UMLS:C0035412 - FACTA Search

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Query: UMLS:C0035412 (rhabdomyosarcoma)
6,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin-like growth factor (IGF-II) is overexpressed in a variety of human tumors and has both mitogenic and antiapoptotic activity. Although the mechanisms of IGF-II-induced proliferation have been well studied, the mechanisms underlying its survival signaling have been less well characterized. In this report, we investigated the role of IGF-II on cisplatin-induced apoptosis. We found that IGF-II overexpression was associated with an increase in p70 ribosomal protein S6 kinase (p70 S6K). Cisplatin treatment of C2C12 mouse myoblasts led to cell death associated with an inhibition of p70 S6K activity. Endogenous or exogenous IGF-II addition to C2C12 cells caused protection to cisplatin-induced apoptosis. This protection was associated in both cases with an increase in p70 S6K basal activity as well as resistance to cisplatin-induced decreased activity. Blockade of p70 S6K activation by rapamycin abrogated the IGF-II-mediated protection of cells to cisplatin-induced apoptosis. Furthermore, treatment of IGF-II-overexpressing Rh30 and CTR rhabdomyosarcoma cells with rapamycin restored sensitivity to cisplatin-induced apoptosis. These data together suggest that IGF-II-associated protection to cisplatin-induced apoptosis is mediated through an activation of the p70 S6K pathway. Thus, inhibition of the p70 S6 pathway may enhance chemotherapy-induced apoptosis in the treatment of IGF-II-overexpressing tumors.
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PMID:Effect of insulin-like growth factor II on protecting myoblast cells against cisplatin-induced apoptosis through p70 S6 kinase pathway. 1219 98

Summary. Insulin is known to inhibit glucose-6-phosphatase gene expression through PI 3-kinase/PKB mediated phosphorylation and inactivation of the forkhead transcription factor FKHR, which is a potent transactivator of the glucose-6-phosphatase gene. To study the function and regulation of the transcription factor FKHR in hepatic cells, we constructed a hydroxytamoxifen-inducible version of FKHR by fusing a part of the hormone binding domain of the estrogen receptor (ER) to the C-terminus of FKHR (FKHR-ER). In HepG2-cells transiently transfected with plasmids encoding the FKHR-ER fusion protein and a glucose-6-phosphatase reporter construct, hydroxytamoxifen induced a marked induction of glucose-6-phosphatase promoter activity, whereas no effect was observed in control cells. We next generated a H4IIEC3 rat hepatoma cell line stably expressing both FKHR-ER and a glucose-6-phosphatase promoter-based reporter construct. After 2h stimulation with hydroxytamoxifen, the promoter activity was stimulated 3-5 fold, and continued to increase up to 100-fold after 15 h. The response was half maximal at 0.5 microM hydroxytamoxifen. Insulin (1 nM) decreased the hydroxytamoxifen induced promoter activity by about 70% of the maximal response. This cell system can be used for (1) the identification of FKHR dependent genes and for (2) high throughput screening (HTS) of agents affecting the activity of FKHR and its regulation by insulin. Abbreviations used: FKHR, forkhead in rhabdomyosarcoma; G6Pase, glucose-6-phosphatase; PKB, protein kinase B; PI 3-kinase, phosphatidyl-inositol 3-kinase; IRU, insulin-responsive unit; Tx, 4-hydroxytamoxifen, ER, estrogen receptor; HBD, hormone binding domain
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PMID:Construction and characterization of a conditionally active construct of the insulin-regulated forkhead transcription factor FKHR. 1237 35

