UNIPROT:P01275 - FACTA Search

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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human transforming growth factor-alpha (TGF-alpha, MW 5547) initiates a mitogenic program in "quiescent" 11-to 13-day-old primary cultures of adult rat hepatocytes. Using validated growth reinitiation assays and chemically defined conditions (Koch and Leffert, 1979a) that simulate proto-oncogene expression in regenerating liver (Kruijer et al., 1986), we find that 5.4 nM TGF-alpha stimulates: (i) increases in rates of amiloride-sensitive 22Na+ uptake; (ii) a transient induction in steady-state mRNA levels of proto-oncogene c-jun; (iii) specific increases in hepatocyte nuclear [3H]dT labeling indices, augmented synergistically by insulin and glucagon; and (iv) increases in rates of S-phase entry. Comparative studies indicate that TGF-alpha is a more effective hepatocyte growth promoter than mouse epidermal growth factor. These observations, and published reports linking normal and cancerous liver as biosynthetic sources of TGF-alpha, suggest an autocrine or paracrine role for TGF-alpha in the control of hepatic growth, regeneration, and gene expression.
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PMID:Transforming growth factor-alpha stimulates proto-oncogene c-jun expression and a mitogenic program in primary cultures of adult rat hepatocytes. 250 70

Some studies have indicated that insulin was able to increase the level of free cytosolic calcium in adipocytes [e.g. 7]. The present study was designed to examine this phenomenon. Insulin did not increase free cytosolic calcium, however oxytocin, vasopressin, alpha-adrenergic agonists and ATP did increase free cytosolic calcium in adipocytes. Other agonists which also did not alter calcium were epidermal growth factor, angiotensin II, glucagon, and beta-adrenergic agonists. The effect of oxytocin at increasing free cytosolic calcium was inhibited by activation of protein kinase C with phorbol 12-myristate 13-acetate and by ADP ribosylation of a Gi like protein with islet activating protein. The hormones that did increase cytosolic free calcium did so by mobilizing internal calcium and by promoting calcium influx. Even though insulin did not increase free cytosolic calcium, it was able to attenuate the alpha-adrenergic mediated increase in cytosolic free calcium. The fact that certain hormones can increase the level of the second messenger calcium in adipocytes implies that it may be a key intracellular regulator of adipocyte function as it is in many other tissues.
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PMID:Effect of hormones on cytosolic free calcium in adipocytes. 251 19

When hepatocytes isolated from adult rats were cultured in the presence of 10 mM nicotinamide, insulin- and epidermal growth factor-induced DNA synthesis and cell proliferation were found to be greatly stimulated, and the cells were able to be kept alive for more than one month. In the nicotinamide-treated hepatocytes, albumin and tryptophan 2,3-dioxygenase mRNAs were present at much higher levels than in the untreated control, and the inducibility of tryptophan oxygenase gene expression by dexamethasone and glucagon was also preserved. Without nicotinamide, primary cultured hepatocytes were viable for only 5-7 days and the hepatocyte-specific phenotypes were rapidly lost. The intracellular NAD level was maintained in the nicotinamide-treated hepatocytes at or above the level in intact liver but depleted in hepatocytes without nicotinamide. These results suggest that the maintenance of the intracellular NAD level is essential for the growth and functioning of hepatocytes and that nicotinamide can preserve the NAD level by blocking NAD degradation as well as by acting as a precursor for NAD synthesis.
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PMID:Nicotinamide prolongs survival of primary cultured hepatocytes without involving loss of hepatocyte-specific functions. 252 46

The active principle of a cytosol extract from weanling rat liver representing a putative liver-specific growth factor was partially purified and characterized. "Hepatic stimulator substance" was extracted from the livers of 40- to 60-gm male rats by heat treatment of a homogenate in 35% (w/v) phosphate-buffered saline and subsequent ultracentrifugation. This "heat supernatant" and fractions derived from the subsequent purification steps were tested for growth stimulatory activity in two rat hepatoma cell lines. The undifferentiated, fibroblastoid-like HTC hepatoma cells did not respond to crude hepatic stimulator substance or any of the partially purified preparations. In contrast, MH1C1 cells, which display some differentiated hepatic functions and epithelial morphology, reacted to hepatic stimulator substance and the purified fractions with a dose-dependent increase of their growth rate in serum-free culture. Although insulin, glucagon and epidermal growth factor showed only a minor effect on MH1C1 cell growth on their own, they were active as permissive or potentiating factors for the expression of the maximal effect of hepatic stimulator substance. Similarly, normal adult rat hepatocytes were only sensitive to hepatic stimulator substance when cultured in the simultaneous presence of epidermal growth factor. Under such conditions, hepatic stimulator substance stimulated hepatocyte entry into the S-phase of the cell cycle 3-fold compared to epidermal growth factor alone. Hepatic stimulator substance did not affect growth of human skin fibroblasts and of the rat intestinal crypt cell line IEC-6.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Partial purification of rat hepatic stimulator substance and characterization of its action on hepatoma cells and normal hepatocytes. 264 45

