Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatomas are a common malignancy in countries with a high prevalence of hepatitis B virus infections. These tumors may present with severe persistent hypoglycemia. We have studied the possible relationship of production of insulin-like growth factor II (IGF-II) by these tumors and the development of hypoglycemia. Mean IGF-II concentration was not significantly higher in 23 patients with hypoglycemia than in nine patients with euglycemia (542 +/- 61 [SE] micrograms/L vs 382 +/- 52 micrograms/L). Serum IGF-I was more suppressed in patients with hypoglycemia (16 +/- 3 micrograms/L) than in patients with euglycemia (57 +/- 18 micrograms/L). Because an increased percentage of IGF-II in serum of patients with hypoglycemia who have other tumors is present as partially processed pro-IGF-II ("big" IGF-II), we passed sera of patients with hypoglycemia and patients with euglycemia with hepatomas through acidic Bio-Gel P-60 columns. We found that 57% +/- 4.6% of the IGF-II in sera from patients with hypoglycemia was present as big IGF-II compared with 22% +/- 3% in patients with euglycemia with hepatomas (not significantly different from that in normal controls). Four of 11 apparently healthy control subjects who were hepatitis B virus positive also had increased percentages of big IGF-II, suggesting that abnormal processing of pro-IGF-II may result from subtle changes in liver function with this infection. It remains to be determined whether these subjects with increased big IGF-II are at increased risk for the development of hepatomas. In conclusion, we have confirmed marked suppression of IGF-I in the sera of patients with hepatoma and hypoglycemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Abnormal processing of pro-IGF-II in patients with hepatoma and in some hepatitis B virus antibody-positive asymptomatic individuals. 217 May 53

A newly developed human hepatoma cell line, designated Hep G-2, expresses high-affinity insulin receptors meeting all the expected criteria for classic insulin receptors. 125I-insulin binding is time-dependent and temperature-dependent and unlabeled insulin competes for the labeled hormone with a half-maximal displacement of 1-3 ng/ml. This indicates a Kd of about 10(-10) M. Since Scatchard analysis of the binding data results in a curvilinear plot and unlabeled insulin accelerates the dissociation of bound hormone, these receptors exhibit the negative cooperative interactions characteristic of insulin receptors in many other cell and tissue types. Proinsulin and des(Ala, Asp)-insulin compete for 125I-insulin binding with 4% and 2%, respectively, of the potency of insulin. Anti-(insulin receptor) antibody competes fully for insulin binding. The two insulin-like growth factors, multiplication-stimulating activity and IGF-I are 2% as potent as insulin against the Hep G-2 insulin receptor. Furthermore, Hep G-2 cells respond to insulin in several bioassays. Glucose uptake, glycogen synthase, uridine incorporation into RNA and acetate incorporation into lipid are all stimulated to varying degrees by physiological concentrations of insulin. In addition, these cells 'down-regulate' their insulin receptor, internalize 125I-insulin and degrade insulin in a manner similar to freshly isolated rodent hepatocytes. This is the first available human liver cell line in permanent culture in which both insulin receptors and biological responses have been carefully examined.
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PMID:Insulin receptors and bioresponses in a human liver cell line (Hep G-2). 241 Feb 71

A protein preparation that specifically binds insulin-like growth factors (IGFs) I and II was purified from medium conditioned by rat liver BRL-3A cells using molecular sieve chromatography in 1 M acetic acid followed by affinity chromatography on IGF-II-agarose. The affinity-purified IGF-binding protein exhibits a single major band with apparent Mr = 36,300 under reducing conditions on sodium dodecyl sulfate-polyacrylamide gels. The IGF-binding protein is efficiently and specifically cross-linked to either 125I-IGF-I (human) or 125I-IGF-II (rat) using disuccinimidyl suberate. An IGF-binding protein of similar apparent molecular weight was also affinity purified from rat hepatoma H-35 cell conditioned medium and found to differ from the BRL-3A protein such that potent polyclonal antisera prepared in rabbits against the purified BRL-3A IGF-binding protein exhibited a much lower titer for the H-35 protein in an enzyme-linked immunosorbent assay and upon immunoblotting. In order to determine whether a single BRL-3A IGF-binding protein is present in the affinity-purified preparation, the protein was prepared for sequencing on a Sephacryl S-300 column in 6 M guanidine HCl after reduction and alkylation. The amino acid composition (expressed in percentages) of this IGF-binding protein was determined to be: Cys = 5.5, Lys = 4.8, His = 2.8, Arg = 7.8, Asx = 10.2, Thr = 5.1, Ser = 3.9, Glx = 15.7, Gly = 17.4, Ala = 7.3, Val = 4.6, Met = 1.4, Ile = 2.4, Leu = 8.3, Tyr = 1.0, Phe = 1.9. Sequencing of the NH2-terminal portion of this protein led to the identification of 31 amino acids in the following order: Phe-Arg-Cys-Pro-Pro-Cys-Thr-Pro-Glu-Arg-Leu-Ala-Ala-Cys-Gly-Pro-Pro-Pro- Asp-Ala-Pro-Cys-Ala-Glu-Leu-Val-Arg-Glu-Pro-Gly-Cys. We conclude that rat liver BRL-3A cells secrete a single major IGF-binding protein capable of binding both IGF-I and IGF-II.
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PMID:Purification and amino-terminal sequence of an insulin-like growth factor-binding protein secreted by rat liver BRL-3A cells. 242 67

