Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Isoniazid (INH) is one of the anti-tuberculosis drugs widely prescribed for patients since the early 1950s. It is relatively nontoxic but some patients develop peripheral neuropathy attributed to a disturbance of vitamin B6 metabolism. Some isoniazid metabolites are hepatotoxic but little is known about their neurotoxic property. Isoniazid and its metabolites including acetylisoniazid, acetylhydrazine, diacetylhydrazine, isonicotinic acid and hydrazine were examined for their potential neurotoxic effects in cultured mouse dorsal root ganglion (DRG) neurons and mouse neuroblastoma x DRG neuron hybrid cell line N18D3. Isoniazid did not cause neurotoxicity at exposures up to 7 days. Hydrazine was found to be the most toxic metabolite with LC50 values of 2.7 mM and 0.3 mM after 7 days of exposure in DRG neurons and N18D3 hybrid neurons, respectively. Other metabolites including acetylisoniazid, acetylhydrazine, diacetylhydrazine and isonicotinic acid had moderate to minor neurotoxic effects on N18D3 hybrid neurons. Pyridoxine, which is used in clinical practice to prevent or ameliorate the isoniazid-induced neuropathy, did not consistently reverse the neurotoxicity of any of the metabolites in the cell cultures, but some interaction with hydrazine cannot be ruled out. Pyridoxine itself was found to be neurotoxic both in DRG neurons and N18D3 hybrid neurons, in agreement with human peripheral sensory neuropathy caused by prolonged overdosage. The enzymes catalase and superoxide dismutase and the antioxidant agent selenium showed some protection against hydrazine neurotoxicity, suggesting an involvement of the generation of reactive oxygen species in the pathogenesis of isoniazid neuropathy. Both mouse DRG neurons and N18D3 mouse hybrid neurons were shown to be useful culture systems for elucidating the neurotoxicity mechanisms of agents causing sensory neuropathies and general neurotoxic effects in the nervous system.
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PMID:Neurotoxicity of isoniazid and its metabolites in cultures of mouse dorsal root ganglion neurons and hybrid neuronal cell line. 1069 74

Peripheral neuropathy following cisplatin treatment is a major limiting factor in cisplatin chemotherapy of cancer patients. We investigated the pathomechanism underlying cisplatin neuropathy using a mouse dorsal root ganglion neuron-neuroblastoma hybrid cell line (N18D3) developed in our laboratory. DNA fragmentation, a characteristic feature of apoptosis, was induced in hybrid neurons following treatment with cisplatin. Accumulation of p53, Fas, and Fas ligand (Fas-L) was also demonstrated in these neurons. Preincubation with N-acetylcysteine (NAC), a precursor of glutathione, blocked cisplatin-induced apoptosis completely, whereas Trolox, a vitamin E analogue, blocked it partially. Cisplatin-induced p53 accumulation was suppressed by NAC treatment, whereas p53 accumulation was retarded by Trolox treatment. In contrast, neither NAC nor Trolox showed any inhibitory effect on cisplatin-induced Fas/Fas-L accumulation. These results suggest that the neuroprotective effects of antioxidants against cisplatin-induced neurotoxicity in hybrid neurons are mediated mainly through the inhibition of p53 accumulation but not of Fas/Fas-L accumulation by these antioxidants.
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PMID:Cisplatin-induced apoptotic cell death in mouse hybrid neurons is blocked by antioxidants through suppression of cisplatin-mediated accumulation of p53 but not of Fas/Fas ligand. 1093 75

