UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adult A/J mice inoculated with 1 x 10(6) syngeneic C1300 neuroblastoma cells had a palpable tumor after 1 week, and the tumor grew uniformly. The hypertonic KCl extract of the tumor induced blastogenic response of syngeneic spleen cells from tumor-bearing mice, and tumor antigens were considered to be solubilized by KCl from tumor cells. Although a higher blastogenic response to insoluble tumor antigens coupled to Sepharose 4B beads could have been expected as demonstrated in this mixed lymphocyte-tumor cell reaction (MLTR) assays, the blastogenic activity, which was approximately equal to that of soluble tumor antigens, was less than one-third of that in MLTR. The initial information of blastogenic response was found to be transmitted to the responder cells with out the entrance of tumor antigens into the cells by the use of insoluble tumor antigens. Blastogenic responses to soluble tumor antigens and to irradiated tumor cells (MLTR) in spleen cells from tumor-bearing mice were serially assayed after tumor inoculation. The response to soluble tumor antigens reached a peak 2 weeks after inoculation but a progressive depression of the responses was observed after a marked tumor growth. Although the blastogenic activity of soluble tumor antigens was small, changes in consecutive response to soluble tumor antigens in tumor-bearing mice were well correlated with those in MLTR. The blastogenic responses to soluble tumor antigens and MLTR were considered to be the manifestation of tumor-specific cell-mediated immunity. Furthermore, the serial blastogenic responses to concanavalin-A and lipopolysaccharide were also coincident with those of tumor-specific immunity.
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PMID:Blastogenic response of spleen cells from C1300 neuroblastoma-bearing mice to tumor cells or soluble and insoluble tumor antigens. 15 10

The hematologic manifestations of neuroblastoma are numerous and varied. Bone marrow invasion by tumor cells may cause leukoerythroblastic changes or depression of one or more of the cell lines in the peripheral blood; occasionally bone marrow involvement may be so extensive that tumor cells may be released into the peripheral blood and lead to an erroneous diagnosis of leukemia. Anemia in neuroblastoma patients may result not only from bone marrow involvement, but also from bleeding into a tumor mass or from the hemolysis accompanying a consumption coagulopathy. A specific morphologic abnormality, the cogwheel erythrocyte, has been reported in patients with neuroblastoma. Neuroblastoma may also be associated with elevation of the platelet count or a hypercoagulable state. Recognition of these protean hematologic manifestations may facilitate diagnosis in children with atypical presentations of this highly malignant tumor.
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PMID:The multiple hematologic manifestations of neuroblastoma. 54 14

Peptichemio (PTC) is a mixture of six synthetic peptides of m-L-phenylalanine mustard. It acts with both alkylating and antimetabolic effects, interfering with the synthesis of DNA, RNA, and proteins. PTC was administered iv to 18 previously untreated children with advanced neuroblastoma at a dose of 1-1.5 mg/kg/day for one to three cycles of 5-6 consecutive days each. Eleven of 12 patients (92%) experienced both objective and subjective improvement; complete remission was achieved in two of them. In spite of the high remission rate, the median duration of remission has been short (4 months) and the overall survival (median, 6 months) did not seem to be influenced by the use of PTC. The primary toxic effects were, in order of importance, bone marrow depression, phlebosclerosis, nausea and vomiting, and alopecia. Chronic use of PTC seems limited by two major factors: profound long-lasting thrombocytopenia and severe phlebosclerosis.
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PMID:Peptichemio in advanced neuroblastoma. 65 65