The primary structure of an insulin-like growth factor (IGF) binding protein produced by human HEP G2 hepatoma cells has been deduced from the cDNA sequence. The 234 amino acid protein has a predicted molecular mass of 25,274 and contains a single, distinctive cysteine-rich region. The N-terminal sequence of this protein is quite similar to the limited sequence data available for a rat IGF binding protein produced by BRL-3A cells and suggests a common ancestral origin. In contrast, the HEP G2 IGF binding protein sequence bears no similarity to the N-terminal 15 amino acids of a 53 kilodalton binding protein purified from human plasma. Comparison of full-length protein sequences for the IGF-I and IGF-II receptors with that of the HEP G2 IGF binding protein also fails to demonstrate any significant similarities among these three proteins, and suggests that each contains a unique binding domain for the IGF peptides.
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PMID:Insulin-like growth factor (IGF) binding protein complementary deoxyribonucleic acid from human HEP G2 hepatoma cells: predicted protein sequence suggests an IGF binding domain different from those of the IGF-I and IGF-II receptors. 245 22

Specific binding proteins are thought to modulate the effects of IGF-I. Previous work has demonstrated that media conditioned by human breast cancer cells contains IGF-I binding activity. Radiolabelled IGF-I incubated with serum-free conditioned media from the breast cancer cell line MDA-MB 231 eluted with an apparent M.W. of 35-40 kDa when analyzed by gel filtration chromatography at pH 7.4. The M.W. of this binding activity corresponded to that of BP-25, a binding protein cloned from the hepatocellular carcinoma cell line HepG2. Two breast cancer cell lines, MDA-MB 231 and Hs578T, were found to express BP-25 RNA. Specific BP-25 radioimmunoassay detected BP-25 production in the conditioned media of these two cell lines. Immunoprecipitation confirmed that metabolically labelled MDA-MB 231 released 30 kDa BP-25 into its medium. This study demonstrates that some breast cancer cells express the IGF-I binding protein, BP-25.
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PMID:The insulin-like growth factor binding protein BP-25 is expressed by human breast cancer cells. 246 38

The insulin-like growth factors (IGFs) found in plasma and a variety of other body fluids are complexed to specific binding proteins (BPs). The cDNA for a 25K IGF-BP was recently cloned and sequenced, and the primary structure of the BP deduced. This BP is found in amniotic fluid, decidual tissues, conditioned medium from HepG2 human hepatoma cells, and fetal plasma. An additional small IGF-BP has been identified in human cerebrospinal fluid (CSF). We now demonstrate that the IGF-BP found in CSF is structurally and immunologically distinct from that found in HepG2 conditioned medium. While the latter BP has approximately equal affinities for IGF-I and -II, the CSF BP has a 10- to 20-fold greater affinity for IGF-II. In affinity cross-linking studies under reducing conditions, the CSF BP had an apparent mol wt (Mr) of 32,000, while the HepG2 BP migrated as a doublet, with apparent Mr values of 30,000 and 28,000. On Western ligand blots, CSF BPs migrate as five discrete bands, with the most prominent band at an apparent Mr of 34,000, while HepG2 medium yielded a single band at an apparent Mr of 30,000. A polyclonal antibody developed against the human amniotic fluid BP immunoprecipitated the HepG2 BP and reacted with both the HepG2 and amniotic fluid BPs on Western blots, but failed to react with the CSF BP. These data indicate that the CSF and amniotic fluid/HepG2 BP are structurally and immunologically distinct small IGF-BPs.
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PMID:Structural and immunological comparison of insulin-like growth factor binding proteins of cerebrospinal and amniotic fluids. 246 4

