Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The influence of glucosamine on beta-cell response characteristics of collagenase-isolated rat islets was determined. Groups of islets were incubated for 2 h with myo-[2-3H]inositol to label their phosphoinositide (PI) pools. Also included in some experiments was glucosamine (0.1-10 mM). Subsequently, these islets were perifused, and their responses to 10 mM glucose, 10 mM alpha-ketoisocaproate (KIC), and 1 microM of the phorbol ester phorbol 12-myristate 13-acetate were assessed. Increases in PI hydrolysis were monitored during the perfusion by measuring fractional efflux rates of [3H]inositol. The accumulation of inositol phosphates after the perifusion was also determined. In other experiments, the use of 10 mM glucose was measured after a 2-h exposure to 5 or 10 mM glucosamine. Finally, the ability of glucosamine itself to augment release and activate PI hydrolysis was assessed. The following observations were made. 1) A prior 2-h exposure to 5-10 mM glucosamine resulted in parallel dose-dependent impairments in 10 mM glucose-induced insulin release and PI hydrolysis. 2) Glucosamine (5-10 mM) also impaired the subsequent response to alpha-ketoisocaproate (KIC). Parallel deficits in KIC-induced PI hydrolysis were noted under conditions where insulin secretion was impaired. 3) Under several conditions where glucosamine impaired glucose-induced secretion, it had no adverse effect on phorbol 12-myristate 13-acetate-induced release. 4) The desensitizing effect of 10 mM glucosamine on 10 mM glucose-induced release and PI hydrolysis developed within 30 min of exposure to it. 5) Glucosamine (5-10 mM) preexposure had no adverse effect on the use of 10 mM glucose by desensitized islets. 6) Short term (5-min) exposure to glucosamine (10 mM) alone stimulated PI hydrolysis, while a 30-min exposure to the same level of the hexosamine depressed it. 7) In the presence of 0.25 microM forskolin, 10 mM glucosamine also had a transient stimulatory effect on insulin release. These findings support the concept that the acute and chronic effects of glucosamine on the beta-cell result at least in part from its ability to influence PI hydrolysis in islets.
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PMID:Glucosamine-induced desensitization of beta-cell responses: possible involvement of impaired information flow in the phosphoinositide cycle. 131 76

This study was undertaken to investigate the long-term effects of different substrates, in particular glucose, on the regulation of islet RNA metabolism and the relationship of this regulation to the metabolism and insulin production of the islet B-cell. For this purpose collagenase-isolated mouse islets were used either in the fresh state or after culture for 2 or 5 days in RPMI 1640 plus 10% calf serum supplemented with various test compounds. Islets cultured with 16.7 mM glucose contained more RNA than those cultured with 3.3 mM glucose. Culture of islets in glucose at low concentrations inhibited glucose-stimulated RNA synthesis and this inhibitory effect was reversed by prolonged exposure to high glucose concentrations. Culture with 10 mM leucine and 3.3 mM glucose or with 10 mM 2-ketoisocaproate and 3.3 mM glucose increased the total RNA content of islets as compared to that of islets cultured with 3.3 mM glucose alone. Islets cultured with 5 mM theophylline maintained a high RNA content in the presence of 3.3 mM glucose. Theophylline also increased the islet RNA content when added together with 16.7 mM glucose, as compared to 16.7 mM glucose alone. Theophylline probably exerted this effect by decreasing the rate of RNA degradation. Changes in islet RNA metabolism showed a close correlation to changes in islet total protein biosynthesis, whereas islet (pro)insulin biosynthesis and insulin release exhibited different glucose-dependency patterns. The response of islet oxygen uptake to glucose was similar to that of islet RNA and protein biosynthesis. It is concluded that the RNA content of the pancreatic islets is controlled at the levels of both synthesis and degradation. Glucose stimulates the RNA synthesis and inhibits its degradation. Moreover, the results suggest that regulation of RNA synthesis may be mediated through islet metabolic fluxes and the cAMP system.
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PMID:Regulation of RNA metabolism in relation to insulin production and oxidative metabolism in mouse pancreatic islets in vitro. 242 38