The principal psychoactive component of marihuana is delta-9-tetrahydrocannabinol. This compound at 10(-5) molar concentration in the medium of human cell cultures appeared to inhibit DNA, RNA, and protein synthesis by 50, 40, and 30% respectively, as measured by incorporation of radioactive precursors into acid-insoluble cell fractions in human diploid fibroblasts, human neuroblastoma cells, and mouse neuroblastoma cells. While delta-9-tetrahydrocannabinol inhibited semiconservative DNA synthesis, it had no effect on DNA repair synthesis in human cells as assayed by the photolysis of 5-bromodeoxyuridine incorporation into DNA during repair after ultraviolet radiation damage. Delta-9-tetrahydrocannabinol also had no effect on rejoining of DNA single-strand breaks induced by gamma-rays. The nonspecificity of the inhibition of macromolecular synthesis by delta-9-THC suggested a possible interference with uptake of radioactive precursors. However, experimentation has shown that this depression of macromolecular synthesis cannot be accounted for by reduced transport of radioactive precursors into the cell because the rate of transport of these precursors into the cell is essentially the same in the presence or absence of delta-9-THC. Pool sizes of macromolecular precursors as measured radioisotopically (3H-thymidine, 3H-uridine, 14C-leucine) appear to be reduced about 50%, and this reduced pool size could fully account for the reduced macromolecular synthesis seen in the presence of delta-9-THC. We do not know what causes this apparent reduction of pool sizes in the presence of delta-9-THC.
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PMID:delta-9-Tetrahydrocannabinol: effect on macromolecular synthesis in human and other mammalian cells. 94 11

High-threshold (HVA) Ca2+ channels of human neuroblastoma IMR32 cells were effectively inhibited by noradrenaline. At potentials between -20 mV and +10 mV, micromolar concentrations of noradrenaline induced a 50%-70% depression of HVA Ba2+ currents and a prolongation of their activation kinetics. Both effects were relieved at more positive voltages or by applying strong conditioning pre-pulses (facilitation). Facilitation restored the rapid activation of HVA channels and recruited about 80% of the noradrenaline-inhibited channels at rest. Re-inhibition of Ca2+ channels after facilitation was slow (tau r 36-45 ms) and voltage-independent between -30 mV and -90 mV. The inhibitory action of noradrenaline was dose-dependent (IC50 = 84 nM), mediated by alpha 2-adrenergic receptors and selective for omega-conotoxin-sensitive Ca2+ channels, which represent the majority of HVA channels expressed by IMR32 cells. The action of noradrenaline was mimicked by intracellular applications of GTP[gamma S] and prevented by GDP[beta S] or by pre-incubation with pertussis toxin. The time course of noradrenaline inhibition measured during fast application (onset) and wash-out (offset) of the drug were independent of saturating agonist concentrations (10-50 microM) and developed with mean time constants of 0.56 s (tau on) and 3.6 s (tau off) respectively. The data could be simulated by a kinetic model in which a G protein is assumed to modify directly the voltage-dependent gating of Ca2+ channels. Noradrenaline-modified channels are mostly inhibited at rest and can be recruited in a steep voltage-dependent manner with increasing voltages.
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PMID:Voltage-dependent noradrenergic modulation of omega-conotoxin-sensitive Ca2+ channels in human neuroblastoma IMR32 cells. 133 78

