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)

Vanadate and insulin stimulated gene 33 expression in rat H4 hepatoma cells. Vanadate (10(-3) M) maximally increased gene 33 transcription 4-fold at 15 min. The maximal insulin induction (3-4-fold) was observed using 5 x 10(-9) M insulin for 30 min. Both vanadate and insulin increased cytoplasmic mRNA levels in a dose-dependent manner, with maximal effects observed by 60 min. These effects on gene 33 mRNA accumulation were greater than those on transcription. Vanadate (10(-3) M) maximally stimulated gene 33 mRNA levels 10-12-fold. The vanadate and insulin effects were not synergistic. Thus, high concentrations of vanadate regulate gene 33 expression in an insulin-like manner and, like insulin, vanadate probably controls transcriptional as well as post-transcriptional events.
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PMID:Vanadate and insulin stimulate gene 33 expression. 147 65

Gene 33 is a multihormonally-regulated rat gene whose transcription is rapidly and markedly enhanced by insulin in liver and cultured hepatoma cells. To examine the mechanism by which insulin regulates transcription, we have constructed chimeric plasmids in which expression of the bacterial cat gene, encoding chloramphenicol acetyltransferase (CAT), is governed by gene 33 promoter elements and contiguous sequences in DNA flanking the transcription start point (tsp). When transfected into H4IIE hepatoma cells, these constructs gave rise to stably transformed cell lines producing the bacterial CAT enzyme. This expression was increased by insulin treatment in a fashion resembling the effect of this hormone on transcription of the native gene. In vitro transcription assays in nuclear extracts also revealed increased transcription of the chimeric plasmids when the extracts were prepared from insulin-treated rat hepatoma cells. The results demonstrate that induction by insulin is mediated by cis-acting nucleotide sequences located between bp -480 to +27 relative to the tsp.
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PMID:Insulin increases transcription of rat gene 33 through cis-acting elements in 5'-flanking DNA. 151 96

Twenty pancreata of non-diabetic patients and 17 pancreata of diabetic patients, including two patients with insulin-dependent diabetes mellitus, were immunohistochemically studied using antiserum against human islet amyloid polypeptide (IAPP). The islet beta cells in non-diabetic patients were immunoreactive for both IAPP and insulin. Amyloid deposition immunoreactive for IAPP was detected in six of 20 pancreata of non-diabetic patients. The plasma glucose level of three of these six patients was elevated to more than 200 mg/dl, and that of the other three ranged from 143 to 162 mg/dl; all six were receiving intravenous hyper-alimentation and had no history of diabetes prior to treatment. Amyloid deposition was present in all patients with non-insulin-dependent diabetes mellitus (NIDDM). The deposition was absent in the pancreata of two secondary diabetic patients, one of whom had received steroid hormone for bronchial asthma and the other of whom had liver cirrhosis with hepatocellular carcinoma; deposition was also absent in the pancreas of a patient with impaired glucose tolerance diagnosed on a 75-g oral glucose load. Heterogeneous expression of immunoreactivities of beta cells for insulin and for IAPP was present, suggesting independently regulated production and secretion of the peptides. Immunoreactivity of beta cells was more sensitively decreased for IAPP than for insulin in the islets of NIDDM patients. The decreased immunoreactivity for IAPP suggested an initial stage of disturbed beta-cell function, even if the immunoreactivity for insulin was apparently intact or the amyloid deposition in the islets was insignificant. The degree of amyloid deposition immunoreactivity for IAPP did not necessarily reflect the severity of diabetes mellitus. Amyloid deposits were seen at the narrow spaces beneath the insular capsule of connective tissues and the perivascular region or, in some cases, occupying the whole of the islet. The diabetogenic role of IAPP is unclear, but the deposition might be an accelerating factor which disturbs beta-cell function.
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PMID:Islet amyloid polypeptide (IAPP) and pancreatic islet amyloid deposition in diabetic and non-diabetic patients. 154 Dec 32

