Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Studies were conducted to clarify the relationship between the external fatty acid concentration and glucagon in the regulation of hepatic fatty acid metabolism. Hepatocytes from fed rats were incubated with increasing concentrations of oleate (up to 1 mM) in the presence and absence of glucagon and the time sequence of changes in cellular malonyl-CoA levels, fatty acid synthesis, fatty acid oxidation, and ketogenesis were measured. At low concentrations of fatty acid the effect of glucagon was to abolish malonyl-CoA synthesis and lipogenesis and to produce a marked stimulation of fatty acid oxidation and ketogenesis. Similar effects were obtained with high concentrations of fatty acid in the absence of glucagon and, under these conditions, the additional presence of the hormone produced little further response. The results are consistent with the concept that the rate of fatty acid oxidation in liver is dictated largely by the relative concentrations of long-chain acyl-CoA (substrate for carnitine acyltransferase I) and malonyl-CoA (inhibitor of the transferase). They also indicate that the preemptive effect of fatty acids on glucagon-induced changes in fatty acid metabolism stems from their ability to reduce the tissue malonyl-CoA content, probably through long-chain acyl-CoA suppression of acetyl-CoA carboxylase.
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PMID:Effects of exogenous fatty acid concentration on glucagon-induced changes in hepatic fatty acid metabolism. 738 Jan 10

Oxidative decarboxylation is the first irreversible step in the degradation of leucine. The effect of streptozotocin diabetes on this reaction was studied in cell-free rat liver preparations, using [1-14C]alpha-ketoisocaproate as substrate. Diabetes increased the branched-chain ketoacid dehydrogenase (BCKD) activity (per g liver or per mg protein) of homogenates, but the ratios of homogenate BCKD activity to other mitochondrial markers remained unchanged. A cytosolic branched-chain ketoacid decarboxylase activity (15-22% of homogenate activity), which did not require NAD, CoA, or NADP, was also increased in diabetics. Insulin treatment of diabetics normalized enzyme activity in all fractions. The apparent Km of BCKD in homogenates was 43-45 microM; diabetes increased the apparent Vmax from 165 nmol x min-1 x g tissue-1 to 260 nmol x min-1 x g-1. In contrast, the Km for cytosolic alpha-ketoisocaproate decarboxylation was 270 microM in controls, and diabetes resulted in both a lower Km (210 microM) and a higher Vmax. Adrenalectomy did not affect activity in homogenates from controls, but partially reversed the diabetes-associated increase. Glucagon pretreatment of controls did not affect activity. In summary, distinct mitochondrial and cytosolic enzymes decarboxylate alpha-ketoisocaproate in liver. The increased hepatic capacity of diabetic rats to degrade the carbon skeleton of leucine is attributed mainly to a relative increase in mitochondrial mass.
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PMID:Effects of diabetes on oxidative decarboxylation of branched-chain keto acids. 743 56

Long term feeding a sucrose-rich diet (SRD) to normal Wistar rats led to multiphasic changes in the activity of the pyruvate dehydrogenase complex (PDH), characterized by a significant decrease in PDHa (active form) in the short term on SRD (3 weeks) when compared to control rats fed the standard chow (STD). Although PDHa returned spontaneously to control values in the medium term (6-8 weeks) on SRD, an even more pronounced decrease was recorded when rats were kept long term on the SRD (15 weeks). Low PDHa levels recorded in the short and long term were accompanied by a two fold increase in heart acetyl-CoA concentration and the acetyl-CoA/CoASH ratio. Tissue long-chain acyl-CoA and triacylglycerol levels were also significantly higher in SRD fed rats. Spontaneous normalization of all the above metabolic parameters was observed during the medium term on SRD. Glucose-6-phosphate levels remained within control values during the short and medium term, in contrast to a two fold increase recorded in the long term on SRD. Glycogen concentrations were found moderately elevated only in the long term. Citrate concentrations were slightly increased in the short and greatly in the long term, and the fructose-2,6-bisphosphate/citrate ratio was found significantly decreased only during the long term on SRD. After 3 weeks on SRD, the protal vein Insulin/Glucagon (I/G) molar ratio was three times higher in SRD than STD rats, as opposed to an unchanged I/G ratio found in the long term.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Multiphasic metabolic changes in the heart of rats fed a sucrose-rich diet. 783 21

