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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The electrical properties and the possible regulation of these properties were studied by means of intracellular microelectrode recordings in cells of mouse
neuroblastoma
clone N1E-115. This clone has high levels of tyrosine hydroxylase and regulates this enzyme. Cells treated for 24 h with 4 muM aminopterin followed by at least 5 days in culture developed rhythmic discharge of action potentials when superfused with phosphate-buffered saline containing less than 0.2 mM
calcium
or less than 0.2 mM
calcium
and zero potassium. This ionic excitation occurred in no cells at less than 5 days after treatment with aminopterin but at 5 days or more after treatment, 20% of cells responded to low
calcium
while 52% responded to low
calcium
and zero potassium. Concomitant with the development of a susceptibility to ionic excitation was an increase in the average resting membrane potential and morphologic maturation. This ionic excitation of cultured mouse
neuroblastoma
cells may be useful for studying biochemical events associated with repetitive discharge of action potentials.
...
PMID:Ionic excitation of a clone of mouse neuroblastoma. 23 72
Catecholamines induce bone resorption and hypercalcaemia by the beta-adrenergic effect in bone and hypercalciuria by the alpha adrenergic effect in kidney. The interplay between the alpha-adrenergic hypercalciuria and beta-adrenergic hypercalcaemia explains why in some, but not all, phaeochromocytomas hypercalcaemia occurs. The hypothesis predicts hypercalciuria in both phaeochromocytoma and
neuroblastoma
. In hyperthyroidism, negative
calcium
balance and hypercalcaemia cannot be attributed to the direct effect of thyroid hormones on the bone but can be explained by augmentation of the catecholamine effects on bone and kidney by thyroid hormones. The hypothesis offers a solution for an apparent paradox in hyperthyroidism of increased urinary cAMP while nephrogenous cAMP is decreased. It also explains why propranolol corrects hypercalcaemia without influencing renal
calcium
loss.
...
PMID:Catecholamines cause the hypercalciuria and hypercalcaemia in phaeochromocytoma and in hyperthyroidism. 33 Oct 32
1. Action potentials elicited in solutions with elevated [
Ca2+
] (1.8-40 mM) have been studied in differentiated cells of mouse
neuroblastoma
clone N1E-115 in tissue culture. 2. The action potential in high [
Ca2+
] solutions containing eithr Na+ or Tris is followed by a prolonged after-hyperpolarization (a.h.p.) lasting 0.5-4 sec. The a.h.p. reverses sign between -75 and -85 mV. 3. Externally applied tetraethylammonium (TEA, 15 mM) increases the
Ca2+
spike overshoot, prolongs the falling phase and enhances the a.h.p. duration. The a.h.p. is inhibited by
Ca2+
antagonists such as La3+, Co2+ and Mn2+. 4. After replacement of
Ca2+
by Ba+ or Sr2+ (20mM) action potentials can still be elicited in Na+-free solution, but no a.h.p. is observed. 5. Increasing [
Ca2+
] from 1.8 up to 20 mM results in an increased capability of
neuroblastoma
cells to fire repetitively and in a consistent reduction of the firing rate from about 4-10 sec-1 to 0.5-1.8 sec-1. 6. It is concluded that
Ca2+
entry during the action potential activates a TEA-resistant K+ conductance which gives rise to the prolonged a.h.p. Data from repetitively firing cells are consistent with the view that the a.h.p. plays a role in the regulation of low-frequency firing.
...
