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)

CGP 6809 is a water-soluble nitrosourea derivative with quite distinct chemical and biological properties as compared with the well-known representatives of this class of compounds. It is related to the antibiotic streptozotocin, from which it is distinguished in the structure of the sugar moiety and the position of the methylnitrosourea residue. CGP 6809 possesses practically the same alkylating potential as streptozotocin; however, its carbamoylating activity is comparable with that of CCNU. In contrast to other nitrosourea derivatives, CGP 6809 showed relatively little activity in murine leukemias but was markedly active in solid transplantable melanomas (Harding-Passay, B16), in the 11095 prostate carcinoma, and in a substrain of Yoshida hepatoma (AH 7974) resistant to BCNU and CCNU. In the Ehrlich and Yoshida ascitic tumors complete responses were seen with no toxic death. Dose-dependent activity was found in the human lung carcinoma MBA 9812 and almost complete growth inhibition was achieved in the human melanoma WM 47 by both the oral and parenteral routes of administration. However, mammary tumor lines (Ca 755, 2661/61, R-3230AC), the Guerin-T8 uterus epithelioma, and the Rous sarcoma/S-R proved to be relatively refractory to this drug. This was also the case for the Lewis lung carcinoma implanted i.m. or s.c. However, development of lung metastases was markedly inhibited. Combination therapy using CGP 6809 with cyclophosphamide, 5-fluorouracil, or chlorambucil in the same model led to partial responses of the primary tumor as well as almost total eradication of lung metastases.
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PMID:CGP 6809, a sugar-containing nitrosourea derivative: pharmacological and physicochemical properties. 271 56

We have utilized the rat hepatoma (HTC) cell sorting variant CR4 to examine the glucocorticoid-regulated pathways that localize mouse mammary tumor virus glycoproteins to the cell surface. The defective sorting of cell surface mouse mammary tumor virus glycoproteins in CR4 cells was complemented after fusion with either normal rat hepatocytes or uninfected HTC cells. Indirect immunofluorescence of transient heterokaryons revealed that the regulated localization of mouse mammary tumor virus glycoproteins was dependent upon glucocorticoid treatment and required de novo RNA and protein synthesis. Thus, a glucocorticoid-regulated trafficking activity, unrelated to mouse mammary tumor virus sequences, which is induced in both adult rat liver and cultured hepatoma cells, can act in trans to mediate an intracellular sorting pathway for membrane glycoproteins.
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PMID:Glucocorticoid-dependent complementation of a hepatoma cell variant defective in viral glycoprotein sorting. 282 3

The biological control of posttranslational maturation and compartmentalization reactions that operate upon proteins during transport to their final cellular destinations is crucial for normal cellular function. Using the expression of mouse mammary tumor virus (MMTV) glycoproteins as sensitive probes in the viral-infected rat hepatoma cell line M1.54, we have discovered and documented a novel glucocorticoid-regulated trafficking pathway that controls the cell surface localization of MMTV glycoproteins. One complement-selected derivative of M1.54 cells, CR4, failed to compartmentalize cell surface MMTV glycoproteins in the presence of dexamethasone. To test genetically if this glycoprotein trafficking pathway is mediated by cellular or viral gene products, CR4 cells were fused with uninfected Fu5 rat hepatoma cells. Indirect immunofluorescence of CR4 X Fu5 heterokaryons revealed that Fu5 complemented the defect in CR4 only after exposure to 1 microM dexamethasone. The glucocorticoid inhibition of Fu5 proliferation was exploited to recover the receptor-deficient uninfected derivative EDR3 that expressed a 100-fold lower level of [3H]dexamethasone binding activity. Analysis of CR4 X EDR3 cell fusions by indirect immunofluorescence revealed that EDR4 cells complemented CR4 in a dexamethasone-dependent manner, suggesting that EDR3 supplied a functinal trafficking component while CR4 provided a functional glucocorticoid receptor to the heterokaryons. Taken together, our results demonstrate that cellular-encoded glucocorticoid-inducible components mediate the regulated trafficking of cell surface MMTV glycoproteins.
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PMID:Genetic evidence that the steroid-regulated trafficking of cell surface glycoproteins in rat hepatoma cells is mediated by glucocorticoid-inducible cellular components. 283 Dec 39

