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)

Growth studies were done on a cultured rat liver cell line (RLC-GAI) grown in a chemically defined medium in the presence of lead nitrate. Lead reversibly inhibited the growth of these cells even after 6 d of exposure to the heavy metal. To compare lead sensitivity in various cell lines, GI50 and LD50 values were determined in the RLC-GAI cells as well as two glioma cell lines (B82 and C(6)) and a neuroblastoma cell line (N18). The LD50 values paralleled but were consistently lower than the GI50 values. Since lead is known to affect heme synthesis, hemin was added to test the possibilty of preventing the growth-inhibitory effect of the lead. The growth capacity of lead-treated cells did not change with the addition of hemin. It is thought that differentiated cultured cell lines such as these could be useful in examining the molecular mechanism of lead toxicity.
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PMID:Cellular and molecular toxicology of lead. I. Effect of lead on cultured cell proliferation. 56 52

Effects of Cd2+, Co2+, Fe2+ and Mg2+ (1 microM and 100 microM) and Pb2+ (1 microM and 90 microM) on single-channel properties of the small-conductance (SK) and large-conductance (BK) Ca(2+)-activated K+ channels were investigated in inside-out patches of N1E-115 mouse neuroblastoma cells. Cd2+, Co2+ and Pb2+, but not Fe2+ and Mg2+, cause SK channel opening. The potency of the metals in enhancing the SK channel-open probability follows the sequence Cd2+ approximately Pb2+ > Ca2+ > Co2+ >> Mg2+, Fe2+. The four metals that cause SK channel opening are equipotent in enhancing the opening frequency of SK channels. The BK channel is activated by Pb2+ and Co2+, whereas Cd2+, Fe2+ and Mg2+ are ineffective. The potency of the metals in enhancing BK channel-open probability, open time and opening frequency follows the sequence Pb2+ > Ca2+ > Co2+ >> Cd2+, Mg2+, Fe2+. The results show that SK channels are much more sensitive to Cd2+ than BK channels and indicate that Cd2+ is a selective agonist of SK channels. It is concluded that the various metal ions bind to the same regulatory site(s) at which Ca2+ activates the SK and BK channels under physiological conditions. The different potency sequences of metal ions with respect to BK and SK channel activation indicate that the regulatory sites of these Ca(2+)-activated K+ channels have distinct chemical and physical properties.
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PMID:Divalent cations activate small- (SK) and large-conductance (BK) channels in mouse neuroblastoma cells: selective activation of SK channels by cadmium. 148 79

N1E-115 mouse neuroblastoma cells have been reported to possess two types of voltage-sensitive calcium channels: Low voltage activated, rapidly inactivating T-type (type I) and high voltage activated, slowly inactivating L-type (type II). We studied the effects of acute in vitro exposure to inorganic lead on these calcium channels, using the whole-cell variant of patch clamping. Using salines with a high lead-buffering capacity, we found that both T-type and L-type channels are reversibly inhibited in a dose-dependent manner at free Pb2+ concentrations ranging from 20 nM to 14 microM. L-type channels are somewhat more sensitive to Pb2+ than T-type channels are (L-type: IC50 approx. 0.7 microM; T-type: IC50 approx. 1.3 microM). Both channels show small but significant inhibition (approx. 10%) at 20 nM free Pb2+. Pb2+ affects neither activation nor inactivation of T-type channels, but enhances inactivation of L-type channels at holding potentials around -60 to -40 mV. A peculiar phenomenon was observed in cells exposed to 2.3 microM free Pb2+. T-type channels were inhibited in all 20 cells studied. In 15 cells, L-type channels were also inhibited, but in the remaining 5 cells, current flow through L-type channels was enhanced by Pb2+ exposure.
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PMID:Effects of inorganic lead on voltage-sensitive calcium channels in N1E-115 neuroblastoma cells. 166 May 83

