankhzn was further demonstrated in phagocytosed transferrin labeled with Texas red. Second, the topological relationship between the localization of Ankhzn and that of transferrin receptor was studied in neuroblastoma-derived B103 cells. Some but not all Ankhzn immunoreactive vesicles simultaneously contained transferrin receptor. Third, the immunoreactivity of Ankhzn was compared between serum-supplemented and serum-free cultures of B103 cells. A marked increase in the immunostaining of Ankhzn was seen in starved B103 cells. All of these observations suggest that Ankhzn is essential for the formation of endocytotic and autophagocytotic vesicles.
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PMID:[Possible involvement of Ankhzn, a novel protein possessing FYVE domain, in cellular endocytosis and autophagocytosis in vitro]. 1283 55

Surface-shielded DNA delivery systems have been synthesized with virus-like characteristics that target gene expression into distant tumor tissues. Polyethylenimine (PEI)/DNA complexes ('polyplexes') conjugated with the cell-binding ligand transferrin (Tf) or epidermal growth factor (EGF) were used to achieve receptor-mediated endocytosis. The surface charge of the complexes was masked by covalently linking PEI to polyethylene glycol (PEG). Three alternatives for generating these surface-shielded formulations were utilized, attaching ligand and PEG molecules to PEI either before or after DNA complex formation. The stabilized formulations could be ultra-concentrated, stored frozen, and applied systemically after thawing. Intravenous injection of Tf-PEG-coated polyplexes resulted in gene transfer to subcutaneous Neuro2a neuroblastoma tumors of syngeneic A/J mice; EGF-PEG-coated polyplexes were intravenously applied for targeting human hepatocellular carcinoma xenografts in SCID mice. In these models, luciferase marker gene expression levels in tumor tissues were 10- to 100-fold higher than in other organ tissues. Repeated systemic application of Tf-PEG-PEI/DNA complexes encoding tumor necrosis factor alpha (TNF-alpha) into tumor-bearing mice induced tumor necrosis and inhibition of tumor growth in three murine tumor models of different tissue origin (Neuro2a, M-3 or B16 melanoma).
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PMID:Tumor-targeted gene therapy: strategies for the preparation of ligand-polyethylene glycol-polyethylenimine/DNA complexes. 1293 49

Iron homeostasis is crucial to normal cell metabolism, and its deficiency or excess is associated with numerous disease states. The association of increased iron load with cancer may be due to several factors including free radical production, reduction of the body's protective mechanism to combat oxidative stress, inhibition of immune systems, inhibition of essential nutrient functions, facilitation of cancer growth, suppression of antitumor actions of macrophages, and lowering of the ratio of T4-T8 positive lymphocytes. Antiproliferative effects of desferoxamine (DFO) both in vitro and in vivo are mediated by an intracellular pool of iron that is necessary for DNA synthesis rather than prevention of iron uptake from transferrin. Several clinical studies have shown it to have antitumor activity in the treatment of neuroblastoma, leukemia, bladder carcinoma, and hepatocellular carcinoma. Human neural tumor cells are susceptible to the effects of DFO. Continued study of DFO is necessary to further elucidate its antineoplastic profile and its use as an adjunct to current chemotherapy regimens. Given the lack of satisfactory treatment of central nervous system neoplasms, DFO could serve as an important tool in the management of such cancers.
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PMID:Desferoxamine (DFO)--mediated iron chelation: rationale for a novel approach to therapy for brain cancer. 1516 94


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