Preincubation of collagenase-isolated rat islets for 150 min with 100 U/ml purified human interleukin 1 (IL-1) altered their ability to secrete insulin. Whereas basal release rates with 4 mM glucose were comparable in control and IL-1-treated islets, both the first and second phases of release in response to 20 mM glucose were significantly reduced from IL-1-treated tissue. IL-1 pretreatment also impaired the secretory response to the combination of 100 nM cholecystokinin plus 7 mM glucose. However, the secretory response to 10 mM alpha-ketoisocaproate was comparable in control and IL-1-pretreated islets. Reducing the IL-1 exposure time to 60 min was accompanied by an augmented first phase of release to 20 mM glucose. Second phase secretion was diminished. The use of glucose measured after the perifusion was similar in control and IL-1-treated islets. Similar to other compounds that adversely impact on beta-cell viability, the inhibitory effect of IL-1 on release may presage a cytotoxic action of monokine.
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PMID:Interleukin 1 inhibits insulin secretion from isolated perifused rat islets. 353 Aug 42

Islets of Langerhans were isolated by collagenase digestion from the pancreas of a 39 year-old female renal transplant donor. The islets were subjected to three consecutive periods of tissue culture, after each of which they were incubated in vitro with various agents whose effects on insulin release from islets of laboratory animals have previously been established. After the first culture period, the basal insulin secretion rate of 5.2 microunits/islet/h seen with 2 mmol/l glucose was increased approx. 5-fold on raising the glucose concentration to 20 mmol/l. The islets retained the insulin-secretory response to 20 mmol/l glucose throughout the period of study. Insulin secretion was also stimulated by mannose, leucine, alpha-ketoisocaproate, dihydroxyacetone and 3-hydroxybutyrate, but not by fructose or N-acetyl-glucosamine. Fructose however increased insulin release in the presence of 4 mmol/l glucose. Caffeine elicited insulin release in the absence of glucose and enhanced insulin release in response to 10 mmol/l glucose. Glucose-stimulated insulin release was inhibited by trifluoperazine (25 mumol/l).
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PMID:Insulin release from human pancreatic islets in vitro. 699 14

The hypothesis that a defect in glucose sensing by islets of fa/fa Zucker rats contributes to hyperinsulinemia in these animals was tested. Islets from lean and fa/fa rats were isolated by collagenase digestion and step-density gradient purification and then cultured overnight in Dulbecco's modified Eagle's medium containing 12.5 mM glucose. Obese rat islets were more sensitive to hypoglycemic glucose levels with half-maximal effective concentration (EC50) of 5.6 mM compared with an EC50 of 8.2 mM for lean rat islets. In contrast, responsiveness of both phenotypes to alpha-ketoisocaproate and quinine was similar. Mannoheptulose did not inhibit insulin secretion from fa/fa islets, although inhibitors of later events in the stimulus-secretion coupling pathway were normally inhibited by iodoacetate and diazoxide. Finally, starvation in vivo and culture of islets in low glucose concentrations (5 mM) in vitro both decreased glucose-stimulated insulin secretion from lean but not fa/fa rat islets. We conclude that fa/fa rat islets have an exaggerated insulin response to hypoglycemic stimuli, possibly as a result of a defect in B-cell glucokinase function.
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PMID:Evidence for defective glucose sensing by islets of fa/fa obese Zucker rats. 851 32

