UMLS:C0017638 - FACTA Search

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent data have shown that ferritin, a ubiquitous protein, has a role as a regulator of cellular differentiation. In the present study we have investigated the expression of ferritin mRNAs in cultured C6 cells, a rat glioma cell line, in response to insulin, which has an important role in cellular growth and differentiation. Insulin stimulated steady state levels of both ferritin heavy chain and ferritin light chain mRNAs. An increase in the level of ferritin heavy or light chain mRNA was detected after 2 h of incubation with insulin, and a plateau was reached after 48 h for heavy chain mRNA and after 72 h for light chain mRNA. The responses were dose-dependent and were maximal at 100 nM for both mRNAs. Treatment of cells with actinomycin-D showed that insulin had no effect on the posttranscriptional stability of these mRNAs. Actinomycin-D inhibited insulin-induced accumulation of both mRNAs, suggesting transcriptional stimulation of ferritin genes by insulin. A nuclear run-on assay showed that the insulin-induced increase in ferritin heavy chain mRNA was due to an increase in the rate of gene transcription. We also demonstrated that insulin-like growth factor-I (IGF-I) increased ferritin heavy and light chain mRNA levels in a dose-dependent fashion, and that the maximum effect was obtained at a concentration of 10 nM on both mRNA levels. IGF-I was not only 10-fold more potent, but the absolute level of maximum stimulation was also about 2-fold greater than that for insulin. The combination of insulin (100 nM) and IGF-I (10 nM) showed no additive effect. The results suggested that the ferritin heavy and light chain genes are transcriptionally regulated by insulin and influenced by IGF-I.
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PMID:Transcriptional regulation of ferritin messenger ribonucleic acid levels by insulin in cultured rat glioma cells. 199 66

The ATP.Mg-dependent protein phosphatase activating factor (protein kinase FA) has been identified to exist in neuroblastoma x glioma hybrid 108-15 cells (NG108-15 cells). More importantly, when NG cells were induced to differentiate with N6, O2'-dibutyryl adenosine 3',5'-cyclic monophosphate (dibutyryl cAMP), the cellular activity of kinase FA was found to increase dramatically. Time course study further revealed that induction of differentiation in NG cells by dibutyryl cAMP treatment increased the FA activity to over 3 times the levels found in undifferentiated cells and in a linear day-dependent manner, indicating that the FA activity level is correlated with the state of differentiation of NG108-15 cells. This is the first report providing initial evidence that protein kinase FA (a transmembrane signal of insulin) is involved in the induction of neuronal cell differentiation.
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PMID:Cyclic AMP induces activity increase of kinase FA (a transmembrane signal of insulin) during NG108-15 hybrid cell differentiation. 216 38

Insulin and insulin-like growth factors (IGFs) are anabolic effectors in many tissues and cultured cells, including astrocytes and neurons. Receptors for insulin and IGFs are found throughout the human brain. We examined the level of insulin and IGF receptors on membranes prepared from surgical specimens of tumor (astrocytomas and glioblastomas) and normal human brain. Specific binding (per 100 micrograms membrane protein) of insulin was less than 5% in all normal and tumor samples. Specific binding of IGF-I to 12 normal brain specimens ranged from 1-8%. IGF-I binding to 18 glioma specimens ranged from 2-25%. Scatchard analyses of IGF-I binding confirmed increased IGF-I-binding sites in some glial tumors vs. normal brain, but detected no difference in affinity characteristics. Cross-linking of [125I]IGF-I demonstrated that glioma tissue expressed the same lower mol wt (approximately 118 kDa) alpha-subunit as the normal brain confirming the neural origin of the cells expressing the IGF-I receptor. IGF-binding proteins (approximately 40 kDa) were also found in the membranes of some of the glioma but none of the normal brain specimens. In cell lines derived from glioma specimens, IGF binding was readily detectable (4-10% specific binding), but insulin binding was barely detectable (0-03%) in every line examined. The size of the IGF-I alpha-subunit in the cultured cells was larger (approximately 133 kDa) than that in the original tissue. Most glioma cell lines exhibited an IGF-I dose-dependent stimulation of thymidine incorporation into DNA, and partially purified IGF-I receptors from these cells exhibited a dose-dependent stimulation of the autophosphorylation of the beta-subunit. We conclude that human glioma cells have functional IGF-I receptors and suggest a role for this receptor in glioma cell growth.
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PMID:Insulin-like growth factor-I receptors in human glial tumors. 216 27