We have previously shown that insulin-like growth factor II (IGF-II) is produced by bone cells and that IGF-II stimulates cell proliferation and collagen synthesis in bone cells. We now extend these in vitro findings by demonstrating specific IGF-II binding to bone cells derived from newborn mouse calvaria and embryonic chick calvaria. The kinetics of [125I] IGF-II binding in embryonic chick calvaria cells showed time and temperature dependence. Scatchard analysis of [125I]IGF-II binding to chick calvaria cells showed an apparent Kd of 1.4 x 10(-10) M, with a calculated receptor site concentration of 40,000/cell. The specificity characteristics showed that IGF-II was significantly more potent than IGF-I or insulin in displacing IGF-II tracer. Competition for binding of [125I]IGF-II by unlabeled IGF-II showed a dose-dependent displacement between 0.5 and 25 ng/ml. Fifty percent displacement of [125I]IGF-II binding to chick and mouse calvarial cells was achieved at 1-2 ng/ml; 90% of specific binding of [125I]IGF-II was displaceable in the presence of 125 ng/ml of unlabeled IGF-II. IGF-I showed less than 5% cross reactivity for displacement of [125I]IGF-II binding to chick and mouse bone cells. Type II receptor inhibitory antibodies, R-II-PAB1 inhibited the binding of [125I]IGF-II to mouse bone cells and H-35 rat hepatoma cells (which contain type II but not type I receptors) in a dose-dependent manner. R-II-PAB1 also inhibited basal cell proliferation as well as IGF-II-, IGF-I-, and fibroblast growth factor (FGF)-induced cell proliferation in mouse bone cells. In chick calvaria bone cells and TE89 human osteosarcoma cells, R-II-PABI inhibited neither binding of [125I]IGF-II nor IGF-II-induced cell proliferation. These results together with our findings that IGF-II increased chick bone cell proliferation in the presence of maximal doses of IGF-I suggest that at least part of the mitogenic action of IGF-II is mediated through type II rather than type I receptors in bone cells.
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PMID:Characterization of the receptor for insulin-like growth factor II in bone cells. 254 14

Insulin and insulin-like growth factor (IGF)-I inhibit intracellular protein degradation in a variety of different cell types. In the present studies, the IGF-I-induced inhibition of protein metabolism in Chinese hamster ovary (CHO) cells was found to be blocked by polyclonal antibodies to the IGF-II/mannose-6-phosphate phosphate (Man-6-P) receptor, but not by control immunoglobulin. In contrast, these antibodies had no effect on the ability of IGF-I to stimulate glucose uptake in the same cells. The antibodies to the IGF-II/Man-6-P receptor also inhibited the effect of IGF-I and insulin on protein catabolism in human foreskin fibroblasts and human hepatoma cells, respectively. Moreover, CHO cells overexpressing a cDNA coding for the IGF-II/Man-6-P receptor were found to exhibit an increased effect of insulin on protein catabolism. In contrast, the insulin stimulation of glucose uptake is the same in these transfected cells as in the parental CHO cells. These results implicate the IGF-II/Man-6-P receptor in the insulin- and IGF-I-induced inhibition of protein catabolism.
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PMID:A role for the insulin-like growth factor II/mannose-6-phosphate receptor in the insulin-induced inhibition of protein catabolism. 254 2

Insulin-like growth factor II (IGF-II) shares sequence homology and predicted three-dimensional structure with insulin and IGF-I. IGF-II can bind, therefore, to a limited extent with the receptors for these two other hormones, as well as to a distinct receptor for IGF-II. Previous studies have been unable to attribute a particular response of IGF-II through its own receptor. In the present studies, the IGF-II receptor is shown to mediate the stimulation of glycogen synthesis in human hepatoma cells since: (i) IGF-II is found to be capable of stimulating a response at concentrations in which it would primarily interact with its own receptor; (ii) the response to IGF-II was not blocked by monoclonal antibodies which inhibit the responses of cells through the insulin and IGF-I receptors; and (iii) polyclonal antibodies to the IGF-II receptor were found to mimic the ability of IGF-II to stimulate glycogen synthesis. These results indicate that the IGF-II receptor mediates a particular biological response--stimulation of glycogen synthesis in hepatoma cells. Furthermore, a monovalent Fab fragment of the polyclonal antibody to the IGF-II receptor was also shown to stimulate glycogen synthesis in these cells. These data indicate that clustering of the IGF-II receptor is not required to stimulate a biological response.
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PMID:The receptor for insulin-like growth factor II mediates an insulin-like response. 282 25

We have previously reported that insulin induces a complete and reversible desensitization to the induction of tyrosine aminotransferase by insulin and insulin-like growth factors (IGFs) in HTC rat hepatoma cells. This loss of responsiveness cannot be accounted for by down-regulation of cell surface receptors, but occurs at a postbinding step in hormone action. Here we present evidence that IGF-I and IGF-II also induce desensitization to the actions of both IGFs and insulin and that this effect is mediated by IGF receptors. First, the concentration dependence for this effect is similar to that for the IGF-I and IGF-II induction of tyrosine aminotransferase, which has been shown to be mediated by IGF receptors. Second, antibody to the insulin receptor, which blocks insulin, but not IGF-II, binding to HTC cells, causes a rightward shift in the concentration dependence for insulin induction of desensitization, but does not significantly change the concentration dependence for IGF-II. These results indicate that IGF-II-induced desensitization to IGF-II is not mediated by the insulin receptor, but presumably by an IGF receptor. Although the IGFs do cause a moderate decrease in the binding of IGFs and insulin (to approximately 50-75% of the control value), this cannot account for the virtually complete desensitization to their actions. We conclude that IGFs, like insulin, induce a nearly complete loss of responsiveness to insulin and IGFs, that this effect is mediated via IGF receptors, and that desensitization occurs at a step distal to hormone binding which may be common to the actions of insulin and the IGFs.
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PMID:Regulation of insulin and insulin-like growth factor (IGF) responsiveness by IGFs in rat hepatoma cells. 287 Sep 17


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