Increased titers of IgM anti-GM1 antibodies are present in some patients with Lower Motor Neuron Disease (LMND) or Motor Neuropathy (MN), but their pathogenic role and the mechanism of action are unclear. Previous studies have shown that the B subunit of Cholera Toxin (CT), which binds and crosslinks ganglioside GM1, modulate intracellular calcium in murine neuroblastoma cells via the activation of L-type voltage-dependent calcium channels (VGCC). Therefore, using a fluorimetric approach, we have examined the hypothesis that the pentameric IgM anti-GM1 antibodies, could similarly alter calcium concentration in N18 neuroblastoma cells. Sera with human IgM anti-GM1 antibodies were obtained from 5 patients with LMND and 2 patients with MN. Human IgG anti-GM1, IgM anti-Myelin Associated Glycoprotein (MAG), IgM anti-sulfatide antibodies and lectin peanut agglutinin (PNA), that recognizes specifically the Gal(betal-3)GalNAc epitope, were used as control sera. Direct application of either human IgM anti-GM1 antibodies or the B subunit of CT to N18 neuroblastoma cells induced a sustained influx of manganese ions, as indicated by a quench of the intracellular fura-2 fluorescence. Furthermore, the dihydropyridine L-type channel antagonists completely inhibited the manganese influx, suggesting that it is due to activation of an L-type VGCC. The magnitude of the influx was correlated with antibody titers. None of human IgG anti-GM1, IgM anti-MAG, IgM anti-sulfatide antibodies or PNA induce an ion influx, pointing to the selective participation of the pentameric IgM isotype of anti-GM1 in the modulation of L-type calcium channels opening. Given that L-type calcium channels are present on motor neurons, the modulation of L-type calcium channels by IgM GM1 antisera may have important implications in diseases such as LMND and MN.
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PMID:Human IgM anti-GM1 autoantibodies modulate intracellular calcium homeostasis in neuroblastoma cells. 1124 34

Anti-GM2 IgM antibodies have been reported in some patients with dysimmune neuropathy or lower motor neuron syndrome. To determine whether these antibodies can induce complement-dependent cytolysis we performed a cytotoxicity assay on neuroblastoma cells with sera from seven patients with demyelinating dysimmune neuropathies and high titers of anti-GM2 IgM. As controls we used sera from seven patients with other anti-neural reactivities, six with the same neuropathies but no anti-GM2 or other anti-neural reactivity and from eight normal subjects. Of the seven positive sera tested, six induced complement-mediated cytotoxicity, while none of the controls had any relevant effect on neuroblastoma cells. Preincubation of positive sera with purified GM2 removed cytotoxic activity. Affinity purified anti-GM2 IgM had the same cytotoxic anti-GM2 effect of whole serum while serum or complement alone did not have any effect. In four anti-GM2-positive patients the percentage of cell lysis correlated with anti-GM2 titers and with IgM staining of neuroblastoma cells while in two the cytotoxic effect was higher than expected from antibody titers. Complement-mediated cell lysis induced by anti-GM2 IgM antibodies may be a possible mechanism of neural damage in patients with dysimmune neuropathy and high titers of anti-GM2 IgM antibodies.
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PMID:Anti-GM(2) IgM antibody-induced complement-mediated cytotoxicity in patients with dysimmune neuropathies. 1124 36

Organophosphorus (OP) compounds used as insecticides and chemical warfare agents are known to cause potent neurotoxic effects in humans and animals. Organophosphorus-induced delayed neuropathy (OPIDN) is currently thought to result from inhibition of neurotoxic esterase (NTE), but the actual molecular and cellular events leading to the development of OPIDN have not been characterized. This investigation examined the effects of OP compounds on the SY5Y human neuroblastoma cells at the cellular level to further characterize cellular targets of OP neurotoxicity. Mipafox and paraoxon were used as OP models that respectively do and do not induce OPIDN. Mipafox (0.05 mM) significantly decreased neurite length in SY5Y cells differentiated with nerve growth factor (NGF) while paraoxon at the same concentration had no effect when evaluated after each of three 4-day developmental windows during which cells were treated daily with OP or vehicle. In contrast, paraoxon but not mipafox altered intracellular calcium ion levels ([Ca(2+)](i)), as seen in three types of experiments. First, immediately following the addition of a single high concentration of OP to the culture, paraoxon caused a transient increase in [Ca(2+)](i), while mipafox up to 2 mM had no effect. Paraoxon hydrolysis products could also increase intracellular Ca(2+) levels, although the pattern of rise was different than it appeared immediately after paraoxon administration. Second, repeated low-level paraoxon treatment (0.05 mM/day for 4 days) decreased basal [Ca(2+)](i) in NGF-differentiated cells, though mipafox had no effect. Third, carbachol, a muscarinic acetylcholine receptor agonist, transiently increased [Ca(2+)](i) in differentiated cells, an affect attenuated by 4-day pretreatment with paraoxon (0.05 mM/day), but not by pretreatment with mipafox. These results indicate that the decrease in neurite extension that resulted from mipafox treatment was not caused by a disruption of Ca(2+) homeostasis. The effects of OPs that cause or do not cause OPIDN were clearly distinguishable, not only by their effects on neurite length, but also by their effects on Ca(2+) homeostasis in differentiated SY5Y cells.
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PMID:Neurotoxicity induced in differentiated SK-N-SH-SY5Y human neuroblastoma cells by organophosphorus compounds. 1263 2