1. The M-like current IK(M,ng) in differentiated NG108-15 mouse neuroblastoma x rat glioma hybrid cells has been studied using tight-seal, whole-cell patch-clamp recording. 2. When calculated from steady-state current-voltage curves, the conductance underlying IK(M,ng) showed a Boltzmann dependence on voltage with half-activation voltage Vo = -44 mV (in 3 mM [K+]) and slope factor (a) = 8.1 mV/e-fold increase in conductance. In 12 mM [K+] Vo = -38 mV and a = 6.9 mV. The deactivation reciprocal time constant accelerated with hyperpolarization with slope factor 17 mV/e-fold voltage change. 3. The reversal potential for deactivation tail currents varied with external [K+] as if PNa/PK were 0.005. 4. Steady-state current was increased on removing external Ca2+. In the presence of external Ca2+, reactivation of IK(M, ng) after a hyperpolarizing step was delayed. This delay was preceded by an inward Ca2+ current, and coincided with an increase in intracellular [Ca2+] as measured with Indo-1 fluorescence. Elevation of intracellular [Ca2+] with caffeine also reduced IK(M, ng). 5. IK(M, ng) was inhibited by external divalent cations in decreasing order of potency (mM IC50 in parentheses): Zn2+ (0.011) greater than Cu2+ (0.018) greater than Cd2+ (0.070) greater than Ni2+ (0.44) greater than Ba2+ (0.47) greater than Fe2+ (0.69) greater than Mn2+ (0.86) greater than Co2+ (0.92) greater than Ca2+ (5.6) greater than Mg2+ (16) greater than Sr2+ (33). This was not secondary to inhibition of ICa since: (i) inhibition persisted in Ca(2+)-free solution; (ii) La3+ did not inhibit IK(M, ng) at concentrations which inhibited ICa; and (iii) organic Ca2+ channel blockers were ineffective. Inhibition comprised both depression of the maximum conductance and a positive shift of the activation curve. Addition of Ca2+ (10 microM free [Ca2+]) or Ba2+ (1 mM total [Ba2+]) to the pipette solution did not significantly change IK(M, ng). 6. IK(M, ng) was reduced by 9-amino-1,2,3,4-tetrahydroacridine (IC50 8 microM) and quinine (30 microM) but was insensitive to tetraethylammonium (IC50 greater than 30 mM), 4-aminopyridine (greater than 10 mM), apamin (greater than 3 microM) or dendrotoxin (greater than 100 nM). 7. IK(M, ng) was inhibited by bradykinin (1-10 microM) or angiotensin II (1-10 microM), but not by the following other receptor agonists: acetylcholine (10 mM), muscarine (10 microM), noradrenaline (100 microM), adrenaline (100 microM), dopamine (100 microM), histamine (100 microM), 5-hydroxytryptamine (10 microM), Met-enkephalin (1 microM), glycine (100 microM), gamma-aminobutyric acid (100 microM) or baclofen (500 microM).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Kinetic and pharmacological properties of the M-current in rodent neuroblastoma x glioma hybrid cells. 140 9

The 5-hydroxytryptamine (5-HT)3 receptor blocking properties of YM060, [(R)-5-[(1-methyl-3-indolyl)carbonyl]-4,5,6,7-tetrahydro-1H- benzimidazole hydrochloride], were examined by electrophysiological and radioligand binding studies. Results were compared with those for ondansetron, granisetron and the enantiomer (S-form) of YM060. 5-HT and 2-methyl-5-HT, a selective 5-HT3 receptor agonist, induced dose-dependent depolarizations of rabbit nodose ganglion with ED50 values of 24.0 (19.9-29.1) and 40.1 (30.9-52.1) nmol, respectively (geometric mean, 95% CL). YM060, ondansetron, granisetron and the S-form dose-dependently inhibited 5-HT-induced depolarizations with IC50 values of 3.85 (2.47-5.98), 1.55 (1.26-1.91), 1.45 (1.18-1.79) and 13.5 (11.2-16.2) nM, respectively. Methysergide, a 5-HT1-like and 5-HT2 receptor antagonist, at a concentration of 10(-5) M had no effect on responses to 5-HT. YM060 up to 10(-5) M produced no significant depression of depolarizing responses to 1,1-dimethyl-4-phenylpiperazinium iodide and gamma-aminobutyric acid. YM060, ondansetron, granisetron and the S-form displaced specific binding of [3H]GR65630 to N1E-115 neuroblastoma cell membranes with Ki values of 0.091 (0.086-0.097), 7.03 (5.96-8.01), 2.02 (1.74-2.30) and 10.3 (9.96-10.6) nM, respectively. These results show that YM060, compared with ondansetron and granisetron, has considerably higher affinity for 5-HT3 receptors in N1E-115 cells and slightly less potent 5-HT3 receptor antagonistic activity in rabbit nodose ganglion. Moreover, the isomeric activity ratio (R-form/S-form) was approximately 112 in N1E-115 cells and no greater than 4 in the ganglion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of YM060, a potent and selective 5-hydroxytryptamine3 receptor antagonist, in rabbit nodose ganglion and N1E-115 neuroblastoma cells. 146 24