Exposure of the fetal rat hepatocyte to ethanol in vitro blocks epidermal growth factor (EGF)-dependent cell replication. To define possible mechanisms for this growth arrest, we determined the effects of ethanol on EGF binding and EGF receptor (EGF-R) levels. During a 24-h exposure to ethanol (1.7 mg/ml, 31 mM), cell replication was completely blocked while EGF binding per cell doubled. This effect was no specific for EGF, with variable degrees of increased binding noted for insulin, transferrin, and glucagon. Significantly increased EGF binding was seen after 6 h of ethanol exposure, and both growth arrest and enhanced EGF binding were reversed within 12 h of ethanol withdrawal. Increases in both "high" and "low" affinity sites were seen, with no changes in the apparent Kd's. Total RNA, beta-actin mRNA, and EGF-R mRNA were increased 50-70% in ethanol exposed cells. However, direct measurements of EGF-R synthesis rates by [35S]methionine incorporation revealed no differences between control and ethanol exposed cells. Internalization of EGF-R was significantly altered by ethanol exposure. A 2-h incubation resulted in the internalization of 57% of the ligand in control cells, while only 31% of bound EGF was internalized in the ethanol exposed cells. Thus, the enhanced EGF binding may be due to decreased efficiency of internalization.
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PMID:Arrest of epidermal growth factor-dependent growth in fetal hepatocytes after ethanol exposure. 267 50

We report further characterisation of the hepatocyte growth factor 'hepatotropin' which is found in rat serum 24 h after partial hepatectomy. Hepatotropin enhances DNA synthesis in primary cultures of adult rat hepatocytes, and is of high molecular weight. Serum fractions were separated by gel filtration, heparin-sepharose affinity chromatography and ion-exchange chromatography. Sodium dodecylsulphate-polyacrylamide gel electrophoresis (SDS-PAGE) identified a band of apparent subunit relative molecular weight (Mr) 100,000 associated with biological activity, although purification to homogeneity has not been achieved. The activity is heat-labile, trypsin-sensitive, and stable to lyophilisation, but loses activity after dilution and reconcentration. In combination with known peptide hepatocyte growth modulators, hepatotropin acted synergistically with insulin and epidermal growth factor (EGF) but its action was not enhanced by glucagon. Studies on isolated rat hepatocyte membranes showed no evidence of enhanced phosphorylation of the EGF receptor by hepatotropin. The relationship of hepatotropin to previously described serum and platelet-derived growth factors is discussed.
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PMID:Further characterisation of 'hepatotropin', a high molecular weight hepatotrophic factor in rat serum. 268 95

Using isolated rat hepatocytes, we studied the effect of epidermal growth factor (urogastrone) (EGF-URO) on the incorporation of [3-14C]pyruvate into glucose and glycogen, on the incorporation of [U-14C]glucose into glycogen, and on the oxidation of [U-14C]glucose to 14CO2. The effects of EGF-URO were compared with those of glucagon and insulin. EGF-URO, with an EC50 of 0.2 nM, enhanced by 34% (maximal stimulation) the conversion of [3-14C]pyruvate into glucose; no effect was observed on the oxidation of glucose to CO2 and on the incorporation of either pyruvate or glucose into glycogen. The effect of EGF-URO on pyruvate conversion to glucose was observed only when hepatocytes were preincubated with EGF-URO for 40 min prior to the addition of substrate. Glucagon (10 nM) increased the incorporation of [3-14C]pyruvate into glucose (44% above control); however, unlike EGF-URO, glucagon stimulated gluconeogenesis better without than with a preincubation period. Neither insulin nor EGF-URO (both 10 nM) affected the incorporation of [U-14C]glucose into glycogen during a 20-min incubation period. However, at longer time periods of incubation with the substrate (60 instead 20 min), insulin (but not EGF-URO) increased the incorporation of [14C]glucose into glycogen; EGF-URO counteracted this stimulatory effect of insulin. In contrast with previous data, our work indicates that EGF-URO can, under certain conditions, counteract the effects of insulin and, like glucagon, promote gluconeogenesis in isolated rat hepatocytes.
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PMID:Effects of epidermal growth factor (urogastrone) on gluconeogenesis, glucose oxidation, and glycogen synthesis in isolated rat hepatocytes. 268 20

