UMLS:C0019204 - FACTA Search

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

We have studied the phosphorylation state of the insulin receptor during receptor-mediated endocytosis in the well-differentiated rat hepatoma cell line Fao. Insulin induced the rapid internalization of surface-iodinated insulin receptors into a trypsin-resistant compartment, with a 3-fold increase in the internalization rate over that seen in the absence of insulin. Within 20 min of insulin stimulation, 30-35% of surface receptors were located inside the cell. This redistribution was half-maximal by 10.5 min. Similar results were obtained when the loss of surface receptors was measured by 125I-insulin binding. Tyrosyl phosphorylation of internalized insulin receptors was measured by immunoprecipitation with antiphosphotyrosine antibody. Immediately after insulin stimulation, 70-80% of internalized receptors were tyrosine phosphorylated. Internalized receptors persisted in a phosphorylated state after the dissociation of insulin but were dephosphorylated prior to their return to the plasma membrane. After 45-60 min of insulin stimulation, the tyrosine phosphorylation of the internal receptor pool decreased by 45%, whereas the phosphorylation of surface receptors was unchanged. These data suggest that insulin induces the internalization of phosphorylated insulin receptors into the cell and that the phosphorylation state of the internal receptor pool may be regulated by insulin.
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PMID:Tyrosine phosphorylation of the insulin receptor during insulin-stimulated internalization in rat hepatoma cells. 246 86

The immunoglobulin G (IgG) fraction obtained from the serum of a patient (B-10) with type B insulin resistance and acanthosis nigricans stimulated both glucose oxidation in rat adipocytes and autophosphorylation of tyrosine residues in the beta-subunit of insulin receptors in H-35 hepatoma cells. Partially purified insulin receptor from H-35 cells, when incubated with B-10 IgG, had increased tyrosine kinase activity for a synthetic peptide sequentially similar to the site of tyrosine phosphorylation in pp60v-arc (the gene product responsible for cellular transformation by the Rous sarcoma virus). In H-35 cells, both B-10 IgG and insulin stimulated tyrosine phosphorylation in an endogenous 185,000 mol wt protein. This phosphoprotein may be similar to the cellular substrate for insulin in hepatoma and other cultured cell lines demonstrated by others. These results suggest that antiinsulin receptor antibodies (B-10) may initiate their insulin-like effects via tyrosine phosphorylation of the insulin receptor, activation of its tyrosine kinase activity, and phosphorylation of a cellular protein substrate of 185,000 mol wt.
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PMID:Autoantibodies to the insulin receptor (B-10) can stimulate tyrosine phosphorylation of the beta-subunit of the insulin receptor and a 185,000 molecular weight protein in rat hepatoma cells. 246 44

Insulin treatment of rat H-35 hepatoma cells causes rapid tyrosine phosphorylation of a high molecular weight protein termed pp185 besides autophosphorylation of the beta-subunit of the insulin receptor (IR) in an intact cell system. To elucidate the molecular basis for tyrosine phosphorylation of pp185, cell-free phosphorylation of pp185 was performed using phosphotyrosine-containing proteins (PYPs) purified from detergent-solubilized cell lysates by immunoprecipitation with anti-phosphotyrosine antibody. After insulin treatment of cells, marked increases of tyrosine phosphorylation of pp185 and IR were observed compared to noninsulin-treated cells. Site-specific antibodies that specifically inactivate IR kinase inhibited tyrosine phosphorylation of pp185 as well as the beta-subunit of IR. PYPs purified from detergent-free cell extracts contained pp185 but little IR; tyrosine phosphorylation of pp185 did not occur. Addition of IR kinase purified from human placenta to these PYPs restored insulin-dependent tyrosine phosphorylation of pp185. These results suggest that tyrosine phosphorylation of pp185 is catalyzed directly by IR kinase in this cell-free system.
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PMID:Tyrosine phosphorylation of pp185 by insulin receptor kinase in a cell-free system. 246 62