The occurrence of the endogenous regulatory response to high rates of 2-deoxyglucose (2-DG) uptake, as previously described for C6 glioma cells during incubation with 2 mM 2-DG (Lange et al.: J. Cell. Physiol., 1989), was studied in 3T3-L1 preadipocytes and adipocytes, and the influence of insulin on this endogenous uptake regulation was examined. In contrast to 3T3-L1 preadipocytes, insulin-sensitive differentiated 3T3-L1 adipocytes displayed the time-dependent cyclic pattern of 2-DG uptake rates characteristic of the membrane-limited and endogenously regulated cellular state of hexose utilization. Although insulin induced a threefold stimulation of 2-DG tracer uptake in adipocytes, the hormone did not additionally stimulate the uptake rates or affect the periodic response: maximum and minimum levels of uptake remained unchanged. Scanning electron microscopy (SEM) revealed that the acquirement of the differentiated state is accompanied by a conspicuous transformation of the smooth surface of undifferentiated 3T3-L1 cells into a surface covered by numerous microvilli of uniform size and appearance. Treatment with insulin (10 mU/ml; 10 minutes) converted these microvilli into voluminous saccular membrane protrusions of the same type as had been formed during incubation of 3T3-L1 adipocytes with 2 mM 2-DG, and which have previously been shown to be involved in the endogenous uptake regulation of C6 glioma cells (Lange et al.: J. Cell. Physiol., 1989). These insulin-induced saccated membrane areas appeared to become integrated into the cell surface. Accordingly, insulin treatment caused a twofold increase of the intracellular distribution space of 3-O-methylglucose (3-OMG) in 3T3-L1 adipocytes. This insulin-induced increase of the 3-OMG distribution space exhibited the same time (t1/2 = 2-2.5 minutes) and dose dependence (EC50 = 20 nM) as the insulin-induced stimulation of 3-OMG transport. Glucose deprivation during the differentiation period inhibited the outgrowth of microvilli from the cell surface. Glucose starvation (18 hours at less than 0.5 mM) induced a conspicuous reduction of the length of microvilli on differentiated 3T3-L1 cells. In this state, the stalks of the microvilli are almost invisible and the enlarged spherical tips of the microvilli (with an average diameter of 370 nm compared to 230 nm of fed cells) appeared to protrude directly out of the cell surface. Starvation-induced shortening of microvilli was accompanied by a threefold increase of the basal 3-OMG transport rate and a greater than twofold increase of the intracellular 3-OMG distribution space as compared to fed cells (10 mM; 18 hours).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Relationship between insulin stimulation and endogenous regulation of 2-deoxyglucose uptake in 3T3-L1 adipocytes. 240 95