One of insulin's actions is the induction of DNA synthesis and cell division, but little is known about the molecular mechanisms involved. Previous studies indicate that insulin stimulates cell division and regulates the expression of several genes in rat H4IIE (H4) hepatoma cells. One of these genes is the proto-oncogene c-fos, a cellular gene whose deregulation has been implicated in the process of cellular differentiation and division. We have shown that insulin induces transcription of the c-fos gene in H4 cells. In the present study, the phorbol ester, phorbol 12-myristate 13-acetate (PMA), stimulated c-fos transcription in a rapid and dose-dependent manner with an 800% increase in transcription following 15-30 min of addition. This increase in c-fos transcription was transitory, returning towards baseline transcription rates within 120 min. PMA stimulated the translocation of protein kinase C (PKC) from the cytoplasm to the membrane in H4 hepatoma cells, as evidenced by a 77% decrease in cytosolic PKC and a 29% increase in membrane PKC activity following 10 min of treatment. Insulin addition to H4 cells for 10 min also resulted in a 31% decrease in cytosolic PKC activity, suggesting a translocation response. When H4 cells were pretreated with PMA for 24 h, there was a decrease of 20-45% in both cytosolic and membrane PKC activity and a complete loss of PMA's induction of c-fos transcription. Thus, the cells were functionally desensitized to further PMA addition. When cells were pretreated with PMA for 24 h, the insulin-induced increase in transcription of c-fos was reduced by 50%. Western blot analysis indicated that the PKC-beta isozyme followed a translocation pattern almost identical with that of total PKC activity. These results suggest that a PMA-sensitive form of PKC is preferentially lost upon PMA pretreatment and that this PKC subtype may be necessary for insulin to fully induce c-fos gene expression.
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PMID:Role of protein kinase C in insulin's regulation of c-fos transcription. 157 56

In recent studies we have identified PC2 and PC3, members of a family of serine proteases that are related structurally to subtilisin, and have provided evidence that these are involved in the tissue-specific processing of prohormones and neuropeptides. PC2 is expressed at high levels in the islets of Langerhans, where it participates in the processing of proinsulin to insulin (S.P.S. and D.F.S., unpublished data). To evaluate the regulated expression of the human PC2 (hPC2) gene we have analyzed its structure and characterized its promoter. A map of the gene was constructed by using 11 clones isolated from two human genomic DNA libraries. The gene spans greater than 130 kilobase pairs and consists of 12 exons. Comparison with the structure of the gene encoding human furin, another member of this superfamily, revealed a high degree of conservation of exon-intron junctions. The hPC2 gene was localized to chromosome 20, band p11.2. The 5' flanking region of the hPC2 gene is very G+C-rich and contains six potential Sp1 binding sites but no TATA or CAAT box. Expression of chloramphenicol acetyltransferase reporter fusions containing the putative promoter region was observed to occur in beta TC-3 mouse insulinoma cells but not in HepG2 human hepatoma cells, consistent with the known tissue-specific pattern of expression of the hPC2 gene. Analysis of the level of chloramphenicol acetyltransferase activity with several deletion mutants identified the region from -1100 to -539 from the translation start site as essential for hPC2 promoter activity.
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PMID:Identification and analysis of the gene encoding human PC2, a prohormone convertase expressed in neuroendocrine tissues. 159 2

Rat hepatoma (FAO) cells were stably transfected with the gene encoding either rat proinsulin II (using the DOL retroviral vector) or human proinsulin (using the RSV retroviral vector). Using the DOL vector, production of insulin immunoreactive material was stimulated up to 30-fold by dexamethasone (5 x 10(-7) M). For both proinsulins, fractional release of immunoreactive material relative to cellular content was high, in keeping with the absence of any storage compartment for secretory proteins in these cells. Pulse-chase experiments showed kinetics of release of newly synthesized products in keeping with release via the constitutive pathway. High performance liquid chromatography analysis showed immunoreactivity in the medium distributed between three peaks. For rat proinsulin II, the first coeluted with intact proinsulin; the second coeluted with des-64,65 split proinsulin (the product of endoproteolytic attack between the insulin A-chain and C-peptide followed by trimming of C-terminal basic residues by carboxypeptidase); the third (and minor peak) coeluted with native (fully processed) insulin. For human proinsulin, by contrast, the second peak coeluted with des-31,32 split proinsulin (split and trimmed at the B-chain/C-peptide junction). Analysis of cellular extracts showed intact proinsulin as the major product. The generation of the putative conversion intermediates and insulin was not due to proteolysis of proinsulin after its release but rather to an intracellular event. The data suggest that proinsulin, normally processed in secretory granules and released via the regulated pathway, may also be processed, albeit less efficiently, by the constitutive pathway conversion machinery. The comparison of the sites preferentially cleaved in rat II or human proinsulin suggests cleavage by endoprotease(s) with a preference for R/KXR/KR as substrate.
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PMID:Processing of proinsulin by transfected hepatoma (FAO) cells. 163 10