Short chain (SCAD), medium chain (MCAD), and long chain acyl-CoA dehydrogenases (LCAD) catalyze the first step of fatty acid oxidation, while isovaleryl-CoA dehydrogenase (IVD) is involved in leucine oxidation. They are homologous flavoproteins belonging to the acyl-CoA dehydrogenase (ACD) family. Electron transfer flavoprotein (ETF) serves as an obligatory electron acceptor for these reactions. We demonstrated that the expression of SCAD, MCAD, and LCAD and the alpha-subunit of ETF (alpha-ETF) showed a similar developmental pattern, while that of IVD was distinctly different from others. The ontogenic pattern of each enzyme in the liver differed distinctly from that in the heart. The degree of glucagon-enhanced ACD expression in vivo and in vitro in both the liver and heart was especially high in fasted rats. Dexamethasone induced all ACD mRNAs in the heart. In contrast, it strongly suppressed mRNAs of all ACDs and alpha-ETF mRNA in the liver, except IVD mRNA. Dexamethasone induced IVD mRNA in both the liver and heart. Starvation strongly stimulated expression of all five genes in various tissues, with the highest in the heart, except the IVD gene which was down-regulated. The degree of induction by 3-day starvation differed in different age groups of rats. Feeding the rats a fat-free diet for 7 days caused a marked increase of IVD mRNA in the heart, whereas the high fat diet for the same period resulted in a severe decrease of the same degree, suggesting a protein-sparing mechanism. However, these manipulations of dietary fat content had little effect on the expression of other ACD genes.
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PMID:Developmental, nutritional, and hormonal regulation of tissue-specific expression of the genes encoding various acyl-CoA dehydrogenases and alpha-subunit of electron transfer flavoprotein in rat. 822 58

Hepatic monoacylglycerol acyltransferase (MGAT) (EC 2.3.1.22) is a developmentally-expressed enzyme that catalyzes the stereospecific synthesis of sn-1,2-diacylglycerol from sn-2-monoacylglycerol and long-chain fatty acyl-CoA. In order to study the regulation of MGAT, we developed a rapid assay that can be performed directly on permeabilized HA rat hepatocyte/hepatoma hybrid cells, a line that expresses levels of hepatic MGAT activity and a lipogenic program characteristic of fetal hepatocytes. In permeabilized HA cells, MGAT activity was proportional to the time of incubation and was highly dependent on added sn-2-monoacylglycerol and palmitoyl-CoA. The apparent Km values were 16.6 and 12.7 microM for palmitoyl-CoA and 2-monooleoylglycerol, respectively. Activity was low with the 1(3)- and sn-2-ether analogs of monooleoylglycerol, supporting the conclusion that the cells express the hepatic isoenzyme of MGAT. MGAT activity increased directly with cell density and was unrelated to the number of days in culture. Long-term incubation (2-4 days) of HA cells with various hormones (including triiodothyronine, human placental lactogen, epidermal growth factor, glucagon and growth hormone) showed that only a combination of dexamethasome and insulin resulted in significantly decreased MGAT activity. None of these hormones affected MGAT activity in short-term (0.5-4 h) incubations. These studies suggest that the developmental decline in rat hepatic MGAT activity may be regulated by glucocorticoids and insulin, hormones that increase during and after the second postnatal week.
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PMID:Hepatic monoacylglycerol acyltransferase activity in HA1 and HA7 hepatoma/hepatocyte hybrid cells: regulation by insulin and dexamethasone and by cell density. 841 88

Recent studies have shown that glucagon is processed by cardiac cells into its COOH-terminal (19-29) fragment, mini-glucagon, and that this metabolite is an essential component of the contractile positive inotropic effect of glucagon (Sauvadet, A., Rohn, T., Pecker, F. and Pavoine, C. (1996) Circ. Res. 78, 102-109). We now show that mini-glucagon triggers arachidonic acid (AA) release from [3H]AA-loaded embryonic chick ventricular myocytes via the activation of a phospholipase A2 sensitive to submicromolar Ca2+ concentrations. The phospholipase A2 inhibitor, AACOCF3, prevented mini-glucagon-induced [45Ca2+] accumulation into the sarcoplasmic reticulum, but inhibitors of lipoxygenase, cyclooxygenase, or epoxygenase pathways were ineffective. AA applied exogenously, at 0. 3 microM, reproduced the effects of mini-glucagon on Ca2+ homeostasis and contraction. Thus AA: (i) caused [45Ca2+] accumulation into a sarcoplasmic reticulum compartment sensitive to caffeine; 2) potentiated caffeine-induced Ca2+ mobilization from cells loaded with Fura-2; 3) acted synergistically with glucagon or cAMP to increase both the amplitude of Ca2+ transients and contraction of electrically stimulated cells. AA action was dose-dependent and specific since it was mimicked by its non-hydrolyzable analog 5,8,11,14-eicosatetraynoic acid but not reproduced by other lipids such as, arachidic acid, linolenic acid, cis-5,8,11,14,17-eicosapentaenoic acid, cis-4,7,10,13,16, 19-docosahexaenoic acid, or arachidonyl-CoA, even in the micromolar range. We conclude that AA drives mini-glucagon action in the heart and that the positive inotropic effect of glucagon on heart contraction relies on both second messengers, cAMP and AA.
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PMID:Arachidonic acid drives mini-glucagon action in cardiac cells. 913 91

