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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nuclear receptors for the thyroid hormone triiodothyronine (T3) have been identified in vivo in brain tissues and in vitro in mouse and rat neuroblastoma and glioma cells. The present study characterizes nuclear T3 receptors in human neuroblastoma SH-SY5Y cells and compares their level before and after differentiation. Undifferentiated cells, grown in DME/HAM F-12 medium supplemented with 10% fetal calf serum, show an abundant single type of nuclear receptor, indicated by a straight Scatchard plot, with a Kd of 0.11 nmol/l. After treatment with sodium butyrate (0.5 mM for 4 days) or NGF (2 nM for 6 days), the cells showed neuronal-like patterns (extension of neurites, slowing of growth, increased tyrosine hydroxylase activity), with a decrease in the number of nuclear T3 receptors. As sodium butyrate and NGF treatments differentiate neuroblastoma SH-SY5Y cells, these data suggest a down-regulation of T3 receptors with cell maturation.
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PMID:Characterization of nuclear T3 receptors in human neuroblastoma cells SH-SY5Y: effect of differentiation with sodium butyrate and nerve growth factor. 167 4

We studied the effect of thyroxine (T4 0.050 mg/kg/d, i.p.), TSH (0.08 U/kg/d, i.p.) and hypothalamic peptide (HF; 1 mg protein/kg/d, i.p.) given alone or in combination, on the growth of murine (NB C-1300) and human (NB Park) neuroblastoma transplanted onto the nude mouse (nu/nu). Both T4 and TSH caused a significant increase (perchlorate a decrease) of the serum T3. Histologically, the T4 treatment was followed by partial tumor necrosis and a marked growth of connective tissue within the tumors; there was no significant change in tumor weight as compared to the control group. Treatment with HF alone or in combination with T4 inhibited in 30% the invasive growth of the neuroblastoma transplants and a fatty degeneration was found in 25% of the human NB-TX after 28 days of treatment. The measurement of the intratumoral content of the cyclic nucleotides showed a significant increase of the cAMP and a decrease of the cGMP. The morphological and biochemical alteration observed under treatment with thyroid hormone or analogues could possibly be applied for therapeutic purposes.
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PMID:[In vitro and in vivo effect of thyroid hormones on the growth of neuroblastoma cells. II. The effect of thyroxine in vivo]. 216 40

Thyroid hormones must cross the plasma membrane to interact with nuclear or other intracellular receptors. In brain cells, most of the T3 in the nucleus is derived intracellularly from T4. While a saturable transport system has been demonstrated for T3 in a number of cell types, the evidence for such a system for T4 is less well established. In a mouse neuroblastoma cell line (NB41A3) the transport of T4 was found to be stereospecific, saturable, and energy dependent. When cells were incubated with radiolabeled hormone, the nuclear accumulation of L-T4 was 3.8-fold higher than that of D-T4, whereas isolated nuclei had a similar Ka for both enantiomers. Exposure of cells to antimycin and monodansylcadaverine decreased nuclear uptake of L-T4 (Ki of 197 and 55 microM, respectively), but had little effect on D-T4 uptake. Furthermore, L-system neutral amino acids, in particular L-phenylalanine at physiological concentrations, were shown to be competitive inhibitors of both T3 and T4 transport. In the presence of 0.1 mM L-phenylalanine the Km of the saturable plasma membrane transport of L-T3 increased 2.3-fold, and that of L-T4 increased 2.1-fold. In contrast, 1.0 mM L-serine or D-phenylalanine had little effect on L-T4 transport. This interaction of L-system amino acid and thyroid hormone transport may be of physiological importance.
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PMID:The transport of thyroxine into mouse neuroblastoma cells, NB41A3: the effect of L-system amino acids. 235 Nov 15

