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)

The capacity of suckling and adult rat hepatocytes in culture to enter into S phase and mitosis in response to EGF, insulin, and glucagon was measured. Both cell types were isolated in high yield and purity and cultured in the absence of serum under identical conditions. At the time of isolation, suckling rat hepatocytes were all diploid and in the G1 phase of the cell cycle. Adult rat hepatocytes constituted a population of mixed ploidy level, as shown by flow cytometry. Upon stimulation, both suckling and adult rate hepatocytes entered S phase after a minimum lag period of 24 h. For suckling rat hepatocytes EGF was required, but its stimulating action was dependent on insulin and/or glucagon. In contrast, adult rat hepatocytes entered into S phase in response to EGF alone; insulin and glucagon did not significantly potentiate its effect. Under optimal hormonal stimulation for entry into S phase a large proportion of suckling rat hepatocytes underwent mitosis, whereas only a few mitoses were observed in the case of adult rat hepatocytes. Therefore, there is a differential response of suckling and adult rat hepatocytes to growth factors which correlates with ploidy level, and this difference may be associated with the degree of maturation.
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PMID:Differential responsiveness of cultured suckling and adult rat hepatocytes to growth-promoting factors: entry into S phase and mitosis. 388 Jul 61

Numerous GI hormones and peptides, such as gastrin, CCK, secretin, glucagon, somatostatin and EGF, have been shown to stimulate at least part of the trophic response in GI tissues. Whether any of these (or a different one) accounts for gastrointestinal adaptation is unknown. Final proof will entail the demonstration that the endogenous serum levels of one of these increases during the adaptation period to amounts significant to cause the response.
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PMID:Effect of exogenous gut hormones on gastrointestinal mucosal growth. 612 85

Adult rat hepatocytes in primary culture were examined to determine if Na+-dependent transmembrane Ca2+ fluxes precede reinitiation of DNA synthesis. Studies with 45Ca2+ and atomic absorption measurements of 40Ca2+ showed that hepatocytes lack plasma membrane Na+-Ca2+ exchange activity. Under chemically defined conditions, combinations of mitogens - EGF, insulin, and glucagon - failed to induce transmembrane Ca2+ fluxes early in the prereplicative phase. In addition, a Ca2+ ionophore, A23187, was non-mitogenic. Thus, plasma membrane Na+-Ca2+ exchange is not a mitogenic signal for hepatocytes. Elevated intracellular Ca2+ levels are thought to mediate early prereplicative events required for animal cell proliferation. These conclusions stem partly from findings that A23187, a Ca2+ ionophore, stimulates transmembrane Ca2+ fluxes and proliferation in several cell systems (reviewed in Boynton et al., 1982). Sodium ion fluxes also are implicated as "initiating" mitogenic signals (Koch and Leffert, 1979). In particular, amiloride-sensitive Na+ influxes, stimulated by growth factors, may be necessary to initiate DNA synthesis in rat hepatocytes, mouse and human fibroblasts, rat liver derived cell lines, mouse sympathetic neurons, human lymphocytes, and monkey kidney epithelial cells (reviewed in Leffert, 1982). Several investigators, using cells from electrically excitable tissues (Schellenberg and Swanson, 1981; Eckert and Grosse, 1982), have reported that plasma membrane Na+-Ca2+ exchange carriers regulate intracellular Na+ and Ca2+ concentration. It is unclear if this exchange system exists in non-electrically excitable membranes, especially with regard to hepatocytes (Judah and Ahmed, 1964; van Rossum, 1970). We have here investigated the possible association of Na+ influxes with transmembrane Ca2+ movement following reinitiation of hepatocyte growth.
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PMID:Initiation of cultured rat hepatocyte proliferation does not involve Na+-dependent plasma membrane Ca2+ fluxes. 632 28

Kinetics of hepatocellular regeneration after 30% and 70% hepatectomy and the effect of hepatotrophic factors on the normal liver and regenerating livers after hepatectomy were investigated by flow-cytometric analysis using adult male rats. The results were as follows: The DNA histogram of hepatocytes in the normal group had two peaks in G0G1 and G2M components; G0G1 29% S 13%, G2M 58%. In the 30% hepatectomized group, the peak of G2M slightly increased, and remarkable change was not noticed during 4 weeks. In the 70% hepatectomized group, the percentage of hepatocytes in G0G1 and G2M were markedly changed during 2 days after hepatectomy. The peak of G0G1 moved to S after 24 hours, to G2M after 36 hours and returned to G0G1 after 48 hours. Afterwards the G0G1 gradually decreased while the G2M increased and they finally reached a single peak of G2M at the 7th day. Supernatant of the intestinal homogenate after hepatectomy and EGF initiated the cell kinetics in normal and regenerating rat livers. Changes on cell kinetics was not observed after insulin and glucagon administration.
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PMID:[Flow cytometric analysis of hepatocellular regeneration after partial hepatectomy and administration of hepatotrophic factors]. 638 36