Receptors for Insulin, Epidermal Growth Factor, Platelet-Derived Growth Factor and Insulin-like Growth Factor type 1 are tyrosine-specific protein kinases. This enzymatic activity may play a role in mediating the biological actions of these peptides. It has recently been identified a Mr 120 KDa glycoprotein in rat liver plasma membranes which can be phosphorylated by the insulin receptor and by the EGF receptor in a cell-free system and by the insulin receptor in intact cultured H-35 hepatoma cells. In the present report it is shown that the solubilized Insulin-like Growth Factor type 1 receptor can phosphorylate tyrosine residues in the same 120 KDa glycoprotein from the AS-30D rat hepatoma cells.
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PMID:rp-120: a common endogenous substrate for insulin and IGF-1 receptor-associated tyrosine kinase activity in the highly malignant AS-30D rat hepatoma cells. 246 17

The monoclonal antibody FDC-6 defines a structure specific to oncofetal fibronectins (onf-FN) isolated from fetal and malignant cells and tissues. The absence of this structure is characteristic of normal fibronectin (nor-FN) isolated from plasma and adult normal tissue (Matsuura, H., and Hakomori, S. (1985) Proc. Natl. Acad. Sci. U. S. A. 82, 6517-6521). The minimum structure required for FDC-6 reactivity was determined to be Val-Thr-His-Pro-Gly-Tyr (VTHPGY) with alpha-N-acetylgalactosamine (alpha-GalNAc) at Thr, although alpha-GalNAc per se is not involved in the FDC-6 epitope (Matsuura, H., Takio, K., Titani, K., Greene, T., Levery, S. B., Salyan, M. E. K., and Hakomori, S. (1988) J. Biol. Chem. 263, 3314-3322). Thus, a single glycosylation on the normally occurring peptide of FN may induce conformational changes in the peptide to form the specific oncofetal epitope recognized by FDC-6 antibody. The FDC-6-nonreactive synthetic peptide containing the VTHPGY sequence was converted into FDC-6-reactive form on incubation with alpha-N-acetylgalactosaminyltransferase and UDP-[3H]GalNAc in the homogenate of hepatoma cell HUH-7, human fetal fibroblast cell line WI-38, or human epidermoid carcinoma cell line A431. Such a conversion did not take place when the same enzyme fraction of normal adult tissue was incubated with the VTHPGY peptide under the same conditions. Thus, the occurrence of alpha-GalNAc transferase recognizing the VTHPGY peptide sequence (UDP-GalNAc:VTHPGY alpha-GalNAc transferase) is specific for fetal and cancer tissues, and absent in normal adult tissues. However, a similar alpha-GalNAc transferase activity capable of transferring the GalNAc residue to other Ser or Thr hydroxyl groups of nor-FN, and presumably located at the type III connecting segment region, was detectable in homogenate of various normal tissues. Such enzyme activity was determined with the use of enzymatically de-O-glycosylated nor-FN. Thus, the enzymatic basis of FDC-6 epitope formation is a subtle change in the substrate specificity of alpha-GalNAc transferase. The normal enzyme is incapable of transferring alpha-GalNAc from UDP-GalNAc to the Thr residue of the VTHPGY sequence, but is capable of transferring alpha-GalNAc to other Ser or Thr residues of FN. In contrast, alpha-GalNAc transferase of fetal and cancer tissues may have broader specificity and the capability to transfer GalNAc to Thr or Ser residues, including those of the VTHPGY sequence.
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PMID:An alpha-N-acetylgalactosaminylation at the threonine residue of a defined peptide sequence creates the oncofetal peptide epitope in human fibronectin. 247 5

