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)

A human hepatoma cell line, Hep G2, which synthesizes and secretes several components of the fibrinolytic system, was examined for the capacity to produce plasminogen activator (PA). PA activity was found to accumulate in medium conditioned by the cells but was not detected in cell extracts. Analysis of Hep G2 conditioned medium by SDS-polyacrylamide gel electrophoresis revealed multiple PAs of Mr 100,000, 60,000, and 52,000 daltons. In addition, a heterogeneous band of activity was present between the 100,000 and 60,000 dalton PAs. All detectable PA activity in conditioned medium fractionated at a single position after isoelectric focusing. The isoelectric point of this material (pI 8.6) was identical to that of purified urokinase. Anti-urokinase IgG, but not anti-tissue activator IgG, neutralized the activity of these PAs. Treatment of conditioned medium with 25 mM diisopropylfluorophosphate for 5 hr at 37 degrees C inactivated the 52,000 and 60,000 dalton PAs but had no effect on the 100,000 dalton PA or the heterogeneous zone of activity. The possibility that the absence of detectable PA activity in the cell extracts resulted from the presence of fibrinolytic inhibitors was considered. Addition of cell extract to purified urokinase resulted in a concentration-dependent reduction of urokinase-mediated fibrinolytic activity, consistent with the presence of such inhibitors. Acidification of the cell extracts to inactivate the inhibitor(s) revealed the presence of a latent, cell-associated PA activity. Thus, in addition to the other major components of the fibrinolytic system, Hep G2 cells produce multiple forms of a urokinase-like PA. Detection of these PAs may be obscured by the presence of cellular inhibitors.
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PMID:Human hepatoma cell line plasminogen activator. 631 24

Plasminogen activators are membrane-associated, arginine-specific serine proteases which convert the inactive plasma zymogen plasminogen to plasmin, an active, broad-spectrum serine protease. Plasmin, the major fibrinolytic enzyme in blood, also participates in a number of physiologic functions involving protein processing and tissue remodelling, and may play an important role in tumor invasion and metastasis. In HTC rat hepatoma cells in tissue culture, glucocorticoids rapidly decrease plasminogen activator (PA) activity. We have shown that this decrease is mediated by induction of a soluble inhibitor of PA activity rather than modulation of the amount of PA. The hormonally-induced inhibitor is a cellular product which specifically inhibits PA but not plasmin. We have isolated variant lines of HTC cells which are selectively resistant to the glucocorticoid inhibition of PA but retain other glucocorticoid responses. These variants lack the hormonally-induced inhibitor; PA from these variants is fully sensitive to inhibition by inhibitor from steroid-treated wild-type cells. Cyclic nucleotides dramatically stimulate PA activity in HTC cells in a time- and concentration-dependent manner. Paradoxically, glucocorticoids further enhance this stimulation. Thus glucocorticoids exert two separate and opposite effects on PA activity. The availability of glucocorticoid-resistant variant cell lines, together with the unique regulatory interactions of steroids and cyclic nucleotides, make HTC cells a useful experimental system in which to study the multihormonal regulation of plasminogen activator.
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PMID:Hormonal regulation of plasminogen activator in rat hepatoma cells. 631 82

We have reported previously that derivatives of adenosine cyclic 3':5'-monophosphate dramatically stimulate the activity of plasminogen activator (PA), an arginine-specific serine protease, in HTC rat hepatoma cells. We report here that these derivatives also cause striking alterations in hepatoma tissue culture cell morphology. Because PA has been shown to alter cell morphology in other cell lines, we investigated whether the morphological changes induced by cyclic nucleotides were mediated by the stimulation of PA activity. Alterations in PA activity, measured by the plasminogen-dependent solubilization of 125I-labeled fibrin, and in cell morphology, detected by evaluation of cell flattening and process extension with phase-contrast microscopy, were assessed in the same cultures under various experimental conditions. Several lines of evidence clearly dissociate these two adenosine cyclic 3':5'-monophosphate-mediated phenomena. (a) The morphological changes precede increases in either cell-associated or extracellular PA activity. (b) Upon removal of the effectors, the morphological effects are completely reversed at a time when PA activity is still considerably elevated. (c) when protein synthesis is inhibited by the addition of cycloheximide, the stimulation of PA activity by cyclic nucleotides is blocked completely, whereas the induction of morphological alterations still occurs. (d) An exogenous PA, urokinase, does not elicit the characteristic changes in cell shape. We conclude that the morphological alterations induced by adenosine cyclic 3':5'-monophosphate derivatives in HTC cells are not mediated by the stimulation of PA activity and that these two membrane-associated properties are regulated independently.
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PMID:Role of plasminogen activator in the morphological alterations induced by derivatives of adenosine cyclic 3':5'-monophosphate in hepatoma tissue culture cells. 631 21

