Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The phosphorylated form of liver glycogen phosphorylase (alpha-1,4-glucan : orthophosphate alpha-glucosyl-transferase, EC 2.4.1.1) (phosphorylase a) is active and easily measured while the dephosphorylated form (phosphorylase b), in contrast to the muscle enzyme, has been reported to be essentially inactive even in the presence of AMP. We have purified both forms of phosphorylase from rat liver and studied the characteristics of each. Phosphorylase b activity can be measured with our assay conditions. The phosphorylase b we obtained was stimulated by high concentrations of sulfate, and was a substrate for muscle phosphorylase kinase whereas phosphorylase a was inhibited by sulfate, and was a substrate for liver phosphorylase phosphatase. Substrate binding to phosphorylase b was poor (KM glycogen = 2.5 mM, glucose-1-P = 250 mM) compared to phosphorylase a (KM glycogen = 1.8 mM, KM glucose-1-P = 0.7 mM). Liver phosphorylase b was active in the absence of AMP. However, AMP lowered the KM for glucose-1-P to 80 mM for purified phosphorylase b and to 60 mM for the enzyme in crude extract (Ka = 0.5 mM). Using appropriate substrate, buffer and AMP concentrations, assay conditions have been developed which allow determination of phosphorylase a and 90% of the phosphorylase b activity in liver extracts. Interconversion of the two forms can be demonstrated in vivo (under acute stimulation) and in vitro with little change in total activity. A decrease in total phosphorylase activity has been observed after prolonged starvation and in diabetes.
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PMID:Characteristics of the dephosphorylated form of phosphorylase purified from rat liver and measurement of its activity in crude liver preparations. 0 75

The effect of experimental diabetes on hepatic drug metabolism was studied in male Holtzman rats. Treatment of animals with streptozotocin and 6-aminonicotinamide, both agents which produce an insulin-deficient animal, caused prolongation of hexobarbital sleeping times and inhibition of the rate of metabolism of both hexobarbital and, to a lesser extent, aniline in vitro. Treatment of animals with N-methylacetamide, a diabetogen which does not cause insulin deficiency in the animal but rather produces an insulin-resistant state, did not affect the metabolism in vitro of either hexobarbital or aniline. Neither insulin nor any of the diabetogenic agents had any direct effect on drug metabolism in vitro. Furthermore, hepatic microsomal protein and cytochrome P-450 contents were not significantly different in any of the diabetic animals from those of the control animals. Hyperglycemia produced by glucose infusion did not affect the metabolism of hexobarbital in vitro. The effects of streptozotocin and 6-aminonicotinamide appeared to be at least partially due to the presence of an inhibitor in the liver cytosol which correlated with elevated hepatic cyclic AMP concentrations.
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PMID:Effect of experimental diabetes on drug metabolism in the rat. 1 20

Pancreatic islets isolated from rats infused with glucose for twenty-four hours incorporated 3H-leucine into protein at higher rates than islets isolated from normoglycemic rats. Incorporation into proinsulin-insulin showed a thirteenfold increase. The effect on other islet proteins was fourfold. Exposure of islets from normoglycemic rats to high glucose in vitro for twenty and ninety minutes and subsequent incubation with 3H-leucine at low glucose showed a twofold and fivefold increase in proinsulin biosynthesis. In the in vitro system pre-exposure of the islets to mannose and dibutyryl-cyclic AMP induced a much smaller increase in proinsulin biosyntheses.
Diabetes 1975 Feb
PMID:Persisting enhanced proinsulin-insulin and protein biosynthesis (3H-leucine incorporation) by pancreatic islets of the rat after glucose exposure. 16 98

