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)

Starvation, glucagon and cyclic AMP inhibit, and refeeding starved animals and insulin or IGF-I plus triiodothyronine stimulate accumulation of FAS and its mRNA in liver; transcription is the primary regulated step. In the uropygial gland, differentiation of basal cells into mature sebocytes is accompanied by the accumulation of large amounts of FAS and its mRNA. By analogy with liver, transcription is likely to be the regulated step, but direct experimental evidence for this hypothesis is lacking. FAS mRNA is a unique gene and is probably more than 100 kb in length. The FAS gene of goose and duck is transcribed into two mature mRNAs of about 10,800 and 12,200 nucleotides. The 3'-untranslated regions of the FAS mRNAs contain an unusual polypyrimidine tract which, at the mRNA level at least, appears unrelated to regulation of gene expression. Polypyrimidine tracts similar in sequence to that in the FAS gene are found in about 20 different parts of the genome. All of the fragments which contain these tracts are hypermethylated. The next stage of this investigation will involve identification of cis-acting sequence elements in the FAS gene which specify responses to diet, hormones and tissue-specific regulatory factors. Isolation and characterization of the 5'-ends of the cDNA and the gene are underway.
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PMID:Structure and regulation of the avian gene for fatty acid synthase. 259 Mar 94

Exercise is associated with a marked increase in glucose uptake by muscle, which is initially supported by breakdown of hepatic glycogen and subsequently by increased gluconeogenesis. If hepatic glucose production is inadequate, hypoglycemia results. During exercise there is decreased plasma insulin and increased catecholamines, glucagon, cortisol, and growth hormone, which contribute to but are not essential for the increased hepatic output of glucose. Although insulin concentrations fall, insulin sensitivity is increased. However, the augmented glucose uptake by muscle is due to other factors. The symptoms of exhaustion during exercise are not due to hypoglycemia, and prevention of hypoglycemia may not prolong the time of exercise to exhaustion. During severe caloric restriction, hepatic glucose production decreases and free fatty acids and ketone bodies become important sources of calories. Although under these circumstances hepatic gluconeogenesis is usually sufficient to prevent hypoglycemia, with very severe caloric restriction hypoglycemia can result. With starvation, insulin concentrations fall while growth hormone and glucagon increase. Frequently the usual symptoms of hypoglycemia are absent in individuals with hypoglycemia from severe caloric restriction. Hypoglycemia from severe caloric restriction has not been totally restricted to underdeveloped areas of the world. In such patients no endocrine abnormalities have been found, and hypoglycemia has persisted despite administration of large amounts of carbohydrate. Pregnancy and lactation could predispose to hypoglycemia in the face of inadequate caloric intake.
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PMID:Exercise and deficient carbohydrate storage and intake as causes of hypoglycemia. 264 24

The degradation of intracellular protein and other cytoplasmic macromolecules in liver is an ongoing process that regulates cytoplasmic mass and provides amino acids for energy and other metabolic uses early in starvation. Cellular proteins are conveniently divided into two general classes according to readily discernable differences in average rates of turnover. A short-lived class, having a half-life of approximately 10 min, comprises about 0.6% of total protein. Its degradation is not physiologically controlled, and the mechanism is probably nonlysosomal in nature. The second or long-lived group, with an average half-life 250 times greater, constitutes more than 99% of the cell's protein. By contrast, its breakdown is strongly regulated, and the site of catabolism is believed to be the vacuolar-lysosomal system. Cytoplasmic sequestration by lysosomes can be divided into two categories; macro- and microautophagy. The first is induced by amino acid and/or insulin deprivation. Amino acids are considered to be primary regulators, since they can control this process over the full range of induced proteolysis in the absence of hormones. Glucagon, cyclic AMP, and beta-agonists also stimulate macroautophagy in hepatocytes but have opposite effects in myocytes. Micrautophagy differs from the former in that the cytoplasmic "bite" is smaller and the uptake process is not acutely regulated. However, the latter does decrease during starvation in parallel with basal proteolysis, effects that might be linked to the loss of endoplasmic reticulum. The primary control of macroautophagy is accomplished through a small group of direct regulators (Leu, Tyr/Phe, Gln, Pro, Met, His, and Trp) and a specific coregulatory action of alanine. As a group, regulatory amino acids produce direct inhibitory responses in the perfused rat liver that are identical to those of the complete amino acid mixture at 0.5x and 4x (times) normal plasma concentrations. However, they lose effectiveness almost completely within a narrow zone centered at normal levels, a loss that can be abolished by the addition of alanine at its normal plasma concentration (0.5 mM). At this level, alanine does not inhibit directly. Interestingly, this zonal loss is also eliminated by insulin. Glucagon, though, specifically blocks the initial inhibition evoked by 0.5x amino acid mixtures and thus induces maximal rates of protein degradation at normal amino acid concentrations.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism and regulation of protein degradation in liver. 264 36

