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)

1. Adipocytes isolated from rats 6--9 days after adrenalectomy had significantly increased sensitivity to insulin action against noradrenaline-stimulated lipolysis. In the presence of adenosine deaminase there was no significant difference in insulin sensitivity between cells from adrenalectomized and sham-operated rats. 2. Adipocytes from adrenalectomized rats had decreased lipolytic responses to all concentrations of noradrenaline and glucagon tested and a decreased lipolytic response to low but not high concentrations of corticotropin. There was no difference in lipolytic response to theophylline after adrenalectomy. Adenosine deaminase corrected the differences in response to noradrenaline and glucagon resulting from adrenalectomy. 3. In the presence of adenosine deaminase rates of lipolysis, after stimulation by high concentrations of noradrenaline, glucagon, corticotropin or theophylline, were the same in cells from adrenalectomized or sham-operated rats. 4. These findings and previously reported effects of adenosine and adrenalectomy on adipocyte function are discussed. It is proposed that changes in adipocyte hormone responsiveness after adrenalectomy may result from changes in adenosine metabolism or release.
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PMID:Alterations in response of rat white adipocytes to insulin, noradrenaline, corticotropin and glucagon after adrenalectomy. Correction of these changes by adenosine deaminase. 21 18

1. The inhibitory effect of adenosine on the glucagon-stimulated adenylate cyclase activity of liver plasma membranes, prepared from PVG/c rats, was potentiated by insulin. In the presence of EGTA, such potentiating effect of insulin was lost. 2. Calcium (10 microM) potentiated the inhibitory effects of both adenosine and insulin on the glucagon-stimulated cyclase activity. The synergestic effect of calcium + insulin required the presence of adenosine as judged from the use of adenosine deaminase. 3. Insulin had no significant inhibitory effect on the glucagon-stimulated cyclase activity of liver plasma membranes, prepared from young Wistar rats, unless both adenosine (50 microM) and calcium (10 microM) were added externally. 4. Results demonstrate an interaction of calcium and insulin at membrane level that, in the presence of adenosine, results in the inhibition of the glucagon-stimulated adenylate cyclase activity.
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PMID:Involvement of calcium in the inhibition by insulin of the glucagon-stimulated adenylate-cyclase activity. 44 85

Adipocytes from adrenalectomized rats nearly lost their lipolytic response to glucagon concomitant with a 90% decrease in the number of glucagon receptors per cell. Quantitative analysis of the relation between amount of cell-bound glucagon and hormone-stimulated lipolysis revealed that the ability of the remaining 10% of glucagon receptors to induce lipolysis was not impaired. Binding of the beta-adrenergic antagonist [3H]dihydroalprenolol and maximal lipolysis induced by (-)-isoproterenol, (Bu)2cAMP, 3-isobutyl-1-methylxanthine, and adenosine deaminase were reduced only 10 to 20% after adrenalectomy. Furthermore, glucagon-stimulated cAMP production was greatly decreased in adrenalectomized animals, but isoproterenol-stimulated cAMP production was not. Hydrocortisone replacement in adrenalectomized rats only partially prevented the loss of glucagon receptors and glucagon effects on both cAMP production and lipolysis. These findings suggest that lipolytic cascade distal to hormone receptors was not greatly impaired in adipocytes after adrenalectomy and that the unresponsiveness of these cells to glucagon was mostly due to a marked reduction in the number of glucagon receptors.
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PMID:Adrenalectomy-induced alterations in glucagon binding and lipolysis in isolated rat adipocytes. 169 90

The hyperfiltration action of atrial natriuretic factor (ANF) and glucagon is accompanied by an elevation of adenosine in urine. We employed adenosine deaminase to evaluate the role of intrarenal adenosine in glomerular hyperfiltration induced by those hormones. Administration of ANF (2 micrograms/kg/min) resulted in an increase in the glomerular filtration rate (GFR): 1.99 vs. 3.01 ml/min (p less than 0.02) which was associated with a rise of adenosine excretion 87 vs. 151 pmol/min. Similarly, infusion of glucagon (2 micrograms/kg/min) raised the GFR from 1.86 to 2.67 ml/min (p less than 0.02) and adenosine excretion from 105 to 178 pmol/min (p less than 0.02). Adenosine deaminase treatment (2 U x kg/min) did not change the basal GFR and renal plasma flow but decreased plasma adenosine level 0.64 vs. 0.18 microM (p less than 0.001) and its excretion: 93 vs. 13 pmol/min (p less than 0.01). In adenosine deaminase treated rats ANF dramatically increased the GFR from 2.09 to 4.18 ml/min (p less than 0.001) and fractional filtration from 0.29 to 0.57, and the increase persisted throughout infusion of ANF. Similarly, adenosine deaminase treatment potentiated and prolonged the effect of glucagon on the GFR. These data indicate that depletion in renal adenosine does not decrease the GFR and that adenosine is present at inhibitory concentrations only during hormonal stimulation of glomerular filtration. It is concluded that renal endogenous adenosine functions do restrain hyperfiltration induced by ANF or glucagon.
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PMID:Intrarenal adenosine prevents hyperfiltration induced by atrial natriuretic factor. 213 65