1. Glucokinase is one of four glucose phosphorylating enzymes present in rat liver. Its distinctive features are a high K-m for glucose (high-K-m isozyme) and a rather narrow substrate specificity. In contrast, the other three enzymes, collectively called hexokinases or low-K-m isozymes, exhibit low K-m values for glucose and a wider substrate specificity. 2. Glucokinase is present in the liver os mammals (with some exceptions), amphibians and lower reptiles; It is absent from higher reptiles and birds. The presence or absence of glucokinase may represent an evolutionary adaptation to feeding habits and other physiological peculiarities. Differences in the immunological behavior and in the kinetic parameters of glucokinases from different taxa suggest the operation of divergent evolution. 3. The levels of glucokinase in rat liver depend strictly on the supply of carbohydrate in the diet. Glycogen phosphorylase and glycogen synthetase behave similarly, whereas other carbohydrate-metabolizing enzymes depend on the provision of either protein or protein plus carbohydrate. Glucokinase decays with a half-life of 33 hr when rats are starved or fed a carbohydrate-free diet, and is induced by the administration of glucose. The adaptive character is not exhibited by all mammals, indicating evolutionary discrimination within the same class and even within the same single order Rodentia. Enzyme adaptation in the liver may partially explain the condition known as 'hunger diabetes'. 4. The endocrine system plays a paramount role in glucokinase adaptation, since insulin is essential for glucose-dependent glucokinase induction and, on the other hand, glucagon, catecholamines and cyclic AMP prevent the induction. Glucocorticoids and some pituitary hormones modulate the rate of induction. The mechanisms underlying the hormonal regulation of glucokinase levels are not well known. 5. The variations in liver glucokinase correspond to changes in the amount of enzyme protein as assessed by immunochemical titration. This fact agrees with the effects of inhibitors of protein synthesis on glucokinase induction. 6. An antiserum against rat glucokinase reacts with the enzyme from mammals and turtles but not with the amphibian enzyme. It does not react with low-K-m hexokinases from different sources. 7. The saturation function for glucose is sigmoidal in mammalian and amphibian glucokinases but not in glucokinase from lower reptiles. The Hill's coefficient is very constant with values about 1.6. The K0.5 (concentration for half saturation) values in the different species studied vary between 1.5 and 8 mM. These kinetic parameters may be considered as another adaptive feature aimed to give maximal efficiency to the liver uptake of glucose at the changeable concentrations in the blood resulting from variations in the amount of dietary glucose.
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PMID:Adaptive character of liver glucokinase. 16 20

Insulin has been shown to lower cyclic AMP (cAMP) levels in hormonally sensitive tissue. The mechanism by which this lowering occurs has not yet been fully defined. We studied the effects of insulin on rat adipose tissue cyclic nucleotide phosphodiestrase (PDE) in an incubation system. The adipose tissue used was from both normal animals and animals rendered diabetic by intravenous injections of streptozotocin. Rat epididymal fat pads were incubated in a Krebs-Ringer bicarbonate-4% albumin system with O, 100, 1,000 or 10,000 PU/ml insulin (INS); epinephrine (EPI) or glucagon (GLU) at several different concentrations. After 15 min of incubation, each tissue was homogenized, centrifugated, and the supernatant assayed for cAMP PDE activity using the breakdown of (3-H)cAMP. The data was used to characterize cAMP PDE into apparent high and low K-m PDE components. In the normal animals, INS increased Vmax of the low Km PDE components; 100 pU/ml INS, 30%, 1000 p1/ML INS, 40; and 10,000 pU/ml INS, 20%. In contrast, streptoxotocin diabetes lowered this Vmax by 30%. In the diabetic animals, INS also increased Vmax by 30%. In the diabetic animals, INS also increased Vmax of the low Km PDE component; 100 pU/ml INS, 30%; 1000 pU/ml INS, 50% and 10,000 pU/ml INS, 100%. Epinephrine at 1, 10, and 100 pg/ml stimulated low Km cAMP PDE activity by 67%, 73% and 44% respectively. The stimulatory effect of EPI on both the low and high Km cAMP PDE activity was neutralized by propranolol or adenosine. In comparison to EPI, GLU at very low concentrations, 10-9M, stimulated low Km cAMP PDE. These studies suggest that some of the biologic actions of insulin, an antilipolytic substance, are mediated through activation of low Km PDE. Furthermore, this enzymatic activity is lower in experimental diabetes. The stimulation of low Km PDE by lipolytic hormones may reflect a long-range protective action of these agents.
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PMID:Effect of insulin and lipolytic hormones on cyclic AMP phosphodieterase activity in normal and diabetic rat adipose tissue. 16 58