The effects of 3-hydroxybutyrate (3-OHB) and hyperosmolarity on glucagon secretion were examined in the isolated perfused canine pancreas. When 3-OHB was infused for 15 min into the pancreas perfused with 2.8 mM glucose, 5 and 20 mM sodium 3-OHB inhibited it after a transient stimulation, whereas a similar transient stimulation was observed also by the infusion of 20 mM NaCl in a control experiment. The above inhibition was not observed under the perfusate condition of 5.5 mM glucose plus 10 mM arginine. When the isolated canine pancreas was perfused under the perfusate condition of acidosis (pH 7.1), ketoacidosis (pH 7.1 and 20 mM 3-OHB) or hyperosmolarity (+60 mOsm/kg with sucrose) throughout the experiment, the glucagon concentrations produced by 2.8 mM glucose under the ketoacidotic and hyperosmolar conditions, were less than half of those obtained under the standard condition. The insulin level was not influenced by the above perfusate conditions. These results suggest that 3-OHB inhibits glucagon secretion stimulated by glucopenia, but does not inhibit it stimulated by amino acids, and that hyperosmolarity inhibits glucagon secretion but does not inhibit insulin secretion. The pathophysiological significance of these results must be slight, considering the presence of hyperglucagonemia during prolonged starvation or diabetic ketoacidosis.
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PMID:Effects of 3-hydroxybutyrate and hyperosmolarity on glucagon release from isolated perfused canine pancreas. 268 20

Metoclopramide has previously been shown to inhibit the ketosis of starvation in rats and humans. The effect of D2-dopaminergic blockade on post-exercise ketosis was, therefore, studied in 6 carbohydrate-starved non-athletic persons who had just completed a 9-km walk in mountainous terrain. There were nine control subjects who went on the walk, but who did not ingest metoclopramide. Metoclopramide (0.15 mg.kg-1 body mass) caused a highly significant rise in the plasma prolactin concentration, but did not influence blood concentrations of 3-hydroxybutyrate, free fatty acid, glucose, insulin or glucagon. Unlike ketosis in starvation, therefore, neither prolactin, nor the D2-dopaminergic system play a part in the genesis of post-exercise ketosis.
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PMID:D2-dopaminergic blockade does not influence post-exercise ketosis in non-athletes. 268 63

