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: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acitivites of the hepatic enzymes were determined in spontaneous diabetes rats. The activities of the enzymes were compared with those in normal rats and in streptozotocin diabetic rats. In the spontaneous diabetes rats, glycogen phosphorylase and glycogen synthase were 14.6 +/- 0.6 and 1.73 +/- 0.15 U respectively. The activities of both the enzymes were significantly increased. In the spontaneous diabetes rats glucokinase was 3.82 +/- 0.5 U showing a significant increase. On the contrary, the activity of the enzyme was decreased in the streptozotocin diabetic rats. Glucose-6-phosphatase was increased both in the spontaneous diabetes rats and in the streptozotocin diabetic rats. Fructose-1,6-diphosphatase was increased in the spontaneous diabetes rats. Glucose-6-phosphate dehydrogenase was increased in the spontaneous diabetes rats and decreased in the streptozotocin diabetic rats. In the spontaneous diabetes rats phosphofructokinase showed a reduction of the activity and glucose-6-phosphate dehydrogenase was elevated. These findings are consistent with the results of activities of the hepatic enzymes in adult-onset diabetic patients. These patterns of the hepatic enzymes in the spontaneous diabetes rats were different from those in the streptozotocin diabetic rats. From these patterns of activities of the hepatic enzymes, the spontaneous diabetes rats produced by repetition of selective breeding according to Goto et al. (1975,1976) are an excellent model of human adult-onset diabetes.
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PMID:Activities of hepatic enzymes in spontaneous diabetes rats produced by selective breeding of normal Wistar rats. 15 47

To investigate whether skeletal muscle is resistant to insulin in insulinopenic states, insulin binding and biological effects on glucose utilization were studied in isolated soleus muscles from 24- or 48-h-fasted mice and from streptozotocin-diabetic mice. Both 48-h fasting and diabetes led to an increase in insulin binding at insulin concentrations <3.4 nM. In both states, submaximal concentrations of insulin were also more effective in stimulating muscle 2-deoxyglucose uptake and glycogen synthesis, and in activating glycogen synthase. This resulted in a two- to fourfold leftward shift in the insulin dose-response curves in muscles from both groups compared with control. No change in insulin binding or biological effects was detected in muscles from 24-h-fasted mice. Maximal insulin effectiveness on 2-deoxyglucose uptake and glycolysis was either unchanged or only slightly enhanced in 48-h-fasted mice and in diabetic animals, compared with controls. Maximal insulin effects on glycogen synthesis and glycogen synthase activation were unaltered by fasting or diabetes. Basal glucose uptake and glycolysis were similar in all groups of mice. In conclusion, when soleus muscles from 48-h-fasted mice and from diabetic mice are compared with controls it can be observed that, (a) at low insulin concentrations insulin binding is increased and insulin effectiveness in stimulating glucose transport and metabolism is enhanced; (b) biological responses to maximally effective insulin concentrations are either unaltered or slightly increased; (c) basal rates of glucose transport and metabolism are essentially unaltered. These results indicate that in insulinopenic states soleus muscle is not insulin resistant in vitro but is hypersensitive to low concentrations of insulin, and normally responsive to maximally effective doses of the hormone.
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PMID:Effect of fasting and streptozotocin diabetes on insulin binding and action in the isolated mouse soleus muscle. 15 13

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

The effects of streptozotocin-induced diabetes and of insulin supplementation to diabetic rats on glycogen-metabolizing enzymes in liver were determined. The results were compared with those from control animals. The activities of glycogenolytic enzymes, i.e. phosphorylase (both a and b), phosphorylase kinase and protein kinase (in the presence or in the absence of cyclic AMP), were significantly decreased in the diabetic animals. The enzyme activities were restored to control values by insulin therapy. Glycogen synthase (I-form) activity, similarly decreased in the diabetic animals, was also restored to control values after the administration of insulin. The increase in glycogen synthase(I-form) activity after insulin treatment was associated with a concomitant increase in phosphoprotein phosphatase activity. The increase in phosphatase activity was due to (i) a change in the activity of the enzyme itself and (ii) a decrease in a heat stable protein inhibitor of the phosphatase activity.
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PMID:The effect of streptozotocin-induced diabetes and of insulin supplementation on glycogen metabolism in rat liver. 20 91

The loss of glucose regulation of glycogen synthase in perfused livers from diabetic rats was associated with a substantial reduction in synthase phosphatase activity. Treatment of diabetic rats with insulin alone resulted in total restoration of the glucose effect and synthase phosphatase activity, while simultaneous treatment with cycloheximide severely reduced the hormonal effect. Although treatment of normal rats with cycloheximide had no effect on glucose activation of synthase, it did result in severe depletion of liver glycogen, increased liver glycogen phosphorylase activity, and elevation of liver adenosine 3',5'-monophosphate (cyclic AMP), but without elevation of liver protein kinase activity. Simultaneous treatment of alloxan-diabetic rats with insulin and cycloheximide resulted in reduction of total liver glycogen, increased phosphorylase activity, a reduction in the ability of insulin to lower hepatic cyclic AMP, and a further reduction of protein kinase activity. In summary, the effect of insulin treatment of diabetic rats to restore glucose regulation of hepatic glycogen synthase probably involves synthesis of new protein, and the data remain consistent with the hypothesis that the defect may be due to a diabetes-related deficiency in a specific synthase phosphatase and/or alteration of the synthase molecule itself.
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PMID:Glucose activation of liver glycogen synthase. Insulin-mediated restoration of glucose effect in diabetic rats is blocked by protein synthesis inhibitor. 21 47

