Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038187 (starvation)
 24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There is a positive correlation between lactate output and insulin secretion but there is no correlation between total islet PEP content and insulin secretion and no correlation between cAMP production and insulin release. Neither PEP or cAMP seem to be primary triggers to insulin release but may rather act as positive modulators of insulin secretion. Potentially, PEP can maintain an elevated cytoplasmic Ca++ concentration by inhibiting Ca++ uptake in the mitochondria, increase the concentration of cAMP in the beta-cells by activating the adenylate cyclase (11) and change the phosphorylation state of the plasma membrane (12). The possible trigger effect of an increased glycolytic flux on insulin secretion may be mediated perhaps via changes in the NADH/NAD+ ratio (13). As regards the mechanism of potentiation of insulin release: in the fed state potentiation may be related to an increased glycolytic flux whereas this is not the case during starvation. Here enhancement of cAMP may play a role.
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PMID:The role of phosphoenolpyruvate and lactate production in insulin secretion. 22 40

In animal tissues the pyruvate dehydrogenase complex is regulated by product inhibition and by a phosphorylation-dephosphorylation cycle catalysed by a kinase and a phosphatase. Physiologic and molecular aspects of this regulation are reviewed, and the results of recent studies are described. Insulin deficiency in the rat (diabetes or starvation) is shown to inhibit the conversion of inactive (phospho-) complex into active (dephospho-) complex by the phosphatase by an effect on the substrate for the phosphatase (phosphorylated complex). This change is stable and persists during isolation, incubation, and extraction of mitochondria or purification of phosphorylated complex. The subunit ratios in the purified pig heart pyruvate dehydrogenase complex and the stoichiometry of phosphorylations have been determined by radioamidination and incorporation of 32P. The ratios of decarboxylase tetramer (alpha 2, beta 2) : dihydrolipoyl acetyltransferase monomer : dihydrolipoly dehydrogenase monomer were 1:1:0.5. Inactivation of the complex was accomplished by incorporation of a single phosphate into one alpha subunit of the decarboxylase tetramer. Two further phosphates are then incorporated and these additional phosphorylations inhibit reactivation of the complex by the phosphate. It is suggested that multisite phosphorylations may inhibit reactivation of the complex by the phosphatase in diabetes and in starvation.
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PMID:Regulation of pyruvate dehydrogenase by insulin action. 23 84

The enhanced protein degradation associated with diabetes and starvation is fundamentally different from normal protein catabolism. In normal eukaryotic cells large molecular weight proteins tend to be degraded more rapidly than small proteins, acidic proteins tend to be degraded more rapidly than neutral or basic proteins, and glycoproteins tend to be degraded more rapidly than nonglycoproteins. All three of these general correlations are absent or markedly reduced in liver and muscle of diabetic and starved rats. In contrast, the correlations between proteins size and half-life, between protein net charge and half-life, and between protein carbohydrate content and half-life are not affected in brain of diabetic or starved animals. These results suggest that diabetes and starvation alter the general characteristics of intracellular protein degradation in target tissues of insulin. Degradation of serum proteins is also affected in diabetes and starvation. In normal animals a general correlation exists between isoelectric points of serum proteins and their degradative rates. This relationship is abolished in diabetes and starvation, as it is among liver and muscle proteins. The implications of our findings are discussed with regard to possible mechanisms of the enhanced protein breakdown.
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PMID:General characteristics of protein degradation in diabetes and starvation. 27 54

In chick embryo fibroblast cultures the 15- to 30-fold enhancement of D-glucose uptake observed when cells are starved of glucose for 24 hours is not duplicated for derivatives of glucose that compete effectively for uptake and have generally been considered to use the same carrier. 2-deoxy-D-glucose, D-mannose, D-galactose and D-glucosamine are derepressed progressively less sharply in that order with glucosamine uptake never more than doubled by starvation. D-glucose at a concentration of 5.5 mM in the 24-hour conditioning medium is a strong "repressor" resulting in low "transport" behavior for each of the five sugars cited. D-glucosamine is equally effective at the same concentration. A 10-fold reduction in the concentration of glucosamine (0.55 mM) allows for the escape from repression of mannose, glucose, and deoxyglucose uptake while the others remain repressed. Mannose uptake escapes as well when the glucose concentration in the "conditioning" medium is similarly reduced. Under certain conditions of starvation and cell density dramatic effects of supplemental stimulation by insulin can be achieved. Insulin withdrawal interrupts the supplemental stimulation process. Cycloheximide, actinomycin D and cordycepin block both non-insulin and insulin-induced derepression. Short exposure (15-30 minutes) of 24-hour starved cells to glucose (5.5 mM) reduces glucose sharply but does not affect 3-O-methyl glucose uptake. If the exposure is to 2-deoxyglucose (5.5 mM) further derepression of glucose uptake results.
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PMID:Transport enhancement and reversal: glucose and 3-O-methyl glucose. 30 Nov 42

A highly sensitive double isotope method for the simultaneous determination of serotonin, dopamine, noradrenaline and adrenaline has been developed. Advantages and limitations of the method are discussed. The mentioned biogenic amines are all present in isolated pancreatic islet tissue from albino mice in concentrations ranging from approximately 5-30 micronmol per kg wet weight (0.8-5 X 10(-3) pmol/ng DNA). A somewhat higher content of these amines, especially dopamine, was found in pancreatic acinar tissue. The hypothesis that the impaired glucose-induced insulin secretion during starvation partly is caused by an increased content of biogenic amines in the pancreatic islets was not supported by our experiments which showed an unchanged islet content of these amines after 48 h starvation.
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PMID:Simultaneous determination of the content of serotonin, dopamine, noradrenaline and adrenaline in pancreatic islets isolated from fed and starved mice. 33 61