A 1-year 11-month-old girl was admitted for losing her weight and gait disturbance. At 4 months of age, she began to become emaciated inspite of normal food intake. Physical and neurological examinations were normal except for a marked lack of subcutaneous fat, irritability and nystagmus. CT scans demonstrated a large tumor occupied in the third ventricle and marked dilatation of the lateral ventricles. Endocrinological studies revealed high levels of plasma growth hormone (GH) in contrast with normal levels of somatomedin-C. The basal value of GH returned to normal with a subnormal response to insulin subsequently after VP-shunt. Then, a pilocytic astrocytoma was partially resected with transcallosal approach. Postoperative course was uneventful and her growth rate returned to normal range. CT scans after radiation therapy of 49 Gy showed marked decrease in size of the tumor. At 3 years and 6 months of age, enlargement of her breast was pointed out although MRI indicated no enlargement of the tumor. Basal value of LH, FSH, E 1 and E 2 elevated and LHRH test showed over-response of LH and FSH. Other hypothalamic-pituitary functions were partially preserved. Case of precocious puberty following diencephalic syndrome associated to the hypothalamic and/or optochiasmatic glioma is quite rare in the previous literature. Mechanisms of diencephalic syndrome and following puberty are unclear. However, endocrinological and radiological findings observed in the present case suggest that hormonal disfunction might be due to the failure of inhibition on GH and LHRH secretion mechanism in the anterior hypothalamus.
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PMID:[Hypothalamic glioma with diencephalic syndrome and following precocious puberty--a case report]. 251 56

We have measured insulin and insulin-like growth factor I (IGF-I) binding in human gliomas, meningiomas, and normal brain and studied the effect of insulin on the morphology, proliferation, and differentiation of central nervous system tumor and normal fetal cells in culture. Specific 125I-insulin and 125I-IGF-I binding was demonstrated by competition-inhibition binding assays. Insulin binding was measured in plasma membrane preparations from 9 freshly isolated human meningiomas, 4 glioblastomas multiforme (GBMs), a low-grade glioma, a normal adult brain, and a fetal brain. IGF-I binding was measured in similar preparations from 5 meningiomas, 4 GBMs, a low-grade glioma, and a normal adult brain. Incubations were carried out at 4 degrees C for 18 to 20 hours. Meningiomas showed higher specific insulin binding per 0.25 mg of protein than GBMs (19% versus 3%, P less than 0.005), and this difference was not related to small differences observed in insulin degradation. By contrast, IGF-I binding was significantly higher in gliomas than in meningiomas (27% versus 12%, P less than 0.05). Also, IGF-I binding was significantly higher than insulin binding in GBMs (27% versus 3%, P less than 0.03); binding of both IGF and insulin was high in meningiomas. In normal adult brain IGF-I and insulin binding was 7 to 10%. The ability of insulin to support and enhance the growth of central nervous system tumor cells in culture was investigated. Cell cultures were derived from a freshly isolated glioblastoma, a low-grade glioma, and 3 meningiomas.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin and insulin-like growth factor I in brain tumors: binding and in vitro effects. 254 92

The presence of insulin receptor and its regulation by butyrate and other short-chain fatty acids was studied in C6 cells, a rat glioma cell line. Intact C6 cells bind 125I-insulin in a rapid, reversible and specific manner. Scatchard analysis of the binding data gives typical curvilinear plots with apparent affinities of approx. 6 nM and 70 nM for the low-affinity (approx. 90% of total) and high-affinity (approx. 10% of total) sites respectively. Incubation with butyrate results in a time- and dose-dependent decrease of insulin binding to C6 cells. A maximal effect was found with 2 mM-butyrate that decreased the receptor by 40-70% after 48 h. Butyrate decreased numbers of receptors of both classes, but did not significantly alter receptor affinity. Other short-chain fatty acids, as well as keto acids, had a similar effect, but with a lower potency. Cycloheximide caused an accumulation of insulin receptors at the cell surface, since insulin binding increased and receptor affinity did not change after incubation with the inhibitor. Simultaneous addition of butyrate and cycloheximide abolished the loss of receptors produced by the fatty acid. In cells preincubated with butyrate, cycloheximide also produced a large increase in receptor numbers, showing that in the absence of new receptor synthesis a large pool of receptors re-appears at the surface of butyrate-treated cells.
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PMID:Presence of insulin receptors in cultured glial C6 cells. Regulation by butyrate. 293 May 2