Human S-protein (vitronectin) and hemopexin, two structurally related plasma proteins of similar molecular mass and abundance, were analyzed for tyrosine sulfation. Both proteins were synthesized and secreted by the human hepatoma-derived cell line Hep G2, as shown by immunoprecipitation from the culture medium of [35S]methionine-labelled cells. When Hep G2 cells were labelled with [35S]sulfate, S-protein, but not hemopexin, was found to be sulfated. Half of the [35S]sulfate incorporated into S-protein was recovered as tyrosine sulfate. The stoichiometry of tyrosine sulfation was approximately two mol tyrosine sulfate/mol S-protein. Examination of the S-protein sequence for the presence of the known consensus features for tyrosine sulfation revealed three potential sulfation sites at positions 56, 59 and 401. Tyrosine 56 is the most probable site for stoichiometric sulfation, followed by tyrosine 59 which appears more likely to become sulfated than tyrosine 401. Tyrosines 56 and 59 are located in the anionic region of S-protein which has no homologous counterpart in hemopexin. We discuss the possibility that tyrosine sulfation of the anionic region of S-protein may stabilize the conformation of S-protein in the absence of thrombin-antithrombin III complexes and may play a role in its binding to thrombin-antithrombin III complexes during coagulation.
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PMID:Sulfation of two tyrosine-residues in human complement S-protein (vitronectin). 247 56

Insulin elicits the autophosphorylation of the beta-subunit of its receptor on tyrosine residues: this effect appears to be the earliest post-binding event involved in insulin action. In the present study we have raised highly specific antibodies to phosphotyrosine residues, and we have taken advantage of these antibodies to further evaluate the role of the insulin receptor tyrosine kinase in the generation of insulin's biological responses. Using a cell-free phosphorylation assay, we show here that these antibodies increase the tyrosine kinase activity of the receptor, and its phosphorylation on tyrosine residues. In contrast, the antibodies do not interfere with dephosphorylation of the insulin receptor. Introduction of the same antibodies in living Fao hepatoma cells enhances the effect of insulin on both glucose transport and aminoacid uptake. As a whole our data indicate that the insulin receptor kinase is involved in the generation of an early (glucose transport) and late (aminoacid uptake) response to insulin. Further, conformational changes in phosphotyrosine containing domains of the insulin receptor appear to modulate insulin's biological effects. Finally, the injection of antibodies in intact cells provides us with a novel and promising tool to search for cellular substrates for the insulin receptor tyrosine kinase.
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PMID:Antiphosphotyrosine antibodies modulate insulin receptor kinase activity and insulin action. 248 34

Here we report the development of novel antibodies which specifically react with phosphothreonine residues [anti-(P-Thr)antibodies]. The specificity of the antibodies was assessed in radioimmunoassays where we could demonstrate that half-maximal and maximal binding of the antibodies to plates coated with BSA - P-Thr occurred at serum dilutions of 1:4000 and 1:1000, respectively. P-Thr inhibited antibody binding with a half-maximal effect at 40 microM. P-Ser was 200-fold less potent while P-Tyr was essentially ineffective. Anti-(P-Thr) antibodies could specifically bind to phosphothreonine-containing proteins on Western blots. Using such a procedure we could demonstrate enhanced threonine phosphorylation of the EGF receptor upon treatment of intact unlabeled A431 cells with EGF. We could further demonstrate antibodies binding to proteins present in extracts of rat hepatoma cells (Fao). P-Thr at 10 microM completely inhibited antibody binding while P-Ser, P-Tyr, Thr or Ser, each present at tenfold higher concentrations, had no such inhibitory effect. Anti-(P-Thr) antibodies were also capable of specifically immunoprecipitating 32P-labeled phosphoproteins present in Triton extracts of Fao cells. Immunoprecipitation of proteins of 38 kDa, 55 kDa, 85 kDa, 100 kDa and 155 kDa was inhibited by 1 mM P-Thr but not by P-Tyr. These findings suggest that anti-(P-Thr) antibodies could be powerful tools in studies aimed at monitoring alterations in threonine phosphorylation of specific proteins as they occur under physiological conditions in response to various extracellular stimuli. Identification of such proteins can be conveniently monitored by immunoblotting.
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PMID:Antibodies directed against phosphothreonine residues as potent tools for studying protein phosphorylation. 250 Mar 41

