Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01275 (glucagon)
 26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In freshly isolated parenchymal hepatocytes of adult rats, the beta-adrenergic agonist isoproterenol (Ip) did not stimulate cAMP formation, protein kinase activity, or glycogenolysis, although glucagon markedly stimulated all these activities. However, the beta-adrenergic response appeared when rat hepatocytes were cultured as monolayers. This response had already appeared after 2-h culture and increased during further culture. The appearance of the beta-adrenergic response during culture was blocked by cycloheximide, actinomycin D, or alpha-amanitin. Thus adult rat hepatocytes acquired marked ability to respond to Ip during culture through the syntheses of mRNA and protein. Freshly isolated hepatocytes from postnatal rats showed a high beta-adrenergic response that did not increase further during culture. This response gradually decreased during development and had almost disappeared about 60 days after birth. In plasma membranes prepared from freshly isolated cells of adult rats the basal and NaF-stimulated activities of adenylate cyclase (EC 4.6.1.1) were similar to those of cultured cells and the enzyme activity was also stimulated by guanyl-5'-yl imidodiphosphate. However, in plasma membranes of freshly isolated cells Ip scarcely stimulated adenylate cyclase, but glucagon did. The intact cells, whether they were freshly isolated or cultured, accumulated cAMP when exposed to cholera toxin. Moreover, the two subunits of GTP-binding regulatory protein (also named G/F or Ns site) were detected by [32P]ADP ribosylation with cholera toxin and [32P]NAD+ in freshly isolated cells as well as in cultured cells. These results indicate that freshly isolated and cultured hepatocytes of adult rats contain sufficient levels of all the components of the postreceptor-adenylate cyclase system for activity. However, the number of beta-adrenergic receptors measured by binding of [125I]iodocyanopindolol, a potent beta-adrenergic antagonist, was very low in purified plasma membranes of freshly isolated cells (20 fmol/mg of protein), and the number increased about 6-fold without change in the dissociation constant (Kd = 132 pM) when the cells were cultured for 7 h. This increase in beta-adrenergic receptor sites was completely abolished by cycloheximide and alpha-amanitin. Thus it is concluded that the unresponsiveness of adult rat hepatocytes to Ip was due to a very low amount of beta-adrenergic receptor and that the appearance of a beta-adrenergic response during primary culture was due to new synthesis of beta-adrenergic receptor through synthesis of mRNA.
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PMID:Acquisition of a beta-adrenergic response by adult rat hepatocytes during primary culture. 630

The intraperitoneal injection of glucagon or the intravenous infusion of oleic acid provoked a rapid change in the properties of rat liver mitochondrial ATPase. When mitochondria of treated animals were isolated an increase in ATPase activity was observed as well as a modification on the response to activators and inhibitors and to the sulfhydryl reagent N-ethylmaleimide. Sensitivity to the activators dinitrophenol or bicarbonate decreased, whereas the sensitivity to inhibitors KOCN and KSCN increased, and an inhibitory effect of N-ethylmaleimide appeared. These effects gradually disappeared when mitochondrial suspensions were kept at 10 degrees C, and after approximately 5 h ATPase from mitochondria of treated and control animals behaved almost identically. If the oxidizing agent dichlorophenolindophenol was added to the isolated mitochondria the effects induced by glucagon or fatty acids immediately disappeared. The activation caused by the reducing agent dithionite on ATPase activity in mitochondria from control animals did not take place in fresh mitochondria from treated animals; however, dithionite was effective in these latter mitochondria when tested 5 h later after keeping them at 10 degrees C. The intravenous infusion of oleic acid produced a rise in the [NADH]/[NAD+] and [Total flavin]/[FAD] ratios in mitochondria, and values double as those in the controls were observed; these values gradually approached those of the control mitochondria when kept at 10 degrees C; after 24 h these ratios were the same in mitochondrial suspensions from treated and nontreated animals. These results suggest that the modification of the properties of mitochondrial ATPase induced by glucagon or fatty acids might be mediated by a change in the mitochondrial redox state.
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PMID:Effect of injected glucagon or fatty acids on mitochondrial ATPase. 632 87

It was the aim of the present study to determine in rat parietal cells whether Gs alpha, the stimulatory subunit of adenylate cyclase, mediates adenosine 3',5'-cyclic monophosphate (cAMP)-dependent parietal cell function in response to histamine and glucagon-like peptide 1 (GLP-1)-(7-36) amide. Cytoplasmic membrane from enriched (83 +/- 5%) rat parietal cells were incubated for 30 min with 30 microCi/ml [32P]NAD+ and 40 micrograms/ml preactivated cholera toxin (CT), a pharmacological tool for activation of Gs alpha. Subsequent sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and autoradiography revealed [32P]ADP ribosylation of Gs alpha represented by three proteins with molecular masses ranging from 42 to 45 kDa. In intact parietal cells, CT (10(-12)-10(-8) M) caused marked stimulation of [14C]aminopyrine accumulation and cAMP production confirming the functional importance of Gs alpha in regulation of H+ production. Identical membrane preparations were preincubated (2 h, 4 degrees C) in parallel with and without RM/1, a rabbit polyclonal anti-Gs alpha-antibody. Subsequently, adenylate cyclase was stimulated by histamine, GLP-1-(7-36) amide, CT, or forskolin. At a 1:10 dilution, the antiserum completely abolished adenylate cyclase activity in response to maximal concentrations of histamine, GLP-1-(7-36) amide, and CT while reducing forskolin stimulation by only 22.0 +/- 4.9%. At 1:50, RM/1 reduced responses to histamine, GLP-1-(7-36) amide and CT by 20-30% but failed to inhibit forskolin-stimulated enzyme activity. At 1:100, the antiserum was ineffective versus all stimuli.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of rat parietal cell function by histamine and GLP-1-(7-36) amide is mediated by Gs alpha. 820 24

Stress mediators play a major role in inducing the hypermetabolic stress state in the liver after major injuries. The majority of studies on the effect of mediators on hepatocytes have focused on single factor effects or on the effect of very complex additives (e. g., serum), and there are no reports which have rigorously identified specific interactions between stress mediators. We used a factorial design experimental approach to evaluate the effects of a four to five day exposure to hormone (glucagon, hydrocortisone, and epinephrine) and cytokine [tumor necrosis factor-alpha (TNF-alpha) interleukin-1beta (IL-1beta) and interleukin-6 (IL-6)] stress mediators on stable cultures of rat hepatocytes. Both individual-factor effects and two factor interactions on the metabolism of urea, glucose, lactate, ketone bodies, albumin, and fibrinogen were evaluated. The cultured hepatocyte model exhibited physiologic responses to the applied stress mediators. While hydrocortisone and epinephrine had no effect, glucagon induced an increase in glucose and urea synthesis. Interleukin-6 increased fibrinogen and decreased albumin production. Furthermore, IL-6 and glucagon caused an increase in the ketone-body ratio (KBR = [acetoacetate]/[beta-hydroxybutyrate]), which is in equilibrium with the intramitochondrial NAD+/NADH. Tumor necrosis factor-alpha and IL-1beta, on the other hand, decreased the KBR. An important two-factor interaction between IL-1beta and IL-6 was identified, namely that IL-1beta effectively negates the positive effect of IL-6 on the KBR when both are present. These results provide further understanding of the effect of stress mediators on hepatic function and metabolism. These effects may have important implications in the pathogenesis of progressive organ dysfunction which often follows prolonged inflammatory states triggered by major injuries.
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PMID:Metabolic effects of stress mediators on cultured hepatocytes. 1019 93


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