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)

Data presented indicate that in hepatocytes insulin and glucagon promote growth by acting in a relatively early part of the prereplicative period (G0 or early G1) whereas cells (if pretreated with insulin) become more sensitive to EGF at the later stages, ie, nearer the S phase entry. The data indicate that at least two effects of glucagon (cAMP) on hepatocyte proliferation exist; in addition to a growth-promoting modulation early in the prereplicative period, there is also an inhibitory effect of glucagon (as well as other cAMP-elevating agents) that is exerted at a point shortly before the G1-to-S transition. Because both effects occur dose-dependently in the normal range of glucagon concentrations in portal blood, it is conceivable that glucagon/cAMP is involved both when liver growth is initiated and terminated.
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PMID:Growth-regulatory effects of glucagon, insulin, and epidermal growth factor in cultured hepatocytes. Temporal aspects and evidence for bidirectional control by cyclic AMP. 130 51

Fetal hepatocytes cultured for 64 h in the presence of glucagon and dexamethasone maintain a quiescent state, showing a low expression of glucose-6-phosphate dehydrogenase (G6PD) and a high induction of phosphoenolpyruvate carboxykinase (PEPCK). Under these culture conditions, the presence of EGF produced hepatocyte proliferation, with a concomitant increase of DNA synthesis, DNA content, and G6PD expression, meanwhile the expression of PEPCK was drastically reduced. The presence of forskolin plus IBMX nearly suppressed the increase in DNA synthesis and G6PD expression induced by EGF, showing a very high expression of PEPCK. Accordingly, it is possible to establish an inverse relation between G6PD, highly expressed in proliferating fetal hepatocytes, and PEPCK expression, highly expressed in quiescent fetal hepatocytes under specific hormonal stimulation.
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PMID:Phosphoenolpyruvate carboxykinase and glucose-6-phosphate dehydrogenase expression in fetal hepatocyte primary cultures under proliferative conditions. 131 82

Human hepatic stimulator substance (HSS), an organ-specific and heat-stable factor which differs from insulin, glucagon and EGF, has been partially purified from aborted human fetal livers. It was found to stimulate DNA synthesis of human hepatocytes. AH22 hepatoma cells responded dose-dependently. HSS was also found to enhance the survival of D-GAL intoxicated rats as compared to control (62.5% vs. 26.1%). Our results suggest that human HSS is very similar to that in animals.
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PMID:Effects of human HSS on hepatocyte and hepatoma cell proliferation and D-GAL induced acute liver failure. 133 57

Sustained production of plasma proteins, notably albumin, is a reliable indicator of the differentiated state of hepatocytes. In this work, we have developed a fetal hepatocyte culture system where studying the regulation of albumin expression in proliferating liver cells. Our results show that under proliferative conditions (i.e., in the presence of EGF) fetal hepatocytes maintain albumin production above control quiescent non-treated cells. Glucagon and noradrenaline have no effect on the proliferation induced by EGF in cultured fetal hepatocytes; however, they act synergistically with the growth factor, increasing intracellular albumin levels. The maximum response is obtained by treatment of cells with EGF and noradrenaline. The stimulatory noradrenergic effect is mimicked by agents that increase cyclic AMP levels (forskolin plus IBMX). However, vasopressin or phorbol esters have no effect on albumin production, neither alone nor in combination with EGF. Dexamethasone, which does not alter the proliferative induction of EGF, increases albumin content. This effect is independent of the proliferative status of the cells and is not enhanced by glucagon, noradrenaline, or cyclic AMP increasing agents. The hormonal changes observed in albumin production partially correlate with changes in mRNA levels. This is the first time that cyclic AMP increasing agents are shown to act synergistically with EGF, increasing the expression of this liver specific gene.
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PMID:Regulation of albumin expression in fetal rat hepatocytes cultured under proliferative conditions: role of epidermal growth factor and hormones. 137