alpha-Synuclein accumulates in Lewy bodies and two missense mutations, A30P and A53T, have been linked to familial Parkinson's disease. Neither the normal function of alpha-synuclein nor the pathomechanism of alpha-synuclein-induced neuropathy are known. SK-N-MC neuroblastoma cells were transiently transfected with either wt alpha-synuclein, or its mutants, and their abilities to protect against oxidative stress were assessed. At low expression levels (1 microg cDNA/10(5) cells), all three synuclein variants were devoid of any effect on dopamine-induced cytotoxicity and nitrite production, whereas at higher expression (5 microg cDNA/10(5) cells), the variants enhanced dopamine-mediated effects. Low levels of wt alpha-synuclein blocked H(2)O(2)-induced cytotoxicity and nitrite production, a protective effect that was partly decreased upon higher expression. Both A30P and A53T increased in a dose-dependent manner H(2)O(2)-induced nitrite production and cell death. These results show an absence of protective effects for the A30P/A53T mutants, and a differential cytoprotective role of alpha-synuclein against oxidants, which varies according to expression levels.
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PMID:Differential cytotoxicity of dopamine and H2O2 in a human neuroblastoma divided cell line transfected with alpha-synuclein and its familial Parkinson's disease-linked mutants. 1272 33

Immune responses are an input source of modulation/modification for the peripheral nervous system that can result in pain and/or peripheral neuropathy. The resulting pain can be a significant debilitating component of many diseases as well as an untoward side effect of treatment. This paper briefly describes three sources of peripheral neuropathy generated in the presence of, or associated with, an immune response. Two are classified as autoimmune diseases. The body, in an attempt to rid itself of a tumor or an invading bacterial infection or virus, attacks its nervous system due to molecular mimicry; this results in, respectively, paraneoplastic neuropathy or inflammatory polyneuropathy. The third neuropathic pain syndrome is iatrogenic and occurs after administration of an antibody to GD2 ganglioside as an immunotherapy for neuroblastoma. This paper will attempt to point out some common elements in their neuropathologies and mechanisms.
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PMID:Antibody activation and immune reactions: potential linkage to pain and neuropathy. 1510 75

Organophosphorus (OP) compounds produce potent neurotoxic effects in humans, including organophosphorus-induced delayed neuropathy (OPIDN). This investigation examined the potential for the 200-kD neurofilament protein (NF200) and other neuronal proteins to serve as indicators for neurite damage in a differentiated SY5Y human neuroblastoma cell culture system. Mipafox, which induces OPIDN, increased NF200 protein expression in SY5Y cells differentiated with human recombinant beta-nerve growth factor (NGF, 20 ng/ml) in a concentration-dependent manner, compared to NGF controls, when SY5Y cells were exposed to 0.3 or 30 microM mipafox during the last 5 days of neurite extension (experimental set A). However, mipafox produced little change in NF200 protein expression in SY5Y cells exposed continuously throughout neurite elongation (experimental set B). Paraoxon (up to 30 microM), which does not produce OPIDN, did not produce any change in NF200 expression in set A or set B. The upregulation of NF200 by mipafox may represent a compensatory response to neurite degeneration. Two other neuronal proteins, growth-associated protein 43 (GAP43) and microtubule-associated protein 2ab (MAP2ab), showed no changes in response to OP treatment in NGF-treated cells. Protein expression of NF200 was shown to be an indicator by which the sensitivities of SY5Y cells to mipafox and paraoxon were distinguishable at the molecular level. These results indicate an alternative approach and test system for investigating structure-activity relationships of OPs.
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PMID:Neurofilament 200 as an indicator of differences between mipafox and paraoxon sensitivity in Sy5Y neuroblastoma cells. 1520 30