Using rat liver hepatocytes, we studied the effect of the tyrosine kinase inhibitor genistein on the Ca2+/IP3 (inositol 1,4,5-trisphosphate) and the cAMP (adenosine 3:5-cyclic monophosphate) transduction mechanisms. Genistein specifically blocked the activation of glycogen phosphorylase after EGF (epidermal growth factor). Genistein on its own partially activated phosphorylase and inactivated glycogen synthase. Genistein did not influence levels of IP3, but increased those of cAMP. This was especially clear when genistein was given together with glucagon. The data suggest an effect of a tyrosine kinase on the synthesis/degradation of cAMP.
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PMID:Effect of genistein on both basal and glucagon-induced levels of cAMP in rat hepatocytes. 748 48

While many observations indicate that prostaglandins may act as positive regulators of hepatocyte proliferation, the underlying mechanisms are not known. We have examined some of the signal pathways in the growth response induced by prostaglandins in hepatocytes, with particular focus on adenylyl cyclase and phosphoinositide-specific phospholipase C. Adult rat hepatocytes were cultured as primary monolayers in serum-free medium in the presence of EGF and insulin. PGE2 or PGF2 alpha (added 0-3 h after plating) enhanced the incorporation of [3H]-thymidine into DNA (measured at 50 h); at 100 microM the stimulation was about threefold PGI2 and PGD2 also showed significant but smaller stimulatory effects. No significant increase in the level of cyclic AMP (cAMP) was detected in response to any of the prostaglandins. Low concentrations of glucagon (0.1-10 nM), a potent activator of hepatic adenylyl cyclase, or 8-bromo-cAMP (0.1-10 microM) enhanced the DNA synthesis. When 8-bromo-cAMP was used in maximally effective concentrations, no further stimulation was obtained by combining it with glucagon, whereas the effects of PGE2 and 8-bromo-cAMP were completely additive. All the prostaglandins also showed additivity with the effect of glucagon on the DNA synthesis. PGE2, PGF2 alpha, PGI2, and PGD2 increased intracellular inositol-1,4,5-trisphosphate (InsP3), with a relative order of efficacy roughly corresponding to their activity as stimulators of DNA synthesis. Increases in cytosolic free Ca2+, as measured in single cells, were elicited in a majority of the hepatocytes by all these prostaglandins at 1 microM. Supramaximal concentrations of vasopressin, a strong activator of phospholipase C in hepatocytes, acted additively with PGE2 on the DNA synthesis. Pretreatment of the hepatocytes with a concentration of pertussis toxin that prevented the inhibitory effect of PGE2 on glucagon-induced cAMP accumulation did not abolish the ability of PGE2 to stimulate the DNA synthesis. The results do not support a role for adenylyl cyclase activation in the stimulatory effect of prostaglandins on hepatocyte growth. While the data are compatible with an involvement of phosphoinositide-specific phospholipase C in the growth-promoting effect of prostaglandins in cultured rat hepatocytes, they suggest this may not be the sole mechanism.
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PMID:On the mechanisms of the growth-promoting effect of prostaglandins in hepatocytes: the relationship between stimulation of DNA synthesis and signaling mediated by adenylyl cyclase and phosphoinositide-specific phospholipase C. 765 56

Sixty-four kinds of cell lines were examined as to their ability to degrade glucagon using conditioned-media obtained from their protein-free cultures. Two human tumor cell lines were shown to produce this activity, and the cell line, HPC-YO, established from a human pancreatic carcinoma was shown to produce the highest level of activity. The glucagon-degrading enzyme (GDE) was purified from HPC-YO conditioned-medium by a combination of ion-exchange, gel filtration, and hydroxylapatite column chromatographies. The purified GDE also degraded vasoactive intestinal polypeptide (VIP) and secretin, however, it did not cleave EGF, gastrin, insulin, somatostatin, substance P, neurotensin, or growth hormone. The molecular weight of GDE is 83,000, as determined on SDS-polyacrylamide gel electrophoresis. The N-terminal amino acid sequence of GDE was blocked, and the five partial amino acid sequences obtained on lysyl-endopeptidase digestion were determined to be N-L-T-E-E-Y-D-V-S-D-G-E-I-E-L-L-Y-E-K, V-E-T-Y-Y-D-L-L-F-E-K, L-Y-W-F-L-D-E-A-K, S-N-S-T-S-Y-V-K, and Y-Y-A-S-T-S-Y-D-D-T-Y-K. The same or homologous amino acid sequences have not been found in known proteins, demonstrating that GDE is a novel peptidase that degrades the secretin family: glucagon, VIP, and secretin.
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PMID:A novel proteinase, glucagon-degrading enzyme, secreted by a human pancreatic cancer cell line, HPC-YO. 777 1