Our previous studies indicated that amino acid residues 240-250 in the cysteine-rich region of the human insulin receptor alpha-subunit constitute a site in which insulin binds (Yip, C. C., Hsu, H., Patel, R. G., Hawley, D. M., Maddux, B. A., and Goldfine, I. D. (1988) Biochem. Biophys. Res. Commun. 157, 321-329). We have now constructed a human insulin receptor mutant in which 3 residues in this sequence were altered (Thr-Cys-Pro-Pro-Pro-Tyr-Tyr-His-Phe-Gln-Asp to Thr-Cys-Pro-Arg-Arg-Tyr-Tyr-Asp-Phe-Gln-Asp) and have expressed this mutant in rat hepatoma (HTC) cells. When compared with cells transfected with normal insulin receptors, cells transfected with mutant receptors had an increase in insulin-binding affinity and a decrease in the dissociation of bound 125I-insulin. Studies using solubilized receptors also demonstrated that mutant receptors had a higher binding affinity than normal receptors. In contrast, cells transfected with either mutant or normal receptors bound monoclonal antibodies against the receptor alpha-subunit with equal affinity. When receptor tyrosine kinase activity and alpha-aminoisobutyric acid uptake were measured, cells transfected with mutant insulin receptors were more sensitive to insulin than cells transfected with normal receptors. These findings lend further support therefore to the hypothesis that amino acid sequence 240-250 of the human insulin receptor alpha-subunit constitutes one site that interacts with insulin, and they indicate that mutations in this site can influence insulin receptor binding and transmembrane signaling.
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PMID:Mutation of the high cysteine region of the human insulin receptor alpha-subunit increases insulin receptor binding affinity and transmembrane signaling. 255 Apr 26

The effects of species-specific monoclonal antibodies to the human insulin receptor on ribosomal protein S6 phosphorylation were studied in rodent cell lines transfected with human insulin receptors. First, Swiss mouse 3T3 fibroblasts expressing normal human insulin receptors (3T3/HIR cells) were studied. Three monoclonal antibodies, MA-5, MA-20, and MA-51, activated S6 kinase in these cells but had no effects in untransfected 3T3 cells. Both insulin and MA-5, the most potent antibody, activated S6 kinase in a similar time- and dose-dependent manner. To measure S6 phosphorylation in vivo, 3T3/HIR cells were preincubated with [32P]Pi and treated with insulin and MA-5. Both agents increased S6 phosphorylation, and their tryptic phosphopeptide maps were similar. MA-5 and the other monoclonal antibodies, unlike insulin, failed to stimulate insulin receptor tyrosine kinase activity either in vitro or in vivo. Moreover, unlike insulin, they failed to increase the tyrosine phosphorylation of the endogenous cytoplasmic protein, pp 185. Next, HTC rat hepatoma cells, expressing a human insulin receptor mutant that had three key tyrosine autophosphorylation sites in the beta-subunit changed to phenylalanines (HTC-IR-F3 cells), were studied. In this cell line but not in untransfected HTC cells, monoclonal antibodies activated S6 kinase without stimulating either insulin receptor autophosphorylation or the tyrosine phosphorylation of pp 185. These data indicate, therefore, that monoclonal antibodies can activate S6 kinase and then increase S6 phosphorylation. Moreover, they suggest that activation of receptor tyrosine kinase and subsequent tyrosine phosphorylation of cellular proteins may not be crucial for activation of S6 kinase by the insulin receptor.
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PMID:Monoclonal antibodies mimic insulin activation of ribosomal protein S6 kinase without activation of insulin receptor tyrosine kinase. Studies in cells transfected with normal and mutant human insulin receptors. 255 27

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