In the first part of the study oral glucose tolerance tests (GTT) or insulin tolerance tests (ITT) were performed in 22 lean and 22 obese nondiabetics before and after fasts of at least 6 days' duration. Deterioration of glucose tolerance was greater in lean than in obese individuals. Plasma levels of factors known to influence glucose tolerance (glucagon, growth hormone, free fatty acids, ketones) were significantly higher in fasting lean than in fasting obese subjects. Furthermore, delayed insulin rise (GTT) and decreased insulin sensitivity (ITT) were observed after starvation in lean subjects but not in the obese, which could explain the greater deterioration of glucose tolerance in the lean population. In the second part of the study glucose and fructose tolerance were compared during 4-hour infusions of these substrates (0.5 g/kg/h) in 8 normal subjects before and after two 4-day fasts. After starvation, glucose as well as fructose infusion resulted in plasma levels of the infused hexose significantly higher than in control, and the rise in plasma lactate and pyruvate was delayed. These results contradict the view widely held in the literature, that fructose metabolism remains unimpaired in the fasting state.
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PMID:[Carbohydrate intolerance during complete fasting]. 33 74

beta-Cell-rich pancreatic islets were microdissected from ob/ob-mice and loaded with 45Ca in the presence of 3 or 20 mM glucose. Subsequent measurements of the effluxes of radioactivity in a perifusion apparatus revealed that the slowly exchangeable 45Ca taken up in response to glucose was also preferentially mobilised by this compound. Glucose stimulation of 45Ca efflux was abolished after omission of calcium from the perifusion medium but persisted when insulin release was inhibited by prolonged starvation, addition of L-epinephrine or lowering of temperature. The presence of a stimulated efflux of radioactivity even under conditions of inhibited insulin release indicates that sources other than beta-granules ejected by exocytosis contribute to the additional 45Ca released after raising the glucose concentration of the perifusion medium. It is suggested that the beta-cell depolarisation as such may account for part of the 45Ca mobilised by glucose.
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PMID:Calcium and pancreatic beta-cell function. 2. Mobilisation of glucose-sensitive 45Ca from perifused islets rich in beta-cells. 33 59

Insulin binding to monocytes and insulin action in vivo was examined in 14 obese subjects during the postabsorptive state and after starvation and refeeding. Tissue sensitivity to insulin was evaluated with the euglycemic insulin clamp technique. The plasma insulin concentration is acutely raised and maintained 100 muU/ml above the fasting level, and plasma glucose is held constant by a variable glucose infusion. The amount of glucose infused is a measure of tissue sensitivity to insulin and averaged 285+/-15 mg/m(2) per min in controls compared to 136+/-13 mg/m(2) per min in obese subjects (P <0.001). (125)I-Insulin binding to monocytes averaged 8.3+/-0.4% in controls vs. 4.6+/-0.5% in obese subjects (P < 0.001). Insulin binding and insulin action were highly correlated in both control (r = 0.86, P < 0.001) and obese (r = 0.94, P < 0.001) groups. Studies employing tritiated glucose to measure glucose production indicated hepatic as well as extrahepatic resistance to insulin in obesity. After 3 and 14 days of starvation, insulin sensitivity in obese subjects decreased to 69+/-4 and 71+/-7 mg/m(2) per min, respectively, whereas (125)I-insulin binding increased to 8.8+/-0.7 and 9.0+/-0.4%. In contrast to the basal state, there was no correlation between insulin binding and insulin action. After refeeding, tissue sensitivity increased to 168+/-14 mg/m(2) per min (P < 0.001) whereas insulin binding fell to 5.0+/-0.3%. We conclude that (a) in the postabsorptive state insulin binding to monocytes provides an index of in vivo insulin action in nonobese and obese subjects and, (b) during starvation and refeeding, insulin binding and insulin action changes in opposite directions suggesting that postreceptor events determine in vivo insulin sensitivity.
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PMID:Insulin binding to monocytes and insulin action in human obesity, starvation, and refeeding. 700 82

Starvation of Wistar rats induced a shift of glucose threshold for insulin secretion of isolated islets above 5 mM, which can be restored by pretreatment of the tissue with glucose, mannose, glyceraldehyde, an theophylline, but not with acetylcholine or lactate. The improved insulin secretion is not connected with an enhanced glucose utilization.
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PMID:Insulin secretion reactivation of pancreatic islets from starved rats in vitro. 35 95

To test further the hypothesis that ribonucleosides stimulate insulin secretion and biosynthesis by producing metabolic signals, the effects of starvation on adenosine-stimulated insulin production and the oxidation of adenosine by isolated mouse pancreatic islets were examined. No direct correlation was found between the metabolic flux and insulin secretion, since the starvation-induced impairment of the adenosine-stimulated insulin secretion was accompanied by an increased rate of adenosine oxidation. Adenosine-stimulated insulin biosynthesis was, however, unaffected by starvation.
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PMID:Opposite effects of starvation on oxidation of [14C]adenosine and adenosine-induced insulin release by isolated mouse pancreatic islets. 36 53


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