This study examines the ability of dietary lipids to regulate gene expression of mitochondrial and peroxisomal fatty acid beta-oxidation enzymes in the kidney cortex and medulla of 3-wk-old rats and evaluates the role of glucagon or of the alpha-isoform of peroxisome proliferator-activated receptor (PPARalpha) in mediating beta-oxidation enzyme gene regulation in the immature kidney. The long-chain (LCAD) and medium-chain acyl-CoA dehydrogenases (MCAD) and acyl-CoA oxidase (ACO) mRNA levels were found coordinately upregulated in renal cortex, but not in medulla, of pups weaned on a high-fat diet from day 16 to 21. Further results establish that switching pups from a low- to a high-fat diet for only 1 day was sufficient to induce large increases in cortical LCAD, MCAD, and ACO mRNA levels, and gavage experiments show that this upregulation of beta-oxidation gene expression is initiated within 6 h following lipid ingestion. Treatment of pups with clofibrate, a PPARalpha agonist, demonstrated that PPARalpha can mediate regulation of cortical beta-oxidation enzyme gene expression, whereas glucagon was found ineffective. Thus dietary lipids physiologically regulate gene expression of mitochondrial and peroxisomal beta-oxidation enzymes in the renal cortex of suckling pups, and this might involve PPARalpha-mediated mechanisms.
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PMID:Dietary lipids regulate beta-oxidation enzyme gene expression in the developing rat kidney. 981 35

Glucagon-like peptide 1 (GLP-1) is the most potent physiological incretin for insulin secretion from the pancreatic beta-cell, but its mechanism of action has not been established. It interacts with specific cell-surface receptors, generates cAMP, and thereby activates protein kinase A (PKA). Many changes in pancreatic beta-cell function have been attributed to PKA activation, but the contribution of each one to the secretory response is unknown. We show here for the first time that GLP-1 rapidly released free fatty acids (FFAs) from cellular stores, thereby lowering intracellular pH (pHi) and stimulating FFA oxidation in clonal beta-cells (HIT). Similar changes were observed with forskolin, suggesting that stimulation of lipolysis was a function of PKA activation in beta-cells. Triacsin C, which inhibits the conversion of FFAs to long-chain acyl CoA (LC-CoA), enhanced basal FFA efflux as well as GLP-1-induced acidification and efflux of FFAs from the cell. Increasing the concentration of the lipase inhibitor orlistat progressively and largely diminished the increment in secretion caused by forskolin. However, glucose-stimulated secretion was less inhibited by orlistat and only at the highest concentration tested. Because the acute addition of FFAs also increases glucose-stimulated insulin secretion, these data suggest that the incretin function of GLP-1 may involve a major role for lipolysis in cAMP-mediated potentiation of secretion.
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PMID:Glucagon-like peptide 1 stimulates lipolysis in clonal pancreatic beta-cells (HIT). 1114 95

This brief review focuses on the transcriptional regulation of liver carnitine palmitoyltransferase I (L-CPT I) by pancreatic and thyroid hormones and by long-chain fatty acids (LCFA). Both glucagon and 3,3',5-tri-iodothyronine (T(3)) enhanced the transcription of the gene encoding L-CPT I, whereas insulin had the opposite effect. Interestingly, the transcriptional effect of T(3) required, in addition to the thyroid-responsive element, the co-operation of a sequence located in the first intron of L-CPT I gene. Non-esterified fatty acids rather than acyl-CoA ester or intra-mitochondrial metabolite were responsible for the transcriptional effect on the gene encoding L-CPT I. It was shown that LCFA and peroxisome proliferators stimulated L-CPT I gene transcription by distinct mechanisms. Peroxisome proliferator stimulated L-CPT I gene transcription through a peroxisome-proliferator-responsive element (PPRE) located at -2846 bp, whereas LCFA induced L-CPT I gene transcription through a peroxisome-proliferator-activated receptor alpha (PPARalpha)-independent mechanism owing to a sequence located in the first intron of the gene.
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PMID:Regulation of liver carnitine palmitoyltransferase I gene expression by hormones and fatty acids. 1135 73

To test the effect of nandrolone on their recovery, six adult half-bred riding horses performed a competition exercise test (CET) and a standardized exercise test (SET) on consecutive days before and after a 2-week treatment with the anabolic steroid nandrolone laurate. Blood samples were collected during and between these tests for the determination of red cell volume and concentrations of blood lactate, plasma glucose, non-esterified fatty acids, glycerol, triglycrides, erythropoietin, cortisol, insulin, and glucagon. Muscle biopsy specimens were taken immediately after the CET and before the SET for analysis of glycogen content, citrate synthase, and 3-hydroxyacyl CoA dehvdrogenase activity. Nandrolone administration increased the rate of muscle glycogen repletion after exercise, an increase that may be explained by increased glucose output by the liver, higher plasma insulin concentration, and increased insulin-independent glucose transport, but not by better availability of lipid fuels during recovery.
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PMID:Effects of nandrolone treatment on recovery in horses after strenuous physical exercise. 1155 92


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