During the first two thirds of gestation, the concentrations of UDPG, ATP, ADP, and Mg++ in human fetal liver remain constant, whereas the concentration of Pi decreases twofold and the G-6-P and AMP concentrations increase. Incubation of human fetal liver explants with glucagon or insulin did not alter the concentrations of any of these intermediates. ATP, ADP, and Pi are inhibitors of human fetal liver glycogen synthase D-form activity, while G-6-P and AMP and Mg++ are stimulators. Ca++ at concentrations of less than 0.1 mM was found to stimulate glycogen synthase D activity. This effect of Ca++ was also observed in "physiologic" mixtures containing UDPG, G-6-P, ATP, ADP, AMP, Pi, and Mg++ at concentrations found either in liver in utero or in explants. 45Ca++ efflux from perifused (rat) fetal liver explants was stimulated by glucagon. These data provide a picture of the metabolite regulation of human fetal liver glycogen synthase activity in which the D-form may largely control glycogen synthesis in utero and hormonal effects on glycogen synthase may be induced by effects of Ca++ on the D-form.
Diabetes 1975 Dec
PMID:Hormonal regulation of glycogen metabolism in human fetal liver. II. Regulation of glycogen synthase activity. 81 98

The action of urinary and synthetic AcG (acceleratory factor from growth hormone) peptides was studied in vitro and in vivo. Both peptides were inactive alone and active only in the presence of insulin to enhance glucose uptake, glycogen synthesis, and glycogen synthase conversion to the active I form in vitro and in vivo. Responses were dependent on both peptide and insulin concentrations in a dose-dependent manner. No response was obtained with glucose alone, but the presence of glucose did enhance the response of insulin alone or insulin in the presence of peptide. It is concluded that both AcG peptides enhance either the effective concentration or the activity of insulin at its site of action.
Diabetes 1976 May
PMID:Actions of insulin-potentiating peptides on glycogen synthesis. 81 52

The metabolic syndrome (syndrome X) is characterised by an association of elevated insulin levels, a tendency to obesity of the android type, a disturbance of lipid metabolism with elevated triglyceride levels and commonly associated hypertension. The underlying common cause of this syndrome appears to be insulin resistance of the skeletal muscles, which is related in particular to the non-oxidative glucose utilization on the part of the muscle. The molecular cause of this syndrome has not been clarified, but a defect in the signal transduction chain between the insulin receptor and glycogen synthase is suspected. Epidemiological studies have shown that the metabolic syndrome may be considered a preliminary stage of manifest type II diabetes. In addition, it appears to play a major role in the development of cardiovascular complications in certain high-risk groups.
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PMID:[Pathophysiologic principles of metabolic syndrome. Consequences for early diagnosis and prevention]. 148 14

Although environmental factors are important triggers of non-insulin-dependent diabetes mellitus (NIDDM), heredity plays a major role in the pathogenesis of the disease. Insulin resistance manifested as impaired activation of glycogen synthase and thereby storage of glucose as glycogen in skeletal muscle is demonstrable early on in NIDDM relatives, suggesting that NIDDM could be an inherited muscle disease. On the other hand, insulin deficiency is almost unequivocally present before manifest diabetes develops. An intensive search for candidate genes for NIDDM has been initiated; so far it has not been possible to ascribe NIDDM to any alterations in the human genome. Given the heterogenous nature of NIDDM, its age-dependent penetrance and strong influence of environmental factors, it may not be fruitful to use NIDDM as an end-point in genetic linkage or association studies. It is more likely that DNA defects result in either insulin resistance or insulin deficiency, which in turn, can both lead to NIDDM. In accordance with the thrifty gene hypothesis, the insulin resistance gene has protected individuals during long periods of starving by storing energy as fat rather than as glycogen in muscle. The abundance of food in Western society has made this once protective gene a deleterious one, suggesting that these individuals are not equipped with the metabolic machinery to handle overeating.
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PMID:The etiology and pathogenesis of non-insulin-dependent diabetes. 148 43

Insulin resistant glucose metabolism is a key element in the pathogenesis of Type 2 (non-insulin-dependent) diabetes mellitus. Insulin resistance may be of both primary (genetic) and secondary (metabolic) origin. Before and after diet-induced improvement of glycaemic control seven obese patients with newly-diagnosed Type 2 diabetes were studied with the euglycaemic clamp technique in combination with indirect calorimetry and forearm glucose balance. Muscle biopsies were obtained in the basal state and again after 3 h of hyperinsulinaemia (200 mU/l) for studies of insulin receptor and glycogen synthase activities. Similar studies were performed in seven matched control subjects. Insulin-stimulated glucose utilization improved from 110 +/- 11 to 183 +/- 23 mg.m-2.min-1 (p less than 0.03); control subjects: 219 +/- 23 mg.m-2.min-1 (p = NS, vs post-diet Type 2 diabetes). Non-oxidative glucose disposal increased from 74 +/- 17 to 138 +/- 19 mg.m-2.min-1 (p less than 0.03), control subjects: 159 +/- 22 mg.m-2.min-1 (p = NS, vs post-diet Type 2 diabetic patients). Forearm blood glucose uptake during hyperinsulinaemia increased from 1.58 +/- 0.54 to 3.35 +/- 0.23 mumol.l-1.min-1 (p less than 0.05), control subjects: 2.99 +/- 0.86 mumol.l-1.min-1 (p = NS, vs post-diet Type 2 diabetes). After diet therapy the increase in insulin sensitivity correlated with reductions in fasting plasma glucose levels (r = 0.97, p less than 0.001), reductions in serum fructosamine (r = 0.77, p less than 0.05), and weight loss (r = 0.78, p less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vivo insulin action and muscle glycogen synthase activity in type 2 (non-insulin-dependent) diabetes mellitus: effects of diet treatment. 151 6


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