Neural T3 neogenesis is modulated by the enzyme T4-5'-deiodinase type II (T4-5'-DII). Hypothyroidism increases the activity of rat pituitary and cerebral cortex enzyme activity. Mouse neuroblastoma cells (NB41A3) incubated in thyroid hormone deficient medium also show a significant increase in T4-5'-DII activity. This response is rapidly (less than 30 minutes) reversed by reverse T3 (rT3) suggesting a mechanism independent of nuclear T3 receptor binding or new protein synthesis. This report details a series of studies performed to elucidate the nature of this rT3 effect. Confluent neuroblastoma cell culture preparations maintained in hypothyroid medium showed a 2-3 fold increase in T4-5'-DII activity compared to preparations in standard medium (p less than 0.001). RT3 (1-50 nM), the calcium ionophore A23187 (0.3-1.5 microM) and the phorbol ester TPA (0.1-1.0 microM) reversed the effect of thyroid hormone deficient medium on enzyme activity (p less than 0.001). Each agent showed a similar time course with maximal effect occurring between 15-30 minutes post medium supplementation. The suppressive effect of A23187 (1.5 microM) and TPA (0.5 microM) on enzyme activity was not additive. In addition, the combination o of rT3 (50 nM) and A23187 (1.5 nM) did not decrease enzyme activity compared to each agent alone. In contrast, the combined addition of rT3 (50 nM) and TPA (0.5 microM) did have an additive effect on neuroblastoma T4-5'-DII activity. A similar pattern of response was found, when the effects of these agents were analyzed on T4-5'-DII activity in neuroblastoma cells incubated in N-FSC.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reverse T3 and modulators of the calcium messenger system rapidly decrease T4-5'-deiodinase II activity in cultured mouse neuroblastoma cells. 248 95

Two neuroblastoma cell lines were cultured in control (euthyroid) and hypothyroid media and examined for protein, RNA and DNA content, activity of the catecholaminergic enzymes tyrosine hydroxylase (TH, EC 1.14.16.2) and monoamine oxidase-A (MAO-A, EC 1.4.3.4), and for L-triiodothyronine (T3) nuclear receptors. In the hypothyroid condition, the rate of cell division and the levels of RNA and protein as well as the activities of TH and MAO were lower than in the euthyroid condition, the reduction being more marked in the E than in the A2(1) cell line. T3 nuclear receptors, unaltered in affinity, were increased in number in the hypothyroid medium, possibly as a regulatory response to hormonal deficiency. Examination of a possible relationship between T3 occupancy and TH activity in the E cells, most sensitive to thyroid hormone deficiency, revealed that induction of TH activity by T3 is dose-dependent and correlates with the number of nuclear sites occupied by the hormone. When neuroblastoma cells were induced to differentiate by the addition of sodium butyrate to the medium, parameters of cell growth (protein, RNA) and enzyme activity (TH and MAO-A) increased in both cell lines irrespective of the presence of thyroid hormones. These data indicate that thyroid hormones, through their nuclear receptors, directly affect the activity of catecholaminergic enzymes in cultured, immature (undifferentiated) neurons.
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PMID:Thyroid hormone binding and regulation of adrenergic enzymes in two neuroblastoma cell lines. 286 93