Two types of receptors for insulin-like growth factors (IGFs) were characterized in glioma cell lines established from different human brain tumors of glial origin (astrocytoma grades III and IV) by competitive binding assay, affinity labeling, and protein phosphorylation. Type I IGF receptor is a heterodimer composed of alpha-subunits (Mr 130,000), which bind IGF I and II with equal affinity, and of beta-subunits (Mr 98,000), which show tyrosine kinase activity and autophosphorylation stimulated by IGF I and II with equal potency. The type II IGF binding site is a monomer (Mr 250,000) which binds IGF II with 10 times higher affinity than IGF I. The cellular concentration of type II IGF binding site is about 2- to 5-fold higher than the amount of type I IGF receptor. The characteristics of the two types of IGF receptors in human glioma cell lines are similar to those described recently in fetal rat astrocytes. In contrast the type I IGF receptor in glioma cells is different from that studied previously in normal adult brain regarding the equal affinity for IGF I and II, and the higher molecular size of the alpha-subunit (130,000 versus 115,000). It is suggested that glioma cells may represent a fetal cell type in tumor development of adult human brain. A role of IGF in malignant glioma has not yet been determined, but the presence of IGF receptors is a prerequisite for cellular actions of IGF.
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PMID:Expression of two types of receptor for insulin-like growth factors in human malignant glioma. 296 88

We have characterized receptors for the insulin-like growth factor (IGF-I) on the mouse neuroblastoma cell line N18 as well as NG108, the hybrid cell line of N18 and rat glioma (C6). In this cell-free system, IGF-I and insulin stimulated the phosphorylation of 95-kDa and 105-kDa proteins. Using appropriate antibodies we were able to demonstrate that the IGF-I receptor beta subunit has two subtypes of 95 kDa and 105 kDa. On the other hand, insulin receptor beta subunit is a separate single 95-kDa protein. Enzymatic digestion of IGF-I receptor beta subunit subtypes by glycopeptidase F resulted in similar molecular masses (84 kDa and 86 kDa) on SDS-PAGE, which suggests that the difference in molecular masses between two subtypes is attributable to the differences in N-linked complex-type carbohydrate chains on the extracellular domain of beta subunits. This conclusion is further supported by peptides of similar molecular mass following staphylococcal V8 protease digestion. Analysis of IGF-I receptor beta subunit subtypes in these cells may provide insights into the mechanism of action of IGF-I on neural tissues.
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PMID:Insulin-like growth factor I receptors on mouse neuroblastoma cells. Two beta subunits are derived from differences in glycosylation. 296 5

Insulin-like growth factors (IGFs) I and II are homologous peptides, which stimulate growth of several vertebrate tissues. Expression of IGF I and IGF II genes and production of IGFs have recently been demonstrated in rat and human brain. In search for the function of IGF I and IGF II in the central nervous system, we have studied IGF receptors in fetal and adult mammalian brain and growth effects of IGFs on primary cultures of fetal rat astrocytes. Two types of IGF receptor are present on adult rat brain cortical plasma membranes, on fetal rat astrocytes and on human glioma cells. Type I IGF receptor is composed of 2 types of subunits: alpha-subunits which bind IGF I and IGF II with high affinity and insulin weakly, and beta-subunits which show tyrosine kinase activity and autophosphorylation stimulated by IGF I and IGF II with almost similar potency. The molecular size of the type I IGF receptor alpha-subunit is larger in cultured fetal rat astrocytes and human glioma cells than in normal adult brain (Mr 130,000 versus 115,000), whereas the beta-subunit has the same electrophoretic mobility (Mr 94,000). The type II IGF receptor is a monomeric protein (Mr 250,000), which binds IGF II 5 times better than IGF I, and does not recognize insulin. The amounts of type II IGF receptor are significantly higher in fetal and malignant cells than in adult brain. Based on these findings we suggest that IGF receptors in brain undergo changes during fetal development and malignant transformation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Receptors for insulin-like growth factors in the central nervous system: structure and function. 297 1

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