It was found that EGF decreased both the basal- and the glucagon-stimulated gluconeogenesis from lactate alone or from a high lactate/pyruvate ratio and that it enhanced both the basal- and the glucagon-inhibited glucose synthesis from pyruvate alone or from a low lactate/pyruvate ratio. These findings demonstrate that the effect of both EGF and glucagon on glucose production by isolated hepatocytes depends on the red-ox state of the substrate.
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PMID:Effect of epidermal growth factor (EGF) on gluconeogenesis in isolated rat hepatocytes. Dependency on the red-ox state of the substrate. 199 79

The hormonal regulation of GH receptors was studied by measuring specific binding of [125I]human GH to primary cultured rat hepatocytes. The binding of labeled GH to primary cultured hepatocytes decreased during culture, but addition of dexamethasone (100 nM) compensated for this decrease and even increased GH binding. After addition of dexamethasone, the binding increased to a maximum after 10 h, and after 24 h was about 6 times that of control cells. Glucagon (100 nM) did not have any significant effect on GH binding by itself, but enhanced the increased binding caused by dexamethasone about 1.5-fold. For this effect, glucagon could be replaced by (Bu)2cAMP. Insulin (10 nM) and epidermal growth factor (20 ng/ml) reduced the increase by dexamethasone plus glucagon by about half. Scatchard plot analysis showed that the changes of GH binding induced by various hormones were due to changes in the number of binding sites without significant changes in their affinity. The GH bound to dexamethasone or dexamethasone plus glucagon-treated cells was not replaced by unlabeled ovine PRL. This strongly suggests that the number of somatogenic (GH) receptors may be subject to hormonal regulation: dexamethasone alone or with glucagon may induce GH receptors, whereas insulin and EGF may suppress the induction of GH receptors. These patterns of hormonal regulations were almost the same as those of proteins whose expressions were known to be differentiated functions of liver. On the other hand, the increase of GH binding by dexamethasone was inhibited by cycloheximide and actinomycin D, though the GH binding was inhibited by cycloheximide, but not by actinomycin D in the cells cultured without dexamethasone. This result suggests that the increased binding induced by dexamethasone is dependent on the synthesis of new protein and is probably regulated at a pretranslational level.
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PMID:Hormonal regulation of growth hormone receptors in primary cultured rat hepatocytes. 216 18

Liver cells of new-born rats, which were found to be able to form spheroidal aggregates when cultured on a nonadherent plastic substratum, were studied under various conditions of culture, mainly by adding different nutrients and growth factors to the culture medium. Analysis of hepatocyte-specific functions was carried out by immunoprecipitation to detect specific proteins newly secreted by liver cell spheroids on different days of culture. When no supplement was added to culture medium, the secretion of albumin and transferrin by liver cell spheroids was no longer detectable after 2 weeks of culture. When dexamethasone, glucagon, insulin, and EGF were added to culture medium, the secretion of albumin and transferrin remained detectable at least until 60 days of culture. This was even more striking when trace elements were added in addition to the three hormones and EGF. The effects of addition of these various factors to culture medium were also detectable with respect to alpha-FP secretion. Even after 54 days of culture in total supplemented medium, these liver cell spheroids could be transferred on a collagen-coated plastic substratum to form a monolayer of uniform liver parenchyma-like cells. The presence of extracellular matrix-like material was observed on the surface of cell spheroids. This could be responsible for attachment and fusion between cell spheroids. Thus, liver cell spheroids cultured in total supplemented medium ensured cell attachment to a biological matrix and cell-cell contact, which is thought to help maintain cell differentiation. Liver cell spheroids offer the possibility of toxicological and pharmacological studies as well as cultures in biomatrix and coculture systems. In addition these liver cells can be used for experiments in liver cell transplantation.
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PMID:Long-term culture of rat liver cell spheroids in hormonally defined media. 218 40