PMID:The calcium action potential and a prolonged calcium dependent after-hyperpolarization in mouse neuroblastoma cells. 49 Mar 57
1. The
Ca2+
inward current (ICa) and a slow outward current in differentiated cells of mouse
neuroblastoma
clone N1E-115 have been studied under voltage-clamp conditions. 2. ICa shows voltage- and time-dependent inactivation when evoked by step-wise depolarizations in Na+-free solution containing high [
Ca2+
] (20 nM) and tetraethylammonium (TEA, 25 mM). Ba2+ and Sr2+ can substitute for
Ca2+
. 3. Holding potentials below -70 mV maximal activate ICa. Half inactivation occurs at -56 mV and ICa is completely inactivated beyond holding levels of -30 mV. Maximum peak currents are of the order of 10(-4) A/cm2 and the reversal potential ranges from +40 to +60 mV. The ICa inactivation time course follows first-order kinetics with a voltage-depedent time constant ranging from 25 to 100 msec. 4. The striking resemblance between ICa and the
Ca2+
current in the unfertilized mouse oocyte (Okamoto, Takahashi & Yamashita, 1977) is discussed. 5. A slow outward current with a rise time of several seconds is recorded on voltage steps beyond -20 mV in high [
Ca2+
] solutions. It is carried primarily by K+ on account of the value of the reversal potential and its dependence on [K]0. This K+ current is TEA-insensitive and is blocked by
Ca2+
antagonists. 6. The slow K+ current (IK(Ca)) is suggested to be mediated by
Ca2+
influx, but the voltage-dependence of the underlying conductance (GK(Ca)) differs significantly from the ICa voltage-dependence. 7. The results are consistent with the hypothesis that IK(Ca) depends both on ICa and on membrane potential. An alternative hypothesis is briefly discussed.
...
PMID:The calcium current and the activation of a slow potassium conductance in voltage-clamped mouse neuroblastoma cells. 49 Mar 59
The authors examined both hard and soft glass evacuated blood-drawing tubes for possible effects on clinical chemistry measurements. Using routine laboratory procedures, no clinically or statistically significant difference could be detected in 34 analytes using 66 different methods. A special high-precision study utilizing an adaption of the
NBS
round-robin procedures for
calcium
, magnesium, sodium, and potassium detected no difference between paired sera when drawn or stored for 72 hours, or both, in the two types of glass. The authors conclude that the type of glass used in production of the evacuated blood-drawing tubes does not affect the clinical chemistry results obtained.
...
PMID:A comparison of hard and soft glass blood-drawing tubes. 51 61
Examination of ionic membrane currents in a voltage-clamped neuronal cell line derived from the mouse C1300
neuroblastoma
disclosed four kinetically different components: sodium, potassium,
calcium
, and leakage current. The kinetics, voltage dependence, and pharmacological properties of the sodium and potassium currents qualitatively resemble those of the corresponding currents in squid giant axon and frog myelinated nerve fiber, suggesting that the molecular structures of the sodium and potassium channels in
neuroblastoma
are similar to those of the non-mammalian preparations.
...
PMID:Membrane currents examined under voltage clamp in cultured neuroblastoma cells. 55 42
Isolated
neuroblastoma
cells (clone A-1 from clone N-18) were investigated by means of the intracellular dialysis technique. Changes in the ionic composition of intra- and extracellular media show that the fast inward current is carried by Na ions and delayed outward current is carried by K ions. Na inward current was blocked by TTX.
Calcium
inward current was not observed. Substitution of Na ions for K ions showed that PNa: PK = 7:1. A relatively low potassium conductance was found in the
neuroblastoma
cells.
...