Increased levels of glucose uptake and increased expression of the glucose transporter (GLUT) genes are characteristic features of tumors. In the muscle-derived tumor alveolar rhabdomyosarcoma (ARMS), a chromosomal translocation t(2:13) generates the PAX3/forkhead homolog in rhabdomyosarcoma (FKHR) oncoprotein. In muscle tissues, glucose transport is primarily mediated by GLUT4. However, the mechanisms that regulate GLUT4 gene expression in tumor tissues are largely unknown. Therefore, we evaluated the role of PAX3/FKHR in the regulation of GLUT4 gene expression in muscle tumorigenesis. GLUT4 mRNA and protein were detected in ARMS-derived human biopsies and in ARMS-derived RH30 myoblasts, which both express the PAX3/FKHR chimeric protein, but not in either C2C12 or embryonal rhabdomyosarcoma-derived myoblasts. GLUT4 was functionally active in RH30 cells, because insulin induced a 1.4-fold stimulation of basal 2-deoxyglucose uptake rates. Coexpression of PAX3/FKHR increased basal transcriptional activity from a GLUT4 promoter reporter (GLUT4-P) in C2C12, SaOS-2, and Chinese hamster ovary-K1 cells in a dose-dependent and tissue-specific manner. PAX3/FKHR mutants with deletions in either the homeodomain (DeltaHD) or the FKHR-derived activation domain (DeltaFKHR), or in which the PAX3-derived paired domain (PD) was point-mutated (PD-R56L), were unable to activate GLUT4-P. Progressive 5'-deletion analysis of GLUT4-P further identified a specific region of the promoter, -66/+163 bp, which retained about 65% of the full transactivation effect. EMSA studies established that the PAX3/FKHR protein directly and specifically binds to this region and to a shorter fragment, -4/+36 bp, that contains potential binding sites for HD and PD, but not to a -4/+36-bp fragment whose HD and PD sites have been mutated. Thus, the functional interaction of PAX3/FKHR with GLUT4-P appears to require all of the functional domains of PAX3/FKHR, as well as a -4/+36-bp region within the GLUT4 promoter. Taken together, the data suggest that the GLUT4 gene is a downstream target of PAX3/FKHR and that GLUT4 is aberrantly transactivated by this oncoprotein both in vivo and in vitro.
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PMID:PAX3/forkhead homolog in rhabdomyosarcoma oncoprotein activates glucose transporter 4 gene expression in vivo and in vitro. 1241 8

The mTOR inhibitor rapamycin induces G1 cell cycle accumulation and p53-independent apoptosis of the human rhabdomyosarcoma cell line Rh1. Insulin-like growth factor I (IGF-I) and insulin, but not epidermal growth factor or platelet-derived growth factor, completely prevented apoptosis of this cell line. Because the Ras-Erk1-Erk2 and phosphatidylinositol 3'-kinase (PI3K)-Akt pathways are implicated in the survival of various cancer cells, we determined whether protection from rapamycin-induced apoptosis by IGF-I requires one or both of these pathways. Despite the blocking of Ras-Erk signaling by the addition of PD 98059 (a MEK1 inhibitor) or by the overexpression of dominant-negative RasN17, IGF-I completely prevented rapamycin-induced death. Inhibition of Ras signaling did not prevent Akt activation by IGF-I. To determine the role of the PI3K-Akt pathway in rescuing cells from apoptosis caused by rapamycin, cells expressing dominant-negative Akt were tested. This mutant protein inhibited IGF-I-induced phosphorylation of Akt and blocked phosphorylation of glycogen synthase kinase 3. The prevention of rapamycin-induced apoptosis by IGF-I was not inhibited by expression of dominant-negative Akt either alone or under conditions in which LY 294002 inhibited PI3K signaling. Furthermore, IGF-I prevented rapamycin-induced apoptosis when the Ras-Erk1-Erk2 and PI3K-Akt pathways were blocked simultaneously. Similar experiments in a second rhabdomyosarcoma cell line, Rh30, using pharmacological inhibitors of PI3K or MEK1, alone or in combination, failed to block IGF-I rescue from rapamycin-induced apoptosis. Therefore, we conclude that a novel pathway(s) is responsible for the IGF-I-mediated protection against rapamycin-induced apoptosis in these rhabdomyosarcoma cells.
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PMID:Insulin-like growth factor I-mediated protection from rapamycin-induced apoptosis is independent of Ras-Erk1-Erk2 and phosphatidylinositol 3'-kinase-Akt signaling pathways. 1254 89

Murine L6 and human rhabdomyosarcoma cells were cultured standardized in low (0.28 mM) and normal (9 mM) amino acid (AA) concentrations to reevaluate by independent methods to what extent AA activate initiation of protein synthesis. Methods used were incorporation of radioactive AA into proteins, distribution analysis of RNA in density gradient, and Western blots on initiation factors of translation of proteins in cultured cells as well as in vivo (gastrocnemius, C57Bl mice) during starvation/refeeding. Incorporation rate of AA gave incorrect results in a variety of conditions, where phenylalanine stimulated the incorporation rate of phenylalanine into proteins, but not of tyrosine, and tyrosine stimulated incorporation of tyrosine but not of phenylalanine. Similar problems were observed when [35S]methionine was used for labeling of fractionated cellular proteins. However, the methods entirely independent of labeled AA incorporation indicated that essential AA activate initiation of translation, whereas nonessential AA did not. Branched-chain AA and glutamine, in combination with some other AA, also stimulated initiation of translation. Starvation/refeeding in vitro agreed qualitatively with results in vivo evaluated by initiation factors. Insulin at physiological concentrations (100 microM/ml) did not stimulate global protein synthesis at low or normal AA concentrations but did so at supraphysiological levels (3 mU/ml), confirmed by independent methods. Our results reemphasize that labeled AA should be used with caution for quantification of protein synthesis, since the precursor pool(s) for protein synthesis is not in complete equilibrium with surrounding AA. "Flooding" tracee experiments did not overcome this problem.
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PMID:Reevaluation of amino acid stimulation of protein synthesis in murine- and human-derived skeletal muscle cells assessed by independent techniques. 1559 73