To assess the metabolic characteristics of cirrhotic hepatocytes, a primary culture of hepatocytes was established using rat liver induced cirrhosis by CCl4 administration. Using this system, cell responsiveness to different metabolic and excretory stimuli was investigated and compared with a primary culture of normal healthy rat hepatocytes. Cirrhotic hepatocytes showed reduced protein synthesis in response to insulin and reduced urea synthesis in response to glucagon. However, DNA synthesis stimulated by insulin and EGF was significantly enhanced in cirrhotic hepatocytes. No significant difference was observed in the fluorescein diacetate excretion rate. Cirrhotic hepatocytes showed impairment of antipyrine metabolism and conjugation and excretion of unconjugated bilirubin. These results suggest indirectly that cirrhotic hepatocytes may be less functionally mature than normal healthy hepatocytes.
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PMID:[Studies on metabolic characteristics of cirrhotic rat hepatocytes using primary culture]. 221 64

Dexamethasone can promote the differentiation of different tissues in vivo while dimethylsulfoxide is a commonly used inducer of differentiation in various tumor cell types in culture. In the present study, the effects of dexamethasone and dimethylsulfoxide on growth and functional activities of cultured differentiating suckling rat hepatocytes stimulated with various combinations of EGF, insulin, and glucagon were evaluated. Hepatocytes stimulated with EGF and either insulin or glucagon entered S phase and mitosis after a lag period of 24 h. These hormonal factors thus provide simple combinations of hepatocyte-growth regulators. Dexamethasone in the presence of EGF and glucagon inhibited the initiation of DNA synthesis and mitosis, but it had no effect on EGF-insulin stimulated cultures. Such a differential effect of dexamethasone was observed at concentrations ranging from 4 nM to 200 microM. alpha-Fetoprotein, albumin, and tyrosine aminotransferase were used as typical markers of hepatocyte differentiation status. Irrespective of the combinations of growth-promoting factors used, dexamethasone inhibited alpha 1-fetoprotein production and maintained albumin production and tyrosine aminotransferase inducibility. In contrast, dimethylsulfoxide at 2% inhibited hepatocyte growth and supported the maintenance of the production of both alpha 1-fetoprotein and albumin, independent of the hormonal growth regulators used. On this basis, dexamethasone and dimethylsulfoxide act as distinct modulators of growth and maturation of cultured differentiating suckling rat hepatocytes.
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PMID:Dexamethasone and dimethylsulfoxide as distinct regulators of growth and differentiation of cultured suckling rat hepatocytes. 242 23

In the lens, free inositol is present at high concentrations. The lens transports inositol from the extracellular source but can also synthesize inositol from glucose via inositol-1-phosphate. The inositol containing phospholipid (phosphoinositides) constitutes only 10% of the total phospholipid in the membrane and was suggested to play some key role in the cellular differentiation. Recently, one of the phosphoinositides, PIP2, was located in the epithelial cells but not in fiber cells. Prostaglandin, which uses one of the phosphoinositide metabolites, diacylglycerol, as a precursor in its biosynthesis was also found in the lens. The evidence, although scanty, do provide some clues to the possibility that lens may contain a phosphoinositide cycle similar to retina and cornea. In this study we demonstrated that rabbit lens epithelial cells could incorporate 3H-inositol into the membrane and the label accumulated in all three phosphoinositides, PI, PIP and PIP2 with PI as the predominant form. Both PI Kinase and PIP Kinase were found in the lens epithelial homogenate which incorporated (gamma-32P) ATP into PI and PIP to form their respective product, PIP and PIP2. The membrane bound PI Synthase was also demonstrated by using a cell free system. The lens cells showed distinctive response to some agonists such as Ca2+, EGF, glucagon, serotonin but not the others such as insulin, FGF. It is therefore concluded that lens epithelium cells, like other cell types has a complete and functional phosphoinositide cycle.
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PMID:Evidence for the presence of phosphoinositide cycle and its involvement in cellular signal transduction in the rabbit lens. 253 49

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