Lead exposure has devastating effects on the developing nervous system, and has been implicated in variety of behavioral and cognitive deficits as well as neural morphological abnormalities. Since lead impacts many calcium-dependent processes, one likely mechanism of lead toxicity is its disruption of calcium dependent processes, among which is neuronal differentiation. We investigated the effects of inorganic lead on survival and several parameters of differentiation of cultured neurons. Three different cell types were used: Rat hippocampal neurons (a primary CNS cell type), B50 rat neuroblastoma cells (a transformed CNS-derived cell line), and N1E-115 mouse neuroblastoma cells (a transformed peripherally-derived cell line). Lead concentrations ranged from low nM to 1 mM. Lead effects differed considerably among the three cell types, with B50 cells least affected. Lead effects were generally multimodal, with fewest effects observed at intermediate concentrations. Lead inhibited neurite initiation in hippocampal neurons, but stimulated initiation in N1E-115 cells. In those cells that differentiated, lead increased dendrite numbers in hippocampal neurons and neurite numbers in N1E-115 cells. Lead exposure increased both the length and the degree of branching of axons in hippocampal neurons and the length of neurites in N1E-115 cells. We hypothesize that lead impacts multiple regulatory processes that influence neuron survival and differentiation, and that its effects show differing dose-dependencies. The differing responses of the different cell types to lead suggests that differentiation may be regulated in different ways by the three types of cells. Alternatively, or additionally, the cell types may differ in their ability to compensate for, sequester, or expel lead.
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PMID:Effects of inorganic lead on the differentiation and growth of cultured hippocampal and neuroblastoma cells. 166 May 84

The effects of inorganic lead (Pb2+) on the ion currents mediated by (1) neuronal nicotinic acetylcholine (ACh) receptors, (2) serotonin 5-HT3 receptors, as well as (3) voltage-dependent Ca2+ and Na+ channels have been investigated in voltage clamped mouse neuroblastoma cells. The nicotinic ACh receptor-ion channel complex appeared more sensitive to Pb2+ than the other ion channels investigated. Low concentrations of Pb2+ (1 nM - 3 microM) reduced the peak amplitude of the ACh-induced inward current to 74%-10% of the control value in a concentration-dependent manner. However, between 10 microM and 100 microM Pb2+ the blocking effect was reversed, while the decay of the ACh-induced inward current was delayed. These effects of Pb2+ on the nicotinic receptor-mediated inward current can be described by the sum of two sigmoidal concentration-effect curves with an IC50 value of 19 nM and an EC50 of 21 microM and with slope factors of -0.5 and 0.8, respectively. The current mediated by 5-HT3 receptors was less potently blocked by Pb2+ (IC50 = 49 microM; slope factor = -0.3). In addition, Pb2+ blocked the ion current through voltage-dependent Ca2+ channels. The IC50 value of the concentration-effect curve of block of transient type Ca2+ channels by Pb2+ is 4.8 microM and the slope factor is -0.9. Voltage-dependent Na+ channels were not affected by Pb2+ up to 100 microM. At concentrations greater than 1 microM, Pb2+ also induced a noninactivating inward current. The present results show that modification of neuronal nicotinic receptor function may contribute to neurotoxic effects of Pb2+ poisoning.
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PMID:Nanomolar concentrations of lead selectively block neuronal nicotinic acetylcholine responses in mouse neuroblastoma cells. 169 Apr 61

Superfusion with Pb2+ induces a slow, noninactivating and reversible inward current in voltage-clamped N1E-115 neuroblastoma cells. The amplitude of this inward current increases in the range of 1-200 microM Pb/+. Single-channel patch-clamp experiments have revealed that this inward current is mediated by discrete ion channels. Reversal potentials from linear I-V relationships are close to 0 mV for whole-cell and single-channel currents and the single-channel conductance amounts to 24 pS. The Pb2(+)-induced membrane current is not mediated by various known types of ion channels, since it is not blocked by external tetrodotoxin, tetraethylammonium, D-tubocurarine, atropine, ICS 205-930 and by internal EGTA. In Na(+)-free solutions superfusion with Pb2+ neither evokes a whole-cell inward current, nor single-channel openings. At -80 mV the open-time distribution of the single channels activated by 1 microM Pb2+ is dual exponential with time constants of 17 and 194 msec. When the Pb2+ concentration is increased from 1 to 20 microM these time constants decrease to 2 and 13 msec, but the amplitude of single-channel currents remains -1.9 nA. Cd2+ and Al3+ induce inward currents and single-channel openings similar to Pb2+. Time constants fitted to the open-time distribution of single channels are 14 and 135 msec in the presence of 1 microM Cd2+ and 15 and 99 msec in the presence of 50 microM Al3+. Conversely, Cu2+ induces an irreversible inward current in neuroblastoma cells. Single-channel openings are undetected in the presence of Cu2+ and in Na(+)-free solutions Cu2+ is still able to induce an inward current. It is concluded that Pb2+, Cd2+ and possibly Al3+ activate a novel type of metal ion-activated (MIA) channel in N1E-115 cells.
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PMID:Novel type of ion channel activated by Pb2+, Cd2+, and Al3+ in cultured mouse neuroblastoma cells. 169 42