A model system using a transformed dog kidney cell line (Madin-Darby canine kidney), has been established for studying the process of differentiation. Glucagon responsiveness can be restored to these transformed cells by various differentiation inducers, including prostaglandin E2. Glucagon response was measured in terms of the ability of glucagon to stimulate cAMP production. Induction of glucagon sensitivity seems to be mediated by cAMP. The ability of various prostaglandin analogs to elevate the cAMP level correlates closely with their ability to induce glucagon sensitivity. In fact, 8-Br-cAMP is also a potent inducer. To define the nature of this cAMP-mediated process, we identified several inhibitors of this induction process. These differentiation inhibitors include serum, phorbol ester, and epidermal growth factor. These inhibitors do not have a direct effect on cAMP production by cells in the presence or absence of hormones. Furthermore, induction by 8-Br-cAMP is also inhibited by these agents. Therefore, the site of inhibition is located beyond the point of cAMP production. Possible interaction between cAMP- and epidermal growth factor-dependent phosphorylations is discussed.
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PMID:Induction of glucagon sensitivity in a transformed kidney cell line by prostaglandin E2 and its inhibition by epidermal growth factor. 283 Apr 89

Exposure of rats to phenobarbital (PB), a tumor promoter in the two-stage hepatocarcinogenesis model, in their diet (0.06%) induces alterations in insulin receptors in the hepatocytes. There is a decrease both in the number of receptors and the dissociation constant (Kd) when compared with animals fed control laboratory diet. The number of insulin receptors/cell and the Kd were respectively: 183,000 +/- 19,000 and 15.3 +/- 2.5 nM for controls; 47,000 +/- 5000 and 2.8 +/- 0.3 nM for PB. The glycogen synthesis in response to insulin was found to be unresponsive in the hepatocytes from rats exposed to PB. Glucagon receptors on hepatocytes, however, were unaltered in animals treated with PB or fed a choline-deficient (CD) diet and the glucagon-stimulated glycogenolytic responses were also comparable to the controls. There is, therefore, a selective alteration in the hepatocyte surface membrane receptors. Both PB and CD have been shown to reduce the hepatic cell membrane receptors for epidermal growth factor, indicating that the two different tumor promoters alter peptide receptors with endogenous protein kinase activities. This similar though selective effect of the tumor promoters on cell surface receptors may be of significance in their action in carcinogenesis by having an effect on the alteration of regulation of cell growth and metabolism.
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PMID:Alterations induced by phenobarbital, a liver tumor promoter, in hepatocyte receptors for insulin and glucagon and glycogen metabolism. 283 98

The influence of exogenous endotoxin pretreatment on liver regeneration after partial hepatectomy was evaluated. Partial hepatectomy was performed by 67% liver resection of ether-anesthetized rats with midline laparotomy and liver manipulation as the sham control. Animals were pretreated with endotoxin at a dose of 33 micrograms/100 g sc or iv 24 h before surgery and then fasted. Liver regeneration was quantified after partial hepatectomy by [3H]thymidine incorporation into hepatic DNA, and plasma levels of hepatotrophic factors were measured by radioimmunoassay or radioreceptor assay. Systemic endotoxemia occurred after exogenous endotoxin administration as well as after partial hepatectomy due to absorption of exogenous endotoxin from the gut into the portal circulation as determined by quantitative chromogenic lysate assay of perchloric acid-extracted plasma samples. Alterations in putative hepatotrophic factors, including insulin, glucagon, epidermal growth factor, vasopressin, and triiodothyronine, were remarkable similar in response to endotoxemia by exogenous endotoxin administration and by endogenous endotoxin absorption from the gut after partial hepatectomy. Our hypothesis purports that gut-derived systemic endotoxemia elicits hepatotrophic factor secretion for liver regeneration after partial hepatectomy and that endotoxin pretreatment expedites the hepatotrophic factor response, thus accelerating DNA synthesis in the proliferating liver after 67% resection.
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PMID:Gut-derived endotoxin elicits hepatotrophic factor secretion for liver regeneration. 286 2

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