The T3 concentration in brain predominantly reflects local production from T4 rather than T3 uptake from the circulating pool. We recently demonstrated that rat brain T3 content is increased by glucose feeding compared to chow feeding. One possible mechanism for this effect is an increase in brain T4 5'-deiodinase (5'-D) activity. Our recent preliminary studies of neuroblastoma (NB) cells demonstrate that renewal of RPMI-1640 medium stimulates T4 5'-D type II (NB T4 5'-D II) activity in these cells. The present studies were performed to determine the mechanism of this response. Studies were performed on NB cells supported in thyroid hormone-depleted (deficient) medium. This approach increased NB T4 5'-DII activity 4-fold compared to that in thyroid hormone-replete medium. Medium renewal further stimulated enzyme activity (7- to 9-fold; maximum at 6 h) in each group. The difference between the hypothyroid group and control was sustained over a 24-h period. Subsequent studies demonstrated that glucose (11 mM) was the specific medium ingredient mediating the medium renewal response. A progressive increase in NB T4 5'-DII activity was noted over 8 h during RPMI-1640 salt plus glucose (11 mM) incubation. This was equivalent to the effect of complete medium containing glucose (11 mM). Coincubation with insulin (10(-7)-10(-9) M) did not modify the enzyme response to glucose. In addition, fructose (10 mM) had a similar effect on enzyme activity. Glycerol and essential and nonessential amino acids also modestly increased NB T4 5'-DII activity compared to that in the control group (P less than 0.01). Actinomycin-D (1 microM), cycloheximide (100 microM), and puromycin (100 microM) significantly (P less than 0.001) decreased the glucose effect on T4 5'-DII by 5-, 9-, and 17-fold, respectively, after 6 h of incubation. In addition, puromycin (10-200 microM) inhibited both NB T4 5'-DII activity and [3H]amino acid incorporation during incubation in glucose. There was a significant correlation between these parameters (r = 0.8; P less than 0.001). The enzyme activity decay curves in the glucose-activated and control groups subsequent to puromycin (100 microM) addition at 8 h were parallel. The fractional turnover rate was 13%/h in the controls and 11%/h in the glucose groups. The calculated enzyme production rate was significantly higher (P less than 0.005) in the glucose group compared to that in the control group (17.4 vs. 6.8 fmol/mg protein.h).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Carbohydrate reactivation of thyroxine 5'-deiodinase (type II) in cultured mouse neuroblastoma cells is dependent upon new protein synthesis. 291 91

Using neuroblastoma cells as a model of developing neurons, we have tested the hypothesis that thyroid hormones alter cAMP metabolism. Neuroblastoma cells were grown in serum-free defined medium for 48 h with or without thyroid hormones. Treatment with 20-200 nM 3,5,3'-triiodo-L-thyronine (T3) increased the accumulation of cAMP by intact cells without altering growth, gross morphology, or DNA or protein content. The increase in cAMP accumulation could be detected 5 h after the addition of T3 and was abolished by the addition of cycloheximide. The maximum stimulation produced by prostaglandin E1 was increased in T3 cells without a significant alteration of the half-maximal concentration. T4 and D-T3 in concentrations up to 20 microM did not increase cAMP accumulation. Adenylate cyclase activity in response to forskolin, guanine nucleotides, and stimulatory hormones was increased in purified membranes from cells grown in T3, suggesting that increased adenylate cyclase is probably the major mechanism of the observed response to thyroid hormone.
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PMID:Thyroid effects on adenosine 3',5'-monophosphate levels and adenylate cyclase in cultured neuroblastoma cells. 303 Jun 93

The conversion of T4 to T3 in the brain and anterior pituitary gland contributes significantly to the T3 content of these tissues and appears to be an important modulator of thyroid hormone action. In the present study, the antimanic agent lithium was demonstrated in cultured neural and pituitary tissue to have a significant inhibitory effect on the activity of low Km (type II) iodothyronine 5'-deiodinase (I5'D), the enzyme mediating T3 formation. At medium lithium concentrations of 3.3-5 mM, 15'D activity was decreased 44 +/- 3% (P less than 0.001) in the NB41A3 mouse neuroblastoma cell line and 48 +/- 2% (P less than 0.001) in the GH3 rat pituitary tumor cell line. This inhibitory effect was only observed in intact cells. Significant inhibition of this enzymatic process was also noted in the anterior pituitary gland of thyroidectomized rats injected 3-24 h earlier with either 4 or 10 mmol/kg BW LiCl. This decrease in low Km I5'D activity was accompanied by significant decreases in the serum T3 concentration and the pituitary nuclear T3 content. Renal high Km (type I) I5'D activity was unaffected by lithium administration. These studies demonstrate that lithium, an agent of proven therapeutic benefit in patients with manic-depressive illness, can affect changes in T4 metabolism and cellular T3 content in neural and anterior pituitary tissue. Given the prominent mood changes that occur in patients with disordered thyroid function, this finding suggests that the therapeutic benefits of lithium in affective illness may be derived in part from alterations in thyroid hormone economy in the brain.
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PMID:Regulatory effect of lithium on thyroxine metabolism in murine neural and anterior pituitary tissue. 303 Jul