The influence of diazepam, an agonist, and flumazenil (Ro 15-1788), an antagonist of the benzodiazepine receptor, on repetitive firing of action potentials in cultured spinal neurons and on voltage-dependent Na+ currents in cultured N2A neuroblastoma cells was examined. The effects were compared to those of the antiepileptics phenytoin and carbamazepine and the local anesthetic lidocaine. The whole-cell configuration of the patch-clamp technique was used for potential and current recording. Diazepam (10 microM) or phenytoin (10 microM) reduced the duration of repetitive action potential discharges in 50 or 67% of the spinal neurons, respectively. At a concentration of 100 microM repetitive firing was completely blocked. Flumazenil (100 microM) had no effect. In N2A neuroblastoma cells diazepam, phenytoin, carbamazepine and lidocaine, but not flumazenil, at a concentration of 100 microM reduced the Na+ current to 60-67% of control. At 10 microM no or only a weak depression was seen with any drug. In the presence of diazepam (100 microM) the Na+ channel inactivation curve was shifted in the hyperpolarizing direction by -4.8 +/- 0.5 mV. Phenytoin, carbamazepine and lidocaine (all 100 microM) caused stronger shifts of -17.4 +/- 2.1, -10.6 +/- 0.9 and -17.0 +/- 2.1 mV, respectively. Inhibition of the Na+ current by diazepam increased use-dependently over 9 depolarizing pulses repeated at high frequency (200 Hz), whereas use-dependent effects of the other compounds developed less rapidly. At a low stimulation rate (7 Hz) use-dependent block was pronounced with lidocaine, but weak or absent with diazepam and carbamazepine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Action of diazepam on the voltage-dependent Na+ current. Comparison with the effects of phenytoin, carbamazepine, lidocaine and flumazenil. 165 Nov 46

Whole-cell voltage-clamp techniques were used to study the comparative effects of delta-9-tetrahydrocannabinol (THC) and its principal metabolite, 11-hydroxy-delta-9-tetrahydrocannabinol (11-OH-THC), on the voltage-gated sodium current in neuroblastoma cells. The parent compound markedly depressed the inward sodium current with minimal reduction of the outward current, demonstrating that the effects of the drug were related to the membrane potential. In addition, THC reduced the reversal potential, indicating that the drug modified the ion selectivity of the channel. 11-OH-THC similarly depressed inward sodium current; however, in marked contrast to the effects of the parent compound, the drug equally depressed the outward voltage-gated sodium current, indicating that its effects were not related to the membrane potential. Furthermore, 11-OH-THC differed from THC in that it did not alter the reversal potential. The results demonstrate that THC and its 11-OH metabolite both reduce inward sodium current, but their effects on the outward current and ion selectivity are distinctly different. The sum of the actions of these two cannabinoids on the voltage-gated sodium channel provides a plausible cellular basis for THC's depression of action potentials in vivo and for some of its central depressant effects.
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PMID:Differential effects of delta-9-tetrahydrocannabinol and its 11-hydroxy metabolite on sodium current in neuroblastoma cells. 166 10

The predominant consequences of mu-opioid-receptor activation are depression of both neuronal activity and transmitter release. Mu-Opioid agonists have previously been observed to increase a potassium conductance and to inhibit adenylate cyclase. We now report that activation of mu-opioid receptors directly decreases the N-type calcium-channel current in a differentiated, human neuroblastoma cell line (SH-SY5Y). The coupling between the mu-opioid receptor and the calcium channel involves a pertussis toxin-sensitive G protein and is independent of changes in adenylate cyclase activity. The inhibition of the calcium-channel current is voltage dependent because it is largely overcome by strong membrane depolarization. It is not associated with changes in the kinetics of current inactivation. Therefore, the mu-receptor belongs to the superfamily of G-protein-coupled, inhibitory neurotransmitter receptors which modulate the activity of calcium and potassium channels and adenylate cyclase.
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PMID:Mu-opioid-receptor-mediated inhibition of the N-type calcium-channel current. 167 47

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