Mutations in GDAP1, the ganglioside-induced differentiation-associated protein 1 gene, cause Charcot-Marie-Tooth (CMT) type 4A, a severe autosomal recessive form of neuropathy associated with either demyelinating or axonal phenotypes. Here, we demonstrate that GDAP1 has far greater expression in neurons than in myelinating Schwann cells. We investigated cell localization of GDAP1 in a human neuroblastoma cell line by means of transient overexpression and co-localization with organelle markers in COS-7 cells and by western blot analysis of subcell fractions with anti-GDAP1 polyclonal antibodies. We observed that GDAP1 is localized in mitochondria. We also show that C-terminal transmembrane domains are necessary for the correct localization in mitochondria; however, missense mutations do not change the mitochondrial pattern of the wild-type protein. Our findings suggest that CMT4A disease is in fact a mitochondrial neuropathy mainly involving axons and represents a disease belonging to the new category of mitochondrial disorders caused by mutations in nuclear genes. We postulate that GDAP1 may be related to the maintenance of the mitochondrial network.
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PMID:GDAP1, the protein causing Charcot-Marie-Tooth disease type 4A, is expressed in neurons and is associated with mitochondria. 1577 96

Recent studies in vivo and in vitro suggested that mitochondrial dysfunction follows exposure to organophosphorus (OP) esters. As mitochondrial ATP production is important for cellular integrity, ATP production in the presence of OP neurotoxicants was examined in a human neuronal cell line (SH-SY5Y neuroblastoma cells) and primary dorsal root ganglia (DRG) cells isolated from chick embryos and subsequently cultured to achieve maturation with axons. These cell culture systems were chosen to evaluate toxic effects on the mitochondrial respiratory chain associated with exposure to OP compounds that do and do not cause OP-induced delayed neuropathy (OPIDN), a disorder preceded by inhibition of neurotoxic esterase (NTE). Concentration- and time-response studies were done in neuroblastoma cells exposed to phenyl saligenin phosphate (PSP) and mipafox, both compounds that readily induce delayed neuropathy in hens, or paraoxon, which does not. Phenylmethylsulfonyl fluoride (PMSF) was included as a non-neuropathic inhibitor of NTE. Purified neuronal cultures from 9 day-old chick embryo DRG were treated for 12 h with 1 microM PSP, mipafox, or paraoxon. In situ evaluation of ATP production measured by bioluminescence assay demonstrated decreased ATP concentrations both in neuroblastoma cells and chick DRG neurons treated with PSP. Mipafox decreased ATP production in DRG but not in SH-SY5Y cells. This low energy state was present at several levels of the mitochondrial respiratory chain, including Complexes I, II, III, and IV, although Complex I was the most severely affected. Paraoxon and PMSF were not effective at all complexes, and, when effective, required higher concentrations than needed for PSP. Results suggest that mitochondria are an important early target for OP compounds, with exposure resulting in depletion of ATP production. The targeting of neuronal, rather than Schwann cell mitochondria in DRG following exposure to PSP and mipafox was verified by loss of the mitochondrial-specific dye, tetramethylrhodamine, in these cells. No such loss was seen in paraoxon exposed neurons isolated from DRG or in Schwann cells treated with any of the test compounds.
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PMID:Effects of organophosphorus compounds on ATP production and mitochondrial integrity in cultured cells. 1589 55


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