Islets from fed and 24-h-fasted rats were studied immediately after collagenase isolation. (1) After a 24-h fast, the insulin secretory responses to 8 mM glucose measured during perifusion were reduced by more than 90% from islets of fasted donors. (2) Increasing glucose to 11 or 27.5 mM resulted in enhanced insulin secretion from islets of fasted animals. (3) Fasting did not reduce islet insulin content. (4) Responses to 8 or 27.5 mM glucose were not affected if fatty acid-free albumin was used during the perifusion. (5) Inclusion of alpha-ketoisocaproate (5 mM), monomethyl succinate (10 mM) or carbachol (10 microM) significantly amplified insulin release from fasted islets in the simultaneous presence of 8 mM glucose. (6) Phospholipase C activation by glucose, carbachol or their combination was not adversely affected by fasting. (7) The response to the protein kinase C activator, phorbol 12-myristate 13-acetate (500 nM), was reduced by about 60% after fasting. (8) Extending the fast to 48 h resulted in a severe decline in response to 11 mM glucose; however, the further addition of 10 microM carbachol still enhanced release from these islets. The results confirm that caloric restriction impairs islet sensitivity to glucose stimulation and that protein kinase C may be involved in the reduction of glucose-induced insulin release from these islets. The activation of phospholipase C by cholinergic stimulation may contribute to the maintenance of insulin secretion from calorically restricted animals. These results also demonstrate that free fatty acids are not essential for glucose to evoke secretion from isolated islets of fasted donors.
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PMID:Glucose-induced insulin secretion from islets of fasted rats: modulation by alternate fuel and neurohumoral agonists. 1085 89

During a dynamic perifusion, 20 mmol/L glucose, 20 mmol/L alpha-ketoisocaproate (KIC) or 20 mmol/L methyl pyruvate (MP) stimulate biphasic insulin secretory responses from collagenase-isolated rat islets. Peak first-phase insulin responses were comparable for all 3 nutrient agonists. The largest second-phase insulin secretory response was evoked by 20 mmol/L glucose (30-fold above basal release rates), and this response was more sustained than that observed with either 20 mmol/L KIC or 20 mmol/L MP. When mouse islets were perifused under similar conditions, KIC stimulated the largest first-phase insulin response, while comparable acute insulin secretion rates were obtained with glucose- or MP-stimulated islets. In contrast to rat islets, the sustained second phase of insulin secretion from mouse islets was minimal regardless of the nutrient secretagogue used. This anomalous response of mouse islets as compared with rat islets could not be ascribed to any obvious difference in the glucose usage rate or insulin content between these 2 species. Glucose, KIC, or MP stimulated significant increases in 3H-inositol phosphates in rat islets. Significantly smaller increases were measured in mouse islets. Comparative Western blot analyses showed pronounced species differences in the expression of phospholipase Cbeta1 (PLCbeta1), PLCbeta2, PLCbeta3, and PLCdelta1 but not PLCgamma1 or protein kinase Calpha (PKCalpha) between rat and mouse islets. PLCbeta4 or PLCdelta2 could not be identified in either species. These findings are consistent with the concept that the underexpression of the nutrient-activated PLC isozyme may account for the minimal inositol phosphate (IP) and second-phase insulin secretory response from mouse islets.
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PMID:Insulin secretion, inositol phosphate levels, and phospholipase C isozymes in rodent pancreatic islets. 1101 97

We examined the effects of phosphatidylinositol 3-kinase (PI3K) inhibition by wortmannin or LY294002 on glucose-induced secretion from mouse islets. Islets were collagenase isolated and perifused or subjected to Western blot analyses and probed for insulin receptor-signaling components. In agreement with previous studies, mouse islets, when compared with rat islets, were minimally responsive to 10 mM glucose stimulation. The inclusion of 50 nM wortmannin or 10 microM LY294002 significantly amplified 10 mM glucose-induced release from mouse islets. The effect of wortmannin was abolished by the calcium channel antagonist nitrendipine or by lowering the glucose level to 3 mM. Wortmannin had no effect on 10 mM alpha-ketoisocaproate-induced secretion. In contrast to its potentiating effect on islets from CD-1 mice, wortmannin had no effect on 10 mM glucose-induced release from ob/ob mouse islets. Western blot analyses revealed the presence of the insulin receptor, insulin receptor substrate proteins 1 and 2 and PI3K in CD-1 islets. These results support the concept that a PI3K-dependent signaling pathway exists in beta-cells and that it may function to restrain glucose-induced insulin secretion from beta-cells. They also suggest that, as insulin resistance develops in peripheral tissues, a potential result of impaired PI3K activation, the same biochemical anomaly in beta-cells promotes a linked increase in insulin secretion to maintain glucose homeostasis.
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PMID:Inhibitors of phosphatidylinositol 3-kinase amplify insulin release from islets of lean but not obese mice. 1217 63