The effects of cold exposure (7 days, 5 degrees C) and cold acclimation (21 days, 5 degrees C) on the regulation of lipolysis were investigated in adipocytes isolated from epididymal fat pads of rats. Catecholamines stimulated lipolysis in an affinity sequence typical of the beta 1-adrenoceptor subtype: one-half maximum velocity (1/2 Vmax) isoproterenol (35 nM) much greater than 1/2 Vmax norepinephrine (150 nM) approximately 1/2 Vmax epinephrine (200 nM). Cold exposure markedly decreased the sensitivity (1/2 Vmax) and the responsiveness (Vmax) of the adipocytes to the lipolytic action of catecholamines. Addition of adenosine deaminase to fat cells isolated from cold-exposed rats did not normalize the lipolytic activity, suggesting that extracellular adenosine was not responsible for the obtunded lipolysis. This effect of cold exposure was transient as the lipolytic response to catecholamines was normal in fully cold-acclimated animals. Remarkably, the responsiveness of adipocytes to the lipolytic action of glucagon (200 nM) and adrenocorticotropic hormone (ACTH, 1 microM) progressively increased during cold acclimation. Adipocyte lipolytic response to dibutyryl adenosine 3',5'-cyclic monophosphate (cAMP) and theophylline was normal in cold-exposed rats, indicating that the lipolytic defect resides at an early step in the lipolytic cascade (pre-cAMP). On the other hand, the antilipolytic effect of insulin on norepinephrine-induced lipolysis significantly decreased during cold acclimation, particularly at physiological levels of insulin (nanomolar level). These results demonstrate that the transient decrease in the lipolytic action of catecholamines observed during cold acclimation is compensated by 1) an increased responsiveness of adipocytes to glucagon and ACTH and 2) by a decreased effectiveness of insulin to induce antilipolysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alterations in adipocyte response to lipolytic hormones during cold acclimation. 215 29

Incubation of rat adipocytes with 1 microM glucagon plus adenosine deaminase (5 micrograms/ml) inhibited maximally insulin-stimulated 3-O-methyl-D-glucose (MeGlc) transport by approximately 70%, concomitant with 30% and 55% decreases in insulin binding and cellular ATP, respectively. In contrast, under conditions where cellular ATP levels are well preserved (i.e. high albumin concentration in the medium), the inhibition of transport was reduced to about 30%, but that of insulin binding was not. Because depletion of the cellular ATP level by more than 60% by metabolic inhibitors induced 40% or more inhibition of insulin-stimulated MeGlc transport, the greater inhibition of the transport with the low albumin concentration appears to be caused in part by the secondary effect of ATP loss. The relationship between the amount of cell-bound insulin and hormone-stimulated transport activity showed that glucagon does not modulate insulin action at the step of insulin binding to its receptors. Furthermore, glucagon suppressed insulin-stimulated MeGlc transport, mainly through an attenuation of the hormone-induced increase in maximum velocity. The data show that glucagon modulates the process of signal transduction of insulin action. However, the possibility that glucagon directly modulates the process of translocation or the intrinsic activity of the glucose transporters cannot be eliminated.
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PMID:Glucagon inhibits insulin activation of glucose transport in rat adipocytes mainly through a postbinding process. 220 31