In situ hybridization of proinsulin and proglucagon mRNA was performed in rat pancreas to assess prohormone gene expression during various glucopenic conditions. During a 4-d fast mean blood glucose declined by 48 mg/dl; proinsulin mRNA signal density remained normal while proglucagon mRNA signal density more than doubled. At the end of a continuous 12-d insulin infusion blood glucose averaged 53 +/- 12 mg/dl; proinsulin mRNA signal density declined to 30% of controls while proglucagon mRNA signal density more than doubled. In insulinoma-bearing NEDH rats blood glucose averaged 34 +/- 3.5 mg/dl; the proinsulin mRNA signal was virtually undetectable and proglucagon mRNA signal density was more than twice the controls. There was no detectable change in either beta-cell area or islet number in rats subjected to fasting or insulin infusion, but in insulinoma-bearing rats beta cell area was markedly reduced. Thus compensation during 4 d of starvation involves an increase in glucagon gene expression without change in insulin gene expression or beta cell mass. In moderate insulin-induced hypoglycemia glucagon gene expression is increased and insulin gene expression decreased. In more profound insulinoma-induced hypoglycemia, in addition to the foregoing changes in hormone gene expression, there is a profound reduction in the number of insulin-expressing cells.
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PMID:Effects of hypoglycemia and prolonged fasting on insulin and glucagon gene expression. Studies with in situ hybridization. 276 Feb 7

Efficient treatment of deep denutrition should promote the restoration of normal intestinal villous structure and the return to a positive nitrogen balance. To determine whether the plasma measurement of lipoproteins could serve as sensitive indexes of villous architecture and/or nitrogen balance, these parameters were compared in rats starved for three days and refed three types of diets containing either whey proteins (WP), whey protein hydrolysate (WPH), or amino acids, known to differ in their capacity to promote restoration of normal villous architecture. Starvation lowered the concentration of triglycerides and phospholipids but not cholesterol. Apolipoprotein AI and AIV concentrations were also significantly lowered (30% and 40%, respectively), but ApoE was significantly increased by 40%. Upon refeeding with all three diets, plasma lipids progressively returned to control values except for triglycerides, which were significantly elevated by the protein and peptide diets. Apoprotein AI continued to decrease for 24 hours on the peptide and amino acid diets. Control levels were restored in all groups after 48 hours. ApoAIV increased progressively in parallel with the restoration of the intestinal mucosa; after 48 hours of refeeding, plasma concentrations of apo AIV were significantly correlated with jejunal villous height and protein content (P less than .01). ApoE was depressed below control levels in the WP and WPH groups at 24 and 48 hours and restored only after 96 hours. Because ApoE was affected, both in the fed state and during refeeding by the form of dietary nitrogen, it may prove to reflect nitrogen balance and/or insulin: glucagon balance.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Serum lipids and apolipoproteins in the rat refed after starving: influence of the molecular form of nitrogen (protein, peptides, or free amino acids). 276 11

Plasma insulin (I), glucagon (G) and glucose, hepatic glycogen, fructose 2, 6-bisphosphate (F2, 6-P2), fructose 1, 6-bisphosphate, phosphoenolpyruvate, and some liver key enzymes involved in glycolysis (6-phosphofructo-2-kinase/fructose-2, 6-bisphosphatase (6-PF-2kinase/F-2,6-P2ase), activity ratio (velocity at suboptimal substrate concentration/maximum velocity) of pyruvate kinase (PK-L] and in gluconeogenesis (phosphoenolpyruvate carboxykinase activity) have been compared in young (2 months) and old (16 months) rats upon starvation or transition to a high protein (HP) diet. In the 10 and 24 hours after the dietary switch, plasma glucose decreased less and hepatic glycogen was less depleted in the old rats. The ratios of plasma I/G and of hepatic 6-PF-2kinase/F-2,6-P2ase were higher in the old rats and their decrease delayed at both time points, as was the concentration of hepatic F-2,6-P2 and the activity ratio of PK-L (before and after removal of endogenous noncovalent factors). The consistency of these differences indicate that the mechanisms for control of glycolysis/gluconeogenesis are similar in young and old rats, but it appears that in old rats starved or fed HP diet, the switch from glycolysis to gluconeogenesis is delayed. This suggests that as a result of the slowness of the hormonal changes the process of phosphorylation/dephosphorylation, which is so important in the short-term regulation of the glycolysis/gluconeogenesis pathway, may be impaired with age.
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PMID:Age-dependent changes in rat hepatic fructose 2, 6-bisphosphate, 6-phosphofructo-2-kinase/fructose 2, 6-bisphosphatase and pyruvate kinase activity in response to a high protein diet or starvation. 284 Nov 76