Incorporation of alanine-U-14C into glucose and liver glycogen increased linearly over sixty-five hours in culture of human fetal liver explants. This rate of incorporation was stimulated two- to tenfold by incubation with N6,2'O-dibutyryl adenosine 3'-5:cyclic monophosphate (dibutyryl cyclic AMP) (0.1 mM) plus theophylline (0.5 mM) or glucagon (7.5 mug./ml.) plus theophylline. No apparent lag period was detected, and the hormonal effect continued throughout the observation period. Insulin (1 U./ml.) significantly decreased both the basal rate of incorporation and the stimulated rate resulting from dibutyryl cyclic AMP or glucagon incubation. These effects were observed at both high (10mM) and low (2.8 mM) media glucose and from both 2.3 muM and 5 mM alanine-U-14C. Triamcinolone (20 mug./ml.) alone stimulated the rate of alanine-U-14C incorporation into glucose, whereas triamcinolone in the presence of dibutyryl cyclic AMP produced an increase in incorporation greater than the sum of the individual effects. The basal incorporation of alanine-U-14C into glucose by these human fetal liver explants provide a rate of approximately 4 nmoles glucose/gm. min, which is discussed in relation to the physiologic needs of the fetus and newborn.
Diabetes 1975 Jul
PMID:Hormonal regulation of incorporation of alanine-U-14C into glucose in human fetal liver explants. Effect of dibutyryl cyclic AMP, glucagon, insulin, and triamcinolone. 16 72

The (3H) cyclic AMP accumulation was measured in incubations of pancreatic islets from one-day, six-day, and thirty-five-day-old rats exposed to a low (0.6 mg./ml.) or a high (3.0 mg./ml.) glucose concentration with or without the addition of 0.1 mM. of the phosphodiesterase inhibitor 3-isobutyl- 1 -methylxanthine (IBMX). In the thirty-five-day-old rats, (3H) cyclic AMP accumulation was significantly enhanced after sixty minutes' incubation in a high glucose concentration and further increased by IBMX. These changes were paralleled by a stimulated insulin release, measured simultaneously. By contrast, in the one-day-old rats, no effect of glucose with or without IBMX was seen on (3H) cyclic AMP, while the minor insulin release due to high glucose alone was markedly potentiated by IBMX. Even in the presence of this agent the insulin response to glucose was, however, clearly inferior to that seen in the thirty-five-day-old animals. The stimulatory patterns of glucose-induced insulin release in the six-day-old animals was intermediate between the other two age groups. At this age, stimulation of (3H) cyclic AMP due to glucose was observed only in the presence of IBMX. Measurement of (3H) cyclic AMP after three minutes' incubation confirmed these different stimulatory patterns of glucose in the age groups studied. It is suggested that the inefficiency of glucose to stimulate the adenyl cyclase-cyclic AMP system of the beta cell from fetal and neonatal animals may be one important factor determining the insensitivity to the insulin-releasing action of glucose that exists at this stage of development.
Diabetes 1975 Aug
PMID:Decreased cyclic AMP and insulin response to glucose in isolated islets of neonatal rats. 16 74