Adenosine 3',5'-cyclic monophosphate (cAMP) content of neurons is determined not only by the rate of synthesis but also by the rate of hydrolysis by cyclic nucleotide phosphodiesterases. Multiple forms of cyclic nucleotide phosphodiesterase exist in brain and other tissues, and these may be regulated by various hormones and neuromodulators. The present study examines this regulation in a cloned line of neuroblastoma cells (N18TG2). A biphasic Lineweaver-Burk plot of cAMP hydrolysis revealed two Kms approximating 5 and 25 microM. Lineweaver-Burk plots of cGMP hydrolysis were linear over a range of 1 microM to 1 mM and exhibited a Km of 37 microM. Neither cAMP nor cGMP competed for hydrolysis of the alternative cyclic nucleotide. No evidence for an allosteric activation of cAMP phosphodiesterase by cGMP was found. Calcium regulation of phosphodiesterase was not found in spite of preparation of the cell extract with several protease inhibitors, and addition of exogenous calmodulin. No effect of calmodulin antagonists (calmidazolium, W7, or trifluoperazine) was observed in vitro or in situ. Growth of the cells in the presence of 200 nM 3,5,3'-triiodothyronine (T3) resulted in an increased hydrolysis of cAMP but of cGMP. This increase was attributed to an increase in Vmax with no change in either high or low Km. This response was blocked by cycloheximide, suggesting that the thyroid hormone effect requires protein synthesis. The thyroid hormone response in neuroblastoma cells is compared with the results of other studies of thyroid hormone effects on phosphodiesterase in other tissues in vivo.
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PMID:Cyclic nucleotide phosphodiesterase isozymes in neuroblastoma cells. 303 96

The central nervous system manifests complex homeostatic mechanisms for the maintenance of thyroid hormone economy. The present studies used the NB41A3 mouse neuroblastoma cell line as a model system to study the hormonal regulation of the enzymatic conversion of T4 to T3 in neural tissue. NB41A3 cells manifested a thiol-dependent 6-n-propyl-2-thiouracil-insensitive iodothyronine 5'-deiodinase (I5'D) with a Km for T4 of approximately 10 nM. I5'D activity was increased 2- to 4-fold in cells grown in thyroid hormone-depleted medium. Exposure of cells in situ to various thyroid hormones resulted in a rapid dose-dependent inhibition of enzyme activity with the following order of potency: rT3 = T4 greater than T3. The potent inhibitory effect of rT3 on I5'D activity could not be attributed to substrate competition with T4 in the reaction assay. The addition of dexamethasone (2 X 10(-7) M) to the culture medium also inhibited I5'D activity by 46 +/- 6% (+/- SE; n = 4 experiments; P less than 0.02), whereas insulin and epinephrine were without effect. In other experiments, saturation analysis using a purified preparation of isolated nuclei from NB41A3 cells demonstrated the presence of saturable, high affinity nuclear binding sites which had a Kd value for T3 of 0.13 +/- 0.05 nM and a maximum binding capacity of 0.13 +/- 0.01 pmol T3/mg DNA. These studies demonstrate that NB41A3 cells have a low Km (type II) I5'D process and nuclear T3-binding sites very similar to those previously described in the rat central nervous system. I5'D activity in this cell line appears to be regulated by multiple serum factors, including thyroid hormones and glucocorticoids. The potent regulatory effect of rT3 and T4 suggests that T3 formation by thyroid hormones in neural tissue is controlled by a unique cellular mechanism independent of the nuclear T3 receptor. Since tissue and plasma concentrations of T4 are considerably higher than those of rT3, the former hormone is likely to be the principal thyroid hormone regulating this enzymatic process.
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PMID:Hormonal control of a low Km (type II) iodothyronine 5'-deiodinase in cultured NB41A3 mouse neuroblastoma cells. 352 24


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