The objective of these studies was to develop serum-free culture conditions for dissociated acini from rat submandibular glands. Acini were isolated from the submandibular glands of 42-46 d old rats and cultured on reconstituted rat tail collagen containing laminin in 1:1 Ham's F12 and Dulbecco's media, supplemented with BSA, transferrin, insulin, T3, EGF, dexamethasone, retinoic acid, carbamylcholine, and trace elements, and gassed with 50% O2. The acini became partly embedded in the collagen gel and rapidly enlarged throughout the first 22 d of culture, maintaining modest seromucous acinar differentiation, as judged morphologically and by mucin secretion. Parallel cultures then were grown under 20, 35, 50, and 65% O2, and evaluated morphologically and by DNA content. Growth and retention of seromucous acinar characteristics were best with 35% O2, but lipid accumulation and cell death were unacceptably high. A spectrum of concentrations of insulin and glucagon then were tried. With 0.05 micrograms/ml insulin, cellular growth and organization were orderly, lipid accumulations were not excessive, and moderate differentiation was retained through 15 d of culture. With more than 0.1 microgram/ml insulin added to or subtracted from the optimum, the detrimental effects recurred. Addition of sufficient glucagon counteracted the effects of both optimum and excessive concentrations of insulin. We now have achieved an orderly growth of moderately differentiated rat submandibular acini for 15 d in serum-free primary culture.
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PMID:Effects of oxygen, insulin, and glucagon concentrations on rat submandibular acini in serum-free primary culture. 789 74

Serum albumin is the most abundant protein synthesized by liver cells, and its production is a reliable indicator of the differentiated state of hepatocytes. We have recently shown that fetal rat hepatocytes cultured under proliferative conditions, i.e., in the presence of EGF, responded to glucagon and noradrenaline increasing albumin protein and mRNA levels (de Juan et al., 1992. J. Cell. Physiol., 152:95-101). This effect was mimicked by agents that increase cyclic AMP levels. In this report, we show that in regenerating liver, noradrenaline modulation of albumin expression seems to be different. Hepatocytes from hepatectomized rats were cultured at low cell density and in the presence of EGF. Under these conditions, noradrenaline, which acted synergistically with EGF increasing DNA synthesis (de Juan et al., 1992. Exp. Cell. Res., 202:495-500), produced a decrease in albumin mRNA levels. This effect was dose-dependent, being maximum at 1 microM noradrenaline. Noradrenergic effect seemed to be mediated by alpha 1-receptors, because it was blocked by prazosin, but not by propranolol. Other Ca(2+)-increasing agents, as vasopressin, angiotensin II, or ATP, did not produce any effect. However, albumin mRNA levels decreased when the cells were incubated in the presence of tetradecanoyl phorbol-13-acetate (TPA). In addition, noradrenergic modulation of albumin expression was blocked by staurosporine, a protein kinase inhibitor with relative specificity for protein kinase C. Thus we can conclude that the role of noradrenaline on the regulation of liver growth and differentiation changes from fetal to adult life. This change is probably due to its action on different receptors: beta-receptors in fetal hepatocytes and alpha 1-receptors in the adult liver.
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PMID:Noradrenergic modulation of albumin expression in growth-stimulated adult rat hepatocytes in primary culture. 812 74

The culture of fetal hepatocytes at high cell density for 64 h in medium supplemented with 5 mM glucose produced an induction of glucose-6-phosphate dehydrogenase (G6PD) mRNA in a time-dependent manner. Insulin and triiodothyronine (T3), separately, increase G6PD mRNA expression, producing an additive effect at 64 h when combined. Glucagon and, to a greater extent, dibutyryl-cAMP decreased the G6PD mRNA expression observed in the presence of 5 mM glucose and T3. Dexamethasone repressed the G6PD mRNA expression induced by glucose and insulin and decreased this expression when induced by T3, regardless of the presence of insulin. At low cell density, EGF in the presence of dexamethasone induced in parallel DNA synthesis, G6PD mRNA content, and specific activity, while EGF failed to increase these parameters at high cell density. In addition, G6PD expression in proliferative fetal hepatocytes was unresponsive to lipogenic hormones.
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PMID:Glucose-6-phosphate dehydrogenase gene expression in fetal hepatocyte primary cultures under nonproliferative and proliferative conditions. 826 93

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