To determine whether synthetic somatostatin originally isolated from sheep hypothalamus can inhibit hormone secretion in the same species, we measured plasma levels of GH, insulin, glucagon, and glucose of normal sheep under a variety of experimental conditions in the presence and absence of somatostatin infusion. An oral dose of 2.5 mg./kg. 3,5-dimethypyrazole increase plasma GH from 10.9 to 376.9 ng. per milliliter, which was suppressed by 50 per cent and 80 per cent with 0.5 and 1 mg. synthetic cyclic somatostatin, respectively. Linear somatostatin (0.5 mg.) was without effect in two animals tested. Propionate (0.5 mmole per kilogram) and arginine (10 gm.) induced a rise in plasma insulin and GH, and glucagon was effectively blocked by cyclic somatostatin (0.5 mg.). Similarly, somatostatin inhibited glucose, and glucagon provoked GH and insulin secretory responses without affecting glucose or FFA levels. Somatostatin had no effect on the disappearance of injected glucagon. Finally, addition of somatostatin to incubation media prevented PGE promoted GH release, and suppressed cyclic AMP accumulation, although to a lesser extent, in sheep anterior pituitary pieces. In view of the large amounts required to suppress stimulated hormone release and the general lack of specificity of somatostatin, it is suggested that this peptide may have a functional role only in the release of hormones of the pituitary, where it could occur in relatively high local concentrations. Its inhibition of extrapituitary hormone secretion may be purely a pharmacologic effect that, nevertheless, suggests an interference with a step common to the secretory process of hormones.
Diabetes 1975 Sep
PMID:Studies on growth hormone secretion. VII. Effects of somatostatin on plasma GH, insulin, and glucagon in sheep. 16 76

Glycogen accumulates in human fetal liver beginning at the eighth week of gestation. A parallel increase in total glycogen synthase activity is found, although the I-form activity remains low and constant throughout the first two thirds of gestation. Total phosphorylase activity increases slightly during this period, with the proportion in the active form amounting to about one half of the total throughout. After an initial rapid decline, the glycogen concentration in explants of human fetal liver remained constant for twenty to forty hours at about 20 per cent of the in vivo level. Incubation with glucagon, cyclic AMP (adenosine 3',5'-monophosphate) or its dibutyryl derivative markedly reduced tissue glycogen concentrations while insulin brought about a small increase. The effect of maximal doses of dibutyryl cyclic AMP and glucagon were the same, and the combination of agents produced no further effect. The response to dibutyryl cyclic AMP was apparent by one hour and maximal by three to six hours, whereas the response to insulin required about six hours to be detected, and it continued for at least eighteen hours. Insulin antagonized the glycogenolytic effect of low doses of glucagon or theophylline but was without significant effect in the presence of high glucagon concentrations. Glucagon stimulated cyclic AMP output from explants, and this effect was further augmented by theophylline. Insultin had no consistent effect on cyclic AMP output in either the presence or the absence of glucagon or theophylline. Incubation with dibutyryl cyclic AMP resulted in a decrease of glycogen synthase I-form activity, while insulin tended to increase this enzyme activity. In neither circumstance was the proportion of active phosphorylase altered. These results suggest that the regulation of glycogen levels in human fetal liver by cyclic AMP, glucagon, and insulin may entail alterations in the activity of glycogen synthase activity without necessitating alterations in phosphorylase activity. Cyclic AMP or glucagon was capable of depleting tissue glycogen stores in tissue from fetuses of six weeks' gestation. Insulin increased tissue glycogen concentrations in tissue from fetuses of seven or more weeks.
Diabetes 1975 Dec
PMID:Hormonal regulation of glycogen metabolism in human fetal liver. I. Normal development and effects of dibutyryl cyclic AMP, glucagon, and insulin in liver explants. 17 97

Alteration of growth of dimethylbenz[a]anthracene-induced mammary tumors was caused by removal of estrogen (ovariectomy), or insulin (diabetes), or by inhibition of prolactin secretin (treatment with an ergoline derivative). The levels of cyclic AMP (cAMP) and cGMP were measured in carcinomas classified as growing, static, and regressing. The amount of cAMP, expressed as pmoles/mg tumor weight or pmoles/mg protein, was lowest in growing tumors, intermediate in static tumors, and highest in those regressing. No correlation was seen between tumor growth and cGMP levels. Cyclophosphamide-induced tumor stasis did not elevate cAMP levels. The data suggest a role of cAMP in arrest of hormone-induced tumor growth.
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PMID:Relationship of adenosine 3',5'-cyclic monophosphate and guanosine 3',5'-cyclic monophosphate to growth of dimethylbenz(a)anthracene-induced mammary tumors in rats. 17 3


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