Several angiogenic preparations that have been shown to stimulate plasminogen activator (PA) and collagenase production by cultured bovine capillary endothelial (BCE) cells were tested for their ability to stimulate BCE cell motility in the phagokinetic track assay. Bovine retinal extract, medium conditioned by 3T3-F442A differentiated mouse adipocytes, SK HEP-1 human hepatoma cell lysate, mouse sarcoma 180 cell lysate, and medium conditioned by mouse sarcoma 180 cells stimulated motility 68.7%, 48.5%, 140.9%, 56.5%, and 102.1%, respectively, relative to untreated cells. The motility-stimulating activity of these preparations was dose dependent and linear over the 16-h assay period. Several hormones and growth factors were tested for BCE cell motility-stimulating activity, including insulin, vasopressin, fibroblast growth factor, and a partially purified preparation of sarcoma growth factor, and were found to be ineffective. 12-0-tetradecanoyl-phorbol-acetate (TPA), a potent stimulator of both PA and collagenase activities in BCE cells, also did not stimulate motility, indicating that protease production is not sufficient to stimulate BCE cell motility in this assay. Neither SK HEP-1 hepatoma cell lysate nor TPA was effective in stimulating motility in bovine aortic endothelial (BAE) cells. The inability of SK HEP-1 hepatoma cell lysate to stimulate movement in BAE cells is consistent with the observation that angiogenesis occurs by sprouting of capillaries, not large vessels.
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PMID:Stimulation of motility in cultured bovine capillary endothelial cells by angiogenic preparations. 632 76

Dexamethasone induces an inhibitor of plasminogen-dependent fibrinolysis in rat hepatoma (HTC) cells. The specificity of the inhibitor for urokinase and plasmin was investigated using both fibrinolytic and esterolytic assays. Urokinase, but not plasmin, was inhibited by serum-free conditioned medium from cells incubated with 0.1 microM dexamethasone. The specificity of the inhibitor for plasminogen activator was demonstrated directly by the inhibition of the urokinase-catalyzed activation of 125I-plasminogen to 125I-plasmin. The inhibitory activity was stable to pH 3 for 2 h at 37 degrees C, a condition which inactivated fibrinolytic inhibitors in serum, suggesting a cellular origin for the inhibitor. Further evidence for the cellular origin was the constant daily production of inhibitor throughout a 4-day incubation with dexamethasone in serum-free medium. SF HTC-H1 cells, selected for their ability to grow in serum-free medium (Thompson, E. B., Anderson, C. U., and Lippman, M. E. (1975) J. Cell Physiol. 86, 403-412), were grown for 76 days (at least 30 generations) in the presence or absence of serum; dexamethasone induced equivalent amounts of inhibitory activity in cells which had been grown under both conditions. We conclude that the dexamethasone-induced inhibitor from HTC cells is a cellular product which is specific for the inhibition of plasminogen activation and which differs from other reported fibrinolytic inhibitors.
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PMID:The dexamethasone-induced inhibitor of fibrinolytic activity in hepatoma cells. A cellular product which specifically inhibits plasminogen activation. 646 54

The adherent human hepatoma cell line Hep G2 exhibits receptor mediated endocytosis and catabolism of tissue-type plasminogen activator.plasminogen activator inhibitor type-1 (t-PA.PAI-1) complexes formed when exogenous t-PA combines with endogenous PAI-1 in the extracellular matrix. To determine whether the other major PA, urokinase (u-PA), which also complexes with PAI-1, is metabolised via the same mechanism, 125I-labelled high (hmw) and low (lmw) molecular weight forms of u-PA were incubated with Hep G2 cells at 4 degrees C for 2 hr in the absence and presence of a 100-fold excess of unlabelled ligand in order to detect specific binding. Both hmw and lmw 125I-u-PA formed complexes with PAI-1 and these bound specifically and with high affinity (apparent Kd 3.9 and 4.1 nM, with Bmax 78 x 10(3) and 83 x 10(3) binding sites/cell respectively). Binding by each form of radiolabelled u-PA was inhibited in a dose-dependent fashion by unlabelled t-PA, hmw-u-PA, lmw-u-PA, and by monoclonal anti-PAI-1 antibody. At 37 degrees C, bound hmw and lmw 125I-u-PA.PAI-1 complexes were internalised and degraded rapidly. These findings indicate that the specificity of the previously described receptor which mediates PAI-1 dependent catabolism of t-PA by Hep G2 cells extends to complexes of u-PA with this inhibitor.
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PMID:Urokinase binding and catabolism by Hep G2 cells is plasminogen activator inhibitor-1 dependent, analogous to interactions of tissue-type plasminogen activator with these cells. 748 38

A 39-kDa protein binds to the low density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor (LRP/alpha 2MR) and inhibits the binding of ligands to this receptor. We recently reported that inhibition of tissue-type plasminogen activator binding to LRP/alpha 2MR is mediated by both amino-terminal and carboxyl-terminal regions of the 39-kDa protein, whereas inhibition of alpha 2-macroglobulin-proteinase binding is mediated only by amino-terminal regions. In this report we show that amino-terminal and carboxyl-terminal regions of the 39-kDa protein bind specifically and with high affinity to LRP/alpha 2MR on rat hepatoma MH1C1 cells. Following binding, these amino-terminal and carboxyl-terminal regions of the 39-kDa protein are each rapidly endocytosed and degraded with kinetics identical to the full-length 39-kDa protein. Competition binding experiments with these constructs demonstrate that amino-terminal and carboxyl-terminal regions of the 39-kDa protein compete with one another for binding to LRP/alpha 2MR. A model is proposed in which amino-terminal and carboxyl-terminal regions of the 39-kDa protein bind to different sites on LRP/alpha 2MR in order to inhibit ligand binding.
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PMID:Binding analysis of amino-terminal and carboxyl-terminal regions of the 39-kDa protein to the low density lipoprotein receptor-related protein. 750 11