PMID:[Transmembrane ionic currents in neuroblastoma cells]. 56 25
1. Ionic currents in differentiated cells of mouse
neuroblastoma
clone N1E-115 have been studied under voltage-clamp conditions. 2. Depolarizing voltage steps from a holding potential of -85 mV to levels more positive than -40 mV produced fast transient inward currents followed by delayed outward currents. 3. The fast inward current is carried by Na+: it is blocked by tetrodotoxin and is absent in Na+-free solutions. Its kinetic behaviour resembles that of the Na+ current in squid giant axon. A mean value of 85 mmho/cm2 was found for the maximum Na+ conductance (GNa).4. The delayed outward current is carried primarily by K+: it is blocked by externally applied tetraethylammonium (TEA, 15 mM) and has a reversal potential (mean -71 mV) close to the theoretical K+ equilibrium potential. Its instantaneous I--V curve is linear. By analogy with the formulation of Hodgkin & Huxley (1952c), the outward current can be described by IK = -GKn2(V--EK) where GK = 12 mmho/mc2. 5. During prolonged depolarizations the delayed outward current declines. This decline, which occurs in two phases, represents a partial inactivation of the K+ conductance. 6. A weak inward current with slow activation and inactivation kinetics appears in Na+-free solution containing 10 mM-
Ca2+
. It is activated at a membrane potential of -55 mV and reaches its maximum at -20 mV with a time to peak of about 10 msec. This current is tetrodotoxin-resistant, reversibly blocked by Co2+ (5mM) and is suggested to be carried by
Ca2+
. 7. An increase in the external divalent cation concentration results in a parallel shift of the steady-state I--V curve along the voltage axis in positive direction. The activation of delayed outward currents is suggested not to depend on
Ca2+
influx. 8. It is concluded that separate voltage-dependent Na+, K+ and
Ca2+
channels exist in the differentiated
neuroblastoma
membrane with kinetic and pharmacological properties similar to those observed in non-mammalian preparations.
...
PMID:Ionic currents in cultured mouse neuroblastoma cells under voltage-clamp conditions. 67 Dec 97
Utilizing the recently described reference method for
calcium
(
NBS
-AACC) and the recently developed definitive (referee)
NBS
method for serum
calcium
measurement by isotopedilution mass spectrometry (IDMS), an evaluation of five recent-model atomic absorption spectrometers was carried out. Under optimal conditions of instrument operation using aqueous standards, significant differences were found during the comparative analyses of three lyophilized pool samples and one liquid serum pool sample. Use of the
NBS
-AACC serum
calcium
protocol did not guarantee analytic results within +/- 2% of the IDMS value. In four of eight comparisons, differences from IDMS greater than 2% were observed. Several variables were studied to account for these differences. It was shown that a serum matrix, when present in standards used to bracket the unknown sample, reduced differences between instruments in four of four instances and improved the accuracy of the results from a range of -1.1 to +3.5% to +0.1 to +1.0%. It is concluded that a serum sample with a verified IDMS
calcium
value is a valuable tool that establishes an accurate and stable reference point for serum
calcium
measurement. The use of transfer-of-
NBS
-technology multipliers is suggested. Regional quality control serum pools and clinical chemistry survey sample materials that have been analyzed for
calcium
concentration by the
NBS
-IDMS definitive method are examples of these multipliers.
...
PMID:Comparison of serum calcium measurements with respect to five models of atomic absorption spectrometers using NBS-AACC calcium reference method and isotope-dilution mass spectrometry as the definitive method. 78 97
Electrical excitability is one of the various neuronal properties of
neuroblastoma
X glioma hybrid cells. At a
Ca2+
concentration of 1.8 mM the action potential is inhibited by tetrodotoxin, suggesting that the inward current is carried by Na+ ions. In contrast, at a
Ca2+
concentration of 20-36 mM and even in the absence of Na+, spikes (sometimes repetitive) with strong hyperpolarizing afterpotential occur, which are no longer affected by tetrodotoxin. They are, however, blocked by antagonists of
Ca2+
like La3+, Co2+, Mn2+, and the synthetic compounds D-600 and BAY a-1040. This seems to indicate that at high concentrations of
Ca2+
, the inward current of the action potential is essentially carried by
Ca2+
. Sr2+, but not Mg2+ can effectively substitute for
Ca2+
. It slows down the time course of the action potential. Ba2+ depolarizes the membrane gradually. If
Ca2+
is also present, Ba2+ causes a reduced depolarization and spontaneous action potentials with no hyperpolarizing after-potential are observed.
...
PMID:Influence of cations on the electrical activity of neuroblastoma X glioma hybrid cells. 89 Apr 47
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