Insulin-like growth factor binding protein (IGFBP)-6 is unique among IGFBPs for its IGF-II binding specificity. IGFBP-6 inhibits growth of a number of IGF-II-dependent cancers, including rhabdomyosarcoma, neuroblastoma and colon cancer. Although the major action of IGFBP-6 appears to be inhibition of IGF-II actions, a number of studies suggest that it may also have IGF-independent actions. Gene array studies show regulation of IGFBP-6 in many circumstances that are consistent with antiproliferative actions. However, other studies show the opposite, so that IGFBP-6 may be acting as a counter-regulator in these situations or it may have other as yet undetermined actions. Both the N-terminal and C-terminal domains of IGFBP-6 contribute to high affinity IGF binding, and the C-terminal domain appears to confer its IGF-II specificity. The three-dimensional structure of the C-domain of IGFBP-6 contains a thyroglobulin type 1 fold, and the IGF-II binding site is located in the proximal half of this domain adjacent to the glycosaminoglycan binding site. Future studies are needed to further delineate the putative IGF-independent actions of IGFBP-6 and to build on the structural information to enhance our understanding of this IGFBP. This is particularly significant since IGFBP-6 provides an attractive basis for therapy of IGF-II-dependent tumors.
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PMID:IGFBP-6 five years on; not so 'forgotten'? 1591 54

Glutamate antagonists limit the growth of human cancers in vitro. The mechanism of anticancer action of NMDA antagonists is not known, however. In this article, we report that the NMDA antagonist dizocilpine inhibits the extracellular signal-regulated kinase 1/2 pathway, an intracellular signaling cascade that is activated by growth factors and controls the proliferation of cancer cells. Dizocilpine reduces the phosphorylation of cAMP-responsive element binding protein, suppresses the expression of cyclin D1, up-regulates the cell cycle regulators and tumor suppressor proteins p21 and p53, and increases the number of lung adenocarcinoma cells in the G(2) and S phases of the cell cycle. Silencing of the tumor suppressor protein p21 abolishes antiproliferative action of dizocilpine. Consistent with inhibition of the extracellular signal-regulated kinase 1/2-signaling cascade, dizocilpine reverses the stimulation of proliferation induced by epidermal, insulin, and basic fibroblast growth factors in lung adenocarcinoma cells. Furthermore, dizocilpine prolongs the survival of mice with metastatic lung adenocarcinoma and slows the growth of neuroblastoma and rhabdomyosarcoma in mice. These findings reveal the mechanism of antiproliferative action of dizocilpine and indicate that it may be useful in the therapy of human cancers.
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PMID:NMDA antagonist inhibits the extracellular signal-regulated kinase pathway and suppresses cancer growth. 1623 Jun 11

The expression of IGF-binding protein-1 (IGFBP-1) is induced in rat liver by dexamethasone and glucagon and is completely inhibited by 100 nM insulin. Various studies have implicated phosphatidylinositol 3-kinase, protein kinase B (Akt), phosphorylation of the transcription factors forkhead in rhabdomyosarcoma 1 (Foxo1)/Foxo3, and the mammalian target of rapamycin (mTOR) in insulin's effect. In this study we examined insulin regulation of IGFBP-1 in both subconfluent and confluent hepatocytes. In subconfluent hepatocytes, insulin inhibition of IGFBP-1 mRNA levels was blocked by inhibiting PI3 kinase activation, and there was a corresponding inhibition of Foxo1/Foxo3 phosphorylation. In these same cells, inhibition of the insulin effect by rapamycin occurred in the presence of insulin-induced Foxo1/Foxo3 phosphorylation. In confluent hepatocytes, insulin could not activate the phosphatidylinositol 3-kinase (PI3 kinase)-Akt-Foxo1/Foxo3 pathway, but still inhibited IGFBP-1 gene expression in an mTOR-dependent manner. In subconfluent hepatocytes, the serine/threonine phosphatase inhibitor okadaic acid (100 nM) partially inhibited IGFBP-1 gene expression by 40%, but did not produce phosphorylation of either Akt or Foxo proteins. In contrast, 1 nm insulin inhibited the IGFBP-1 mRNA level by 40% and correspondingly activated Akt and Foxo1/Foxo3 phosphorylation to a level comparable to that observed with 100 nM insulin. These results suggest a potential role for a serine/threonine phosphatase(s) in the regulation of IGFBP-1 gene transcription, which is not downstream of mTOR and is independent of Akt. In conclusion, we have found that in rat liver, insulin inhibition of IGFBP-1 mRNA levels can occur in the absence of the phosphorylation of Foxo1/Foxo3, whereas activation of the mTOR pathway is both necessary and sufficient.
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PMID:Regulation of hepatic insulin-like growth factor-binding protein-1 gene expression by insulin: central role for mammalian target of rapamycin independent of forkhead box O proteins. 1645 81