A 39-kDa protein copurifies with the low-density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor (LRP) and inhibits the binding and/or cellular uptake of ligands by this receptor. We recently utilized glutathione S-transferase (GST)-39-kDa fusion protein constructs to demonstrate that constructs encoding amino-terminal residues 1-114 and carboxy-terminal residues 115-319 of the 39-kDa protein independently bind to purified LRP and to LRP on hepatoma cells with similar affinities as the full-length GST-39-kDa protein (Kd approximately 8-10 nM). These regions, however, inhibit ligand binding to LRP differently: GST/1-114 inhibits both tissue-type plasminogen activator (t-PA) and alpha 2-macroglobulin-methylamine (alpha 2M*) binding whereas GST/115-319 only potently inhibits t-PA binding. Four domains, containing residues 18-24 and 100-107 within amino-terminal constructs and residues 200-225 and 311-319 within carboxy-terminal constructs, are required for inhibition of ligand binding. In the present study, we generated additional 39-kDa protein constructs to precisely define residues within each domain required for inhibition of t-PA and alpha 2M* binding to LRP. The potential importance of these residues in mediating direct binding both to purified LRP and to LRP on hepatoma cells was examined. Within amino-terminal residues 1-114, alanine 103 and leucine 104 are required for inhibition of t-PA and alpha 2M* binding. These residues, however, are not required for binding either to purified LRP or to LRP on hepatoma cells. Within domain 18-24, arginine 21 is required for inhibition of t-PA and alpha 2M* binding as well as for the direct binding of amino-terminal constructs to LRP. Within carboxy-terminal domains 200-225 and 311-319, leucine 222 and leucine 319 are both required for inhibition of t-PA binding. Deletion of leucine 319 changes the ligand specificity from inhibition of t-PA binding to inhibition of alpha 2M* binding. Thus, leucine 319 is not required for direct binding to LRP whereas leucine 222 is required for high-affinity binding to LRP.
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PMID:Sites within the 39-kDa protein important for regulating ligand binding to the low-density lipoprotein receptor-related protein. 753 37

The relative contribution of the finger/growth factor domains of tissue-type plasminogen activator (t-PA) and of the other t-PA domains to the clearance of t-PA by hepatocytes was investigated. A recombinant finger/growth factor construct inhibited t-PA and t-PA/plasminogen activator inhibitor type-1 degradation with an IC50 of 1800 nM, whereas a t-PA mutant lacking the finger and growth factor domains inhibited degradation with an estimated IC50 of 1200 nM. In comparison the IC50 of t-PA was found to be approximately 10 nM. Clearance of t-PA by human or rat hepatoma cells was not inhibited by high concentrations of fucose (50 mM), which suggests that the fucose on Thr-61 is not involved in clearance by these cells. These results suggest that the binding of t-PA involves several low affinity binding sites located on distinct domains of the t-PA molecule.
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PMID:The role of the finger and growth factor domains in the clearance of tissue-type plasminogen activator by hepatocytes. 759 2

The low density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor (LRP/alpha 2MR) binds and internalizes several plasma proteins including tissue-type plasminogen activator (t-PA) and alpha 2-macroglobulin-protease complexes (alpha 2M*). A 39-kDa protein that copurifies with LRP/alpha 2MR inhibits the binding and uptake of ligands by LRP/alpha 2MR, including t-PA and alpha 2M*. To define domains on the 39-kDa protein which are essential for inhibition of t-PA and alpha 2M* binding to LRP/alpha 2MR, we have generated bacterial expression constructs encoding discrete regions of the 39-kDa protein as fusion proteins with glutathione S-transferase. Inhibition of t-PA and alpha 2M* binding to LRP/alpha 2MR on rat hepatoma MH1C1 cells are shown to require amino acid residues 18-24 and 100-107 on the 39-kDa protein. Inhibition of t-PA but not alpha 2M* binding to LRP/alpha 2MR is also mediated by residues 200-225 and 311-319. The same 39-kDa protein constructs that inhibit alpha 2M* and t-PA binding to MH1C1 cells are able to bind directly to purified LRP/alpha 2MR immobilized on nitrocellulose. Thus, our studies demonstrate several specific regions on the 39-kDa protein which are required for the inhibition of t-PA and alpha 2M* binding to LRP/alpha 2MR.
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PMID:Identification of domains on the 39-kDa protein that inhibit the binding of ligands to the low density lipoprotein receptor-related protein. 769 21


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