Insulin stimulates transcription and cytoplasmic accumulation of a specific mRNA (termed p33), while inhibiting transcription and accumulation of phosphoenolpyruvate carboxykinase (PEPCK) mRNA in rat H4IIE (H4) hepatoma cells. The present work examines the role of protein synthesis in regulation of these genes by insulin and dexamethasone. Like insulin, cycloheximide and anisomycin, two protein synthesis inhibitors, induced p33 transcription and reduced PEPCK transcription. The combination of either protein synthesis inhibitor and insulin did not induce p33 transcription or inhibit PEPCK transcription beyond that observed with either protein synthesis inhibitor alone. Dexamethasone induced both p33 and PEPCK transcription. The combination of insulin and dexamethasone, or protein synthesis inhibitors and dexamethasone, abolished dexamethasone-induced PEPCK transcription. Thus, protein synthesis inhibitors regulate transcription of the p33 and the PEPCK genes in an insulin-like manner.
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PMID:Protein synthesis and insulin regulation of p33 and PEPCK gene expression. 163 18

The pleiotropic nature of insulin action suggests diverse mechanisms of signal transduction for the hormone. The specific protein phosphatase inhibitor, okadaic acid, is utilized to differentiate metabolic pathways that may be regulated by phosphorylation or dephosphorylation of key enzymes. In H-35 hepatoma cells, okadaic acid inhibits insulin-stimulated glycogen synthesis with an IC50 of 400 nM. In contrast, activation of lipogenesis by insulin is inhibited with an IC50 of 50 nM okadaic acid. The toxin also inhibits stimulation of lipogenesis in these cells by the insulin-sensitive inositol glycan enzyme modulator. In isolated rat adipocytes, insulin-stimulated lipogenesis is also inhibited by okadaic acid with an IC50 of approximately 1,700 nM. The antilipolytic effect of insulin in these cells is more sensitive to okadaic acid, exhibiting an IC50 of 150 nM. Maximal activation of lipogenesis by insulin is dramatically reduced by okadaic acid with no effect on the concentration required for half-maximal activation, whereas the sensitivity of insulin-induced antilipolysis is attenuated by okadaic acid, with no apparent reduction in the maximal effect of the hormone. Taken together, these data suggest that specific phosphatases may be differentially involved in some of the metabolic pathways regulated by insulin.
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PMID:The specific protein phosphatase inhibitor okadaic acid differentially modulates insulin action. 164 9

We have previously demonstrated that BDS.1 cells are a minimal deviation rat hepatoma cell line that is hypersensitive to the anti-proliferative effects of glucocorticoids in vitro. When transplanted into athymic mice, exposure to dexamethasone reduced the initial growth rate and increased the latency time before detection of palpable BDS.1-derived tumors but did not affect the maximal growth rate, size and histology of the tumor. After collagenase dissociation, the in vitro growth of BDS.1-derived tumor cells was fully suppressed by dexamethasone. Exposure to insulin prevented the glucocorticoid inhibition of anchorage-independent growth of BDS.1 cell colonies in vitro and may therefore be one of the systemic factors that masks the long term in vivo growth response of glucocorticoids.
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PMID:In vivo effects of dexamethasone on the tumor growth of glucocorticoid-sensitive Fu5-derived rat hepatoma cells. 164 93

Hepatic glucose production is stimulated in vitro twice as effectively by pulsatile as by continuous glucagon, given equivalent time-averaged doses. Efficacy studies of pulsatile insulin have yielded conflicting results. In the rat hepatoma cell line H-4-II-E-C3, insulin rapidly (t1/2 15 min) inhibits transcription of the gene and lowers mRNA levels for the gluconeogenic enzyme. PEPCK via a receptor-mediated process. We attached H-4-II-E-C3 cells to Cytodex-3 microcarriers and used a perifusion column system to test whether pulsatile insulin is more or less effective than equivalent time-averaged doses of continuous insulin. PEPCK transcription was induced by inclusion of cAMP analogue 8-(4-chlorophenyl-thio)-cAMP (0.1 mM) and dexamethasone (0.5 microM) in the perifusion medium. Three columns were exposed either to continuous, pulsatile, or no insulin. After 3 h, total nucleic acid was extracted, and mRNA(PEPCK) was measured with a sensitive-solution hybridization assay. Continuous insulin inhibited PEPCK expression in a dose-dependent fashion with EC50 1 x 10(-11) M. Equivalent time-averaged amounts of insulin delivered as pulses achieved significant inhibition but less effectively than continuous insulin. The apparent EC50 for pulsatile insulin increased from 2 x 10(-11) M to 5 x 10(-11) M as the oscillatory period was raised from 5 to 20 min, respectively. These observations suggest that insulin-mediated inhibition of PEPCK gene transcription is diminished by a pulsatile mode of administration in marked contrast to the pulse enhancement demonstrated for glucagon-mediated hepatic glucose production.
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PMID:Insulin pulses less effective than continuous insulin in inhibiting PEPCK mRNA levels stimulated by cAMP and dexamethasone in perifused hepatoma cells. 165 Mar 13

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