The inhibition of insulin-stimulated glucose transport by lipolytic agents was studied in isolated rat adipose cells. Two different mechanisms for the inhibition of glucose transport by lipolytic hormones and agents were distinguished by use of the antilipolytic agent prostaglandin E2 (PGE2). The inhibition of glucose transport induced by lipolytic hormones such as glucagon, catecholamines or ACTH in the presence of adenosine deaminase was antagonized by PGE2. In contrast, inhibition of hexose transport by alkylxanthines was only partially (20-30%) attenuated by PGE2, although the eicosanoid had antagonized cyclic AMP accumulation and stimulation of lipolysis in response to all tested lipolytic agents. The inhibition of glucose transport by IBMX was immediate, whereas the lipolytic hormones (isoprenaline and ACTH) exhibited a latency of 2-3 min. In addition, the inhibition induced by the lypolytic hormones disappeared after cooling of the cells to 22 degrees C, at which temperature IBMX was still inhibitory. Thus, the PGE2-sensitive component of the effect of lipolytic agents on glucose transport appears to be mediated by adenylate cyclase or its subunits Ns/Ni. The PGE2-insensitive effect of alkylxanthines probably reflects a direct interaction of the agents with a regulatory site at the transporter or a related protein.
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PMID:Prostaglandin E2 differentiates between two forms of glucose transport inhibition by lipolytic agents. 244 31

Thyroid hormones are required for maximal stimulation of lipolysis of fat cells by catecholamines corticotropin and glucagon. Several reasons have been given to explain this fact, but all of them are controversial and still not definitive. It has been proposed that adenosine is an important factor in the low lipolytic response to catecholamines by fat cells of hypothyroid rats. This proposal has been studied with corticotropin. There has been no recuperation of maximal lipolysis when fat cells of hypothyroid rats were stimulated by corticotropin in the presence of adenosine deaminase.
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PMID:Lipolysis by corticotropin in fat cells from hypothyroid rats. Effect of adenosine deaminase. 256 27

Glucose transport in hamster adipocytes and its modulation by insulin and isoprenaline was characterized with the aid of the non-metabolizable hexose 3-0-methylglucose. Insulin stimulated the initial uptake rates by an increase in Vmax of the transport without any detectable change in Km. The hormone concentration producing half maximal stimulation was identical to that required in rat adipocytes. However, hamster adipocytes were much less responsive to insulin (3-fold stimulation as compared to a 12-fold stimulation in rat fat cells), and maximal transport rates were 10-fold lower than that observed in rat adipocytes. Accordingly, the number of glucose transporters, as assessed by glucose-inhibitable cytochalasin-B binding, was considerably lower in plasma membranes of hamster adipocytes. Moreover, no transporters were detected in the low-density microsomes which in insulin-sensitive cell types represent the intracellular pool of recruitable glucose transporters. The relative insulin resistance of the hamster fat cells may therefore be due to a depleted pool of intracellular glucose transporters. In the presence of adenosine, the beta-adrenoceptor agonist isoprenaline produced a moderate stimulation of the basal transport rate which was antagonized by the alpha 2-agonist clonidine. If adenosine deaminase was added in order to remove endogenous adenosine, isoprenaline inhibited the insulin-stimulated transport by 50%. In contrast to the stimulatory effects of insulin and isoproterenol, the inhibitory effect of the catecholamine was reversed by cooling the cells to 22 degrees. Glucagon produced a comparable inhibition, suggesting that the inhibitory effect was mediated by adenylate cyclase or its regulatory subunits.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of glucose transport in hamster adipocytes by insulin and by beta- and alpha 2-adrenoceptor agonists. 287 8

Patients with tumors secreting vasoactive intestinal peptide (VIP) often develop hyperglycemia and glucose intolerance. Although VIP has been reported to increase glucose output by the liver, the concentration required for this effect greatly exceeds that observed clinically. We therefore investigated the effects of VIP on insulin-stimulated glucose transport in isolated adipocytes. Inhibition of insulin action was observed at a concentration of 1 ng/ml VIP with half-maximal inhibition at approximately 20 ng/ml. 125I-VIP bound to specific high-affinity sites on the adipocytes. Fifty percent inhibition of binding occurred at a concentration of unlabeled VIP of approximately 10 ng/ml and was not affected by insulin, glucagon, or growth hormone. As we have observed previously with glucagon and catecholamines, inhibition of insulin action by VIP was observed only when accumulation of adenosine in the incubation medium was prevented by addition of adenosine deaminase. Under these conditions VIP markedly increased cellular cAMP levels. A good correlation was observed among VIP binding, inhibition of insulin-stimulated glucose transport, and cellular concentrations of cAMP. The results suggest that inhibition of insulin action in adipose tissue contributes to the hyperglycemic effect of VIP. Together, with our published findings on glucagon and catecholamines, these results support the hypothesis that counterregulatory hormones inhibit insulin action by increasing cellular concentrations of cAMP.
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PMID:Vasoactive intestinal peptide inhibits insulin-stimulated glucose transport in rat adipocytes. 300 79


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