1. The fluctuations in rat hepatocyte volume and protein content in response to dietary perturbations (starvation, protein restriction, refeeding) were accompanied by corresponding fluctuations in the amount of the regulatory (R) and catalytic (C) subunits of cyclic AMP-dependent protein kinase. Thus the intracellular concentration of this key enzyme was adjusted to be near constant. 2. The adjustment of cellular R was accomplished almost exclusively by regulating cytosolic RI (R subunit of type I kinase). The preferential down-regulation of cytosolic RI in response to starvation/protein restriction indicates that particulate RI and cytosolic as well as particulate RII are more resistant to breakdown during general catabolism in the hepatocyte. 3. The diet-induced fluctuations of kinase subunits were uniformly distributed in all populations of parenchymatous hepatocytes, regardless of their size and density. It is thus possible to isolate hepatocytes with uniformly altered RI/RII ratio from livers of rats with different feeding regimens. 4. The binding of endogenous cyclic AMP to RI and RII was similar in livers with high RI/RII ratio (fed rats) and low RI/RII ratio (fasted rats) as well as in hepatocytes isolated from fasted rats. Under the conditions of the experiment (short-term stimulation by glucagon), therefore, neither the dietary state nor the RI/RII ratio seemed to affect the apparent affinity of the isoreceptors for cyclic AMP. However, RI appeared to show a slightly higher co-operativity of intracellular cyclic AMP binding than did RII in all states.
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PMID:The amounts of rat liver cyclic AMP-dependent protein kinase I and II are differentially regulated by diet. 285 90

The fraction of 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase in the dephosphorylated (active) form in rat liver in vivo was measured after various experimental treatments of animals. Intraperitoneal injection of glucose (to raise serum insulin concentrations) into rats 4 h into the light phase (L-4) resulted in a transient (30 min) increase in the expressed (E)/total (T) activity ratio of HMG-CoA reductase without any change in total activity (obtained after complete dephosphorylation of the enzyme). Conversely, intravenous injection of guinea-pig anti-insulin serum into rats 4 h into the dark phase (D-4) significantly depressed the E/T ratio within 20 min. Intravenous injection of glucagon into normal rats at this time point did not affect the degree of phosphorylation of the enzyme, in spite of a 10-fold increase in hepatic cyclic AMP concentration induced by the hormone treatment. A 3-fold increase in the concentration of the cyclic nucleotide induced by adrenaline infusion was similarly ineffective in inducing any change in expressed or total activities of hepatic HMG-CoA reductase. However, when insulin secretion was inhibited, either by the induction of streptozotocin-diabetes or by simultaneous infusion of somatostatin, glucagon treatment was able to depress the expressed activity of HMG-CoA reductase (i.e. it increased the phosphorylation of the enzyme). Therefore insulin appears to have a dominant role in the regulation of the phosphorylation state of hepatic HMG-CoA reductase. In apparent corroboration of this suggestion, short-term 4 h food deprivation of animals before D-4 resulted in a marked decrease in the E/T activity ratio of reductase, which was not affected further by an additional 8 h starvation. By contrast, the total activity of the enzyme was not significantly affected by 4 h starvation, but was markedly diminished after 12 or 24 h starvation. Longer-term starvation also produced a chronic increase in the degree of phosphorylation of the enzyme. These results are discussed in relation to the role of reversible phosphorylation in the control of hepatic HMG-CoA reductase activity in vivo.
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PMID:Acute effects of starvation and treatment of rats with anti-insulin serum, glucagon and catecholamines on the state of phosphorylation of hepatic 3-hydroxy-3-methylglutaryl-CoA reductase in vivo. 288 48


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