Oxidative stress is thought to play a role in the development of insulin resistance. In order to elucidate the molecular effect of oxidative stress on liver insulin signaling, we analyzed the effect of paraquat (1,1-dimethyl-4,4-dipyridynium; PQ)-derived oxidative stress on the expression of insulin-dependent genes and activation of liver insulin signaling pathway. Incubation of primary cultured rat hepatocytes with 2 mM PQ for 6 h impaired the suppressive effect of insulin on insulin-like growth factor-binding protein-1 (IGFBP-1) gene expression, but did not influence glucose-6-phosphatase gene expression. Insulin-dependent phosphorylation or activation of insulin receptor, insulin receptor substrate-1 and -2, phosphatidylinositol 3-kinase, Akt and forkhead in rhabdomyosarcoma were not affected by PQ pre-treatment. In contrast, PQ treatment impaired insulin-dependent phosphorylation of mammalian target of rapamycin (mTOR). These results indicate that PQ-induced oxidative stress impairs insulin-dependent mTOR activation and that this impairment probably causes inhibition of insulin-dependent repression of IGFBP-1 expression.
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PMID:Effect of paraquat-induced oxidative stress on insulin regulation of insulin-like growth factor-binding protein-1 gene expression. 2021 49

Insulin-like growth factor binding protein-6 (IGFBP-6) inhibits the tumorigenic properties of IGF-II-dependent cancer cells by directly inhibiting IGF-II actions. However, in some cases, IGFBP-6 is associated with increased cancer cell tumorigenicity, which is unlikely to be due to IGF-II inhibition. The mechanisms underlying the contradictory actions of IGFBP-6 remain unclear. We recently generated an IGFBP-6 mutant that does not bind IGFs (mIGFBP-6) to address this issue. Although RD rhabdomyosarcoma cells express IGF-II, we previously showed that mIGFBP-6 promoted migration through an IGF-independent, p38-dependent pathway. We further studied the role of MAP kinases in IGFBP-6-induced migration of Rh30 rhabdomyosarcoma cells, which also express IGF-II. In these cells, mIGFBP-6 induced chemotaxis rather than chemokinesis. Both wild-type (wt) and mIGFBP-6 transiently induced phosphorylation of ERK1/2 and JNK1, but not p38. Inhibition of ERK1/2 phosphorylation completely prevented mIGFBP-6-induced ERK1/2 activation and cell migration, whereas a JNK inhibitor partially prevented migration. Interestingly, p38 pathway inhibition completely prevented mIGFBP-6-induced ERK1/2 and JNK1 activation and migration despite mIGFBP-6 not activating p38. Furthermore, blocking the ERK1/2 pathway also inhibited mIGFBP-6-induced JNK1 activation. In contrast, IGFBP-6 had no effect on Akt phosphorylation and an Akt inhibitor had no effect on migration. These results indicate that IGFBP-6 promotes Rh30 rhabdomyosarcoma chemotaxis in an IGF-independent manner, and that MAPK signaling pathways and their cross-talk play an important role in this process. Therefore, besides decreasing Rh30 cell proliferation by inhibiting IGF-II, IGFBP-6 promotes their migration via a distinct pathway. Understanding these disparate actions of IGFBP-6 may lead to the development of novel cancer therapeutics.
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PMID:Cross-talk between MAP kinase pathways is involved in IGF-independent, IGFBP-6-induced Rh30 rhabdomyosarcoma cell migration. 2043 55

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