The intracellular free calcium ion concentration ([Ca2+]i) of the neuroblastoma x glioma hybrid cell line, NG108-15, was measured using the 19F-nuclear magnetic resonance divalent cation indicator, 1,2-bis(2-amino-5-fluorophenoxy)ethane-N,N,N',N'-tetra-acetic acid (5F-BAPTA). The basal [Ca2+]i was measured to be 106 +/- 14 nM. Treatment with 5 microM lead (Pb) for 2 h produced a 2-fold increase in [Ca2+]i to 200 +/- 24 nM and a measurable intracellular free Pb2+ concentration ([Pb2+]i) of 30 +/- 10 pM. Intracellular free Zn2+ concentrations ([Zn2+]i) were also observed in the presence of Pb. This represents the first direct demonstration that Pb elevates the [Ca2+]i in neurons, thus providing evidence for a role of [Ca2+]i in mediating the neurotoxicity of Pb.
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PMID:Effect of lead on intracellular free calcium ion concentration in a presynaptic neuronal model: 19F-NMR study of NG108-15 cells. 260 23

Lead has been demonstrated to induce precocious glial differentiation both in vitro and in vivo. Lead-treated rat glioma (C6) and cerebellar astrocytes exhibited cytoplasmic extensions and the presence of glial endfeet after a 3-day exposure to 10(-6) to 10(-4) M PbCl2. In similar experiments no effect was noted in neuroblastoma (Neuro-2a) or on neurite outgrowth from chick spinal cord explants. This prodifferentiative effect on glia was also seen in the cerebella of postnatal rats in which the developmental expression of glial-specific glutamine synthetase activity was significantly increased up to postnatal day 12 after chronic exposure to lead from time of birth via their dam's drinking water (400 mg PbCl2/l).
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PMID:Chronic low level lead exposure precociously induces rat glial development in vitro and in vivo. 289 24

Neurotoxicity of long-term exposure to lead, aluminum and cadmium has been studied in vitro on the human neuroblastoma cell line IMR32 by measuring cytotoxicity, and the effects on neuronal-specific characteristics such as nitrite outgrowth and expression of cholinergic receptors as parameters of toxicity. Cytotoxicity was highest with cadmium, intermediate with lead and lowest with aluminum exposure. Lead, but not cadmium and aluminum, interfered with neurite growth. The expression of alpha-bungarotoxin binding sites and muscarinic receptors was markedly increased by cadmium and not affected by aluminum exposure. Lead induced only an increase of toxin binding sites. These in vitro modifications are discussed in relation to the possible use of neuronal cell lines for detecting neurotoxic effects of heavy metals.
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PMID:Effects of long-term in vitro exposure to aluminum, cadmium or lead on differentiation and cholinergic receptor expression in a human neuroblastoma cell line. 350 65

Results are reported for an interlaboratory study conducted to assess the reproducibility of analyses for lead, copper, cadmium, and zinc. The 10 participating laboratories analyzed 2 samples of freeze-dried clam tissue and 1 disguised sample of NBS Oyster Tissue. Interlaboratory variations were observed for all metals, although the methods yielded reproducible data for Cu and Zn with average interlaboratory coefficients of variation of 15 and 11%, respectively. The performance of methods used for Cd and, more so, for Pb was less than satisfactory. Cadmium levels in the 3 samples ranged from about 0.7 to 3.7 ppm with an average interlaboratory coefficient of variation (CV) of 24%. Lead levels in the 3 samples were about 0.5 ppm with an interlaboratory CV of 68%. Some laboratories' results were consistently high or low but data were insufficient to relate these trends to one particular variable. Results from this study were compared with 5 other studies reported in the literature since 1980. Coefficients of variation from all studies were comparable for samples with similar metal concentrations.
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PMID:Interlaboratory comparison of analyses for heavy metals in clam tissue. 377 59


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