Glucocorticoid hormones regulate the post-translational maturation and sorting of cell surface and extracellular mouse mammary tumor virus (MMTV) glycoproteins in M1.54 cells, a stably infected rat hepatoma cell line. Exposure to monensin significantly reduced the proteolytic maturation and externalization of viral glycoproteins resulting in a stable cellular accumulation of a single 70,000-Mr glycosylated polyprotein (designated gp70). Cell surface- and intracellular-specific immunoprecipitations of monensin-treated cells revealed that gp70 can be localized to the cell surface only in the presence of 1 microM dexamethasone, while in uninduced cells gp70 is irreversibly sequestered in an intracellular compartment. Analysis of oligosaccharide processing kinetics demonstrated that gp70 acquired resistance to endoglycosidase H with a half-time of 65 min in the presence or absence of hormone. In contrast, gp70 was inefficiently galactosylated after a 60-min lag in uninduced cells while rapidly acquiring this carbohydrate modification in the presence of dexamethasone. Furthermore, in the absence or presence of monensin, MMTV glycoproteins failed to be galactosylated in hormone-induced CR4 cells, a complement-selected sorting variant defective in the glucocorticoid-regulated compartmentalization of viral glycoproteins to the cell surface. Since dexamethasone had no apparent global effects on organelle morphology or production of total cell surface-galactosylated species, we conclude that glucocorticoids induce the localization of cell surface MMTV glycoproteins by regulating a highly selective step within the Golgi apparatus after the acquisition of endoglycosidase H-resistant oligosaccharide side chains but before or at the site of galactose attachment.
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PMID:Glucocorticoid-regulated localization of cell surface glycoproteins in rat hepatoma cells is mediated within the Golgi complex. 283 30

An assay that employs nucleoside 5'-O-(2-thiotriphosphates) was used to detect initiation of mouse mammary tumor virus (MMTV) RNA chains in preparations of isolated nuclei from cultured rat hepatoma cells containing stably integrated proviruses. RNA chains initiated with adenosine 5'-O-(2-thiotriphosphate), guanosine 5'-O-(2-thiotriphosphate), or uridine 5'-O-(2-thiotriphosphate) were separated from the remaining RNA by mercury-Sepharose column chromatography and analyzed for correctly initiated RNA chains with a T1 nuclease protection assay. Combined use of the thionucleotide transcription reaction with the T1 nuclease assay allowed precise localization of the transcription start sites. The majority of MMTV RNA chains were initiated with guanosine 5'-O-(2-thiotriphosphate) at a template site 133 nucleotides upstream from a PvuII site that coincides with the right end of the long terminal repeat. However, some RNA chains were also initiated with adenosine 5'-O-(2-thiotriphosphate) and uridine 5'-O-(2-thiotriphosphate) at template sites within three nucleotides of the primary guanosine start site. When Mn2+ was substituted for Mg2+ in the transcription reaction, MMTV RNA chains were initiated with approximately the same efficiency, but the start site was shifted to a position approximately 40 nucleotides downstream from the physiological start site; in the presence of Mn2+, MMTV RNA chains were initiated only with guanosine 5'-O-(2-thiotriphosphate). When the nuclei were exposed to both Mn2+ and Mg2+, transcription initiated at the manganese-dependent site. Mn2+ also caused the transcription start site for 45 S pre-rRNA to shift about 10 nucleotides upstream from the physiologically correct start site.
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PMID:A role for divalent cations in specifying the start site for transcription from chromatin templates in vitro. 283 93

Dexamethasone, a synthetic glucocorticoid, is required for full posttranslational maturation of mouse mammary tumor virus (MMTV) phosphoproteins and glycoproteins in M1.54 cells, a viral infected rat hepatoma (HTC) cell line. Pulse-chase radiolabeling with [35S]methionine revealed that steroids with known glucocorticoid activity (such as dexamethasone and hydrocortisone) regulated the maturation of both MMTV polyproteins in a manner proportional to their occupancy for glucocorticoid receptors and their biological potency. In contrast, progesterone selectively induced the proteolytic processing of MMTV phosphoproteins but simultaneously antagonized the dexamethasone-regulated maturation of MMTV glycoproteins and all other tested glucocorticoid responses. Exposure to suboptimal concentrations of both progesterone and dexamethasone fully stimulated the processing of MMTV phosphoproteins, suggesting that steroid receptors occupied with combinations of either steroid functionally interact at the putative maturation gene. Moreover, treatment with either actinomycin D, a potent inhibitor of de novo RNA synthesis, or RU38486, a synthetic antagonist of glucocorticoid and progesterone action, prevented both the dexamethasone and progesterone-regulated induction of MMTV phosphoprotein maturation. Sedimentation velocity and saturation binding analysis revealed that the sizes and concentrations of hepatoma cell progesterone and dexamethasone binding activities are similar while specific binding of the active progestin R5020 was not detected in either M1.54 cells or the glucocorticoid receptor deficient HTC cell line MSN6.10.2. Taken together, our results demonstrate that two distinct classes of steroid hormones can uniquely alter the posttranslational maturation of a specific subset of phosphoprotein substrates by a common glucocorticoid receptor-dependent process.
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PMID:Dual regulation of protein maturation in viral infected rat HTC hepatoma cells by glucocorticoids and progesterone. 285 2

The enzyme tyrosine aminotransferase (TAT) is induced by unusually low concentrations of glucocorticoids in Fu5-5 cells. We have isolated clones of Fu5-5 cells infected with mouse mammary tumor virus (MMTV) in order to simultaneously compare the glucocorticoid regulation of the host cell gene, TAT, with that of another primary inducible gene, MMTV. In the two clones that were examined in detail, MMTV RNA induction occurred at 4- to 11-fold higher concentrations of dexamethasone than those needed for induction of TAT mRNA. Furthermore, the amount of agonist activity displayed by the irreversible antiglucocorticoid dexamethasone 21-mesylate was greater for the induction of TAT mRNA than for MMTV RNA. These results extend our previous observations of unequal sensitivity of induction of TAT enzyme activity in two hepatoma cell lines and show that differential glucocorticoid regulation of gene induction within the same cell can occur at a pretranslational step. The present data also indicate that the unusual properties of TAT gene induction are not shared by all primary, glucocorticoid-inducible responses of the same cell and imply that additional factors mediating differential regulation of glucocorticoid-responsive genes are involved.
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PMID:Unlinked regulation of the sensitivity of primary glucocorticoid-inducible responses in mouse mammary tumor virus infected Fu5-5 rat hepatoma cells. 290 13

The subcellular localization of mouse mammary tumor virus (MMTV) glycoproteins was analyzed in infected and cloned rat hepatocarcinoma cells cultured with the MMTV transcriptional inducer dexamethasone. When reacted with protein A-coated erythrocytes in the presence of antisera specific for viral glycoproteins or with fluorescent antisera, only some of the cells acquired surface label. This diversity was dependent on cell anchorage to the substratum. In general, the more rounded, less adherent cells contained the MMTV glycoproteins on their surfaces, whereas the flatter, more adherent cells did not. After a change in adherence, a delay preceded complete remodeling of the plasma membranes. Fluorescent antibody studies of fixed cells and analyses of viral glycoprotein synthesis and shedding using L-[35S]methionine indicated that the different expression of MMTV glycoproteins in round versus flat cells is caused by a switch in posttranslational processing. In round cells, the MMTV-encoded precursor glycoprotein is proteolytically cleaved and then transported to plasma membranes as a complex of two subunits, the smaller being the membrane anchor. In flat adherent cells, the smaller subunit is rapidly degraded in an intracellular organelle and the larger is then secreted into the medium. As indicated by labeling of cells with 125I, the concentrations of several host-encoded plasma membrane components are also influenced by cell anchorage. We propose that this switch in cell surfaces and in secretions dependent upon cell-substratum attachments may be a common control mechanism important for embryogenesis, wound healing, and cancer.
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PMID:Cell anchorage determines whether mammary tumor virus glycoproteins are processed for plasma membranes or secretion. 299 61

We analyzed the function and sequence of a dioxin-responsive genomic element flanking the 5' end of the cytochrome P1-450 gene in high-activity variant mouse hepatoma cells. The element can regulate the mouse mammary tumor virus promoter. The element retains responsiveness to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) when the distance, the 5' or 3' position, and/or the 5' or 3' orientation with respect to the promoter are varied. The function of the element requires TCDD-receptor complexes. The element remains responsive to TCDD when transfected into cells from either a heterologous mouse tissue or a heterologous species (human). The DNA element and TCDD receptors together constitute a dioxin-responsive enhancer system.
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PMID:Control of cytochrome P1-450 gene expression: analysis of a dioxin-responsive enhancer system. 301 Mar 18

The relationship of protein glycosylation to the externalization of glucocorticoid inducible alpha1-acid glycoprotein and mouse mammary tumor virus glycoproteins was examined in M1.54, a clonal population of mouse mammary tumor virus-infected rat hepatoma cells. Multiple freeze-thaw of isolated microsomes revealed that while alpha 1-acid glycoprotein is carried through the cell as a soluble component of vesicles, extracellular viral glycoproteins are initially membrane-associated. At concentrations of tunicamycin that specifically inhibited N-linked protein glycosylation, alpha 1-acid glycoprotein fractionated between the cellular and extracellular compartments. Thus, approximately one half of the newly synthesized, nonglycosylated (22,000 Mr) alpha 1-acid glycoprotein was rapidly secreted with kinetics similar to its glycosylated counterpart (release half-time of 60 min), while the remaining species first localized in an undefined intracellular compartment prior to its slow secretion (release half-time of 24 h). The same distribution of nonglycosylated alpha 1-acid glycoprotein was observed at various absolute levels of polypeptide, suggesting that this was not due simply to the saturation of an efficient secretory pathway at high polypeptide levels. In contrast to alpha 1-acid glycoprotein, no labeled viral antigens were released by tunicamycin-treated M1.54, while a nonglycosylated viral precursor glycopolyprotein was expressed intracellularly. Taken together, these results suggest that carbohydrate attachment strongly regulates the externalization of both alpha 1-acid glycoprotein and mouse mammary tumor virus species, which represent two distinct classes of extracellular glycoproteins.
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PMID:Protein glycosylation regulates the externalization of two distinct classes of glucocorticoid-induced glycoproteins in rat hepatoma cells. 302 23


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