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: EC:3.4.24.3 (collagenase)
18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Islets of Langerhans were isolated from four human kidney donors, aged 16 to 21 years by the collagenase method described for isolation of rodent islets. So far the human islets have been kept in tissue culture, without attachment, in medium RPMI 1640 supplemented with 10% calf serum for more than 9 months, with preservation of the ability to release insulin in response to glucose stimulation. Replacement of calf serum with serum from normal human subjects did not affect B-cell survival, but resulted in elevated insulin values partly due to lower insulin degrading activity. Thus the described technique presents a valuable tool for studying chronic effects of metabolites and hormones on islet function, as well as for islet storage prior to transplantation into humans.
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PMID:Preservation of beta cell function in adult human pancreatic islets for several months in vitro. 36 59

We tested the effects of vitamin A, a membrane surface-active agent, on glucose (16.7 mM)-induced biphasic insulin release from collagenase-isolated rat islets. Also, efforts were made to correlate the effects of vitamin A with glucose oxidation. Vitamin A (10(-4) M) inhibited first- and second phase insulin release; 10(-5) M vitamin A inhibited second phase release only and to a lesser extent than that observed with 10(-4) M vitamin A; and 10(-6) M vitamin A had no effect. Vitamin A (10(-7) M) stimulated biphasic insulin release. Exposure to high glucose (27.8 mM) overcame the effects of 10(-4) M vitamin A on first phase release, but not on second phase release of insulin. Exposure to 10(-5) M hydrocortisone opposed the effects of 10(-4) M vitamin A on both phases of insulin release. Vitamin A (10(-4) and 10(-5) M) inhibited glucose oxidation by islets, as measured by the production of 14CO2 from [14C]glucose. The effects of vitamin A on insulin release were dissociated in part from those effects on glucose oxidation, in that hydrocortisone opposed the effect of vitamin A on insulin release but not on glucose oxidation. The effects of vitamin A on insulin secretion can best be explained by the interaction of vitamin A at multiple sites affecting the membrane and intracellular glucose oxidation.
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PMID:The effects of vitamin A on insulin release and glucose oxidation in isolated rat islets. 37 52

To assess the effect of age on beta-cell insulin release, collagenase-isolated islets of Langerhans were obtained from rats aged 2--18 mo and incubated with increasing concentrations of glucose. Similar islets were analyzed for insulin content or subjected to morphometric measurements to identify both the number of beta-cells and the volume of beta-granules per islet. In parallel studies, the islet content of intact pancreata was also determined. The results showed that beta-cell number increased from 2,300 t0 5,000 cells as rats aged from 2 to 18 mo and islet insulin content doubled. However, glucose-stimulated insulin release decreased progressively with age, and this was especially striking when considered in terms of the increase in number of beta-cells/islet; e.g., mean (+/- SEM) insulin secretion (nanounits per minute per beta-cell) of islets incubated with 450 mg/dl of glucose was 1.3 (+/- 0.02), 1.0 (+/- 0.1), 0.4 (+/- 0.05), and 0.3 (+/- 0.01), respectively for 2-, 6-, 12-, and 18-mo-old rats. Thus, insulin secretion per beta-cell was decreased, despite increased stores of insulin per cell. These findings demonstrate that the aging process leads to a profound defect in glucose-stimulated insulin release from the beta-cell. Whether this is a global secretory defect, or solely a failure of the beta-cell to respond to glucose, remains to be defined.
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PMID:Effect of age on glucose-stimulated insulin release by the beta-cell of the rat. 37 46

(Pro-)Insulin biosynthesis ([3H]leucine incorporation) and insulin secretion were studied in collagenase-isolated rat islets incubated for 3 hours at 1 and 2 mg/ml glucose in the presence of gastric inhibitory polypeptide (GIP). GIP augmented [3H]leucine incorporation and release of insulin at both glucose concentrations. In a second series of experiments it was found that an amino acid mixture was without influence on the insulotrophic action of GIP. Combined stimulation of insulin release by GIP and glucagon did not result in higher insulin output than observed in the presence of each substance alone. Thus GIP, in constrast to many other gastrointestinal peptides, however similar to glucagon, enhances not only release but also biosynthesis of insulin. This insulinotrophic action can be observed already at a glucose concentration of 1 mg/ml. The results underline the outstanding role which GIP appears to play in the regulation of beta-cell function.
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PMID:Stimulation of (Pro-)insulin biosynthesis and release by gastric inhibitory polypeptide in isolated islets of rat pancreas. 38 25

A subpopulation (n = 27) of normoglycaemic Sand rats was characterized as carbohydrate-intolerant by intraperitoneal glucose loading. Five of these animals did not show any rise in peripheral insulin concentrations when injected with glucose. However, when isolated by collagenase digestion their islets still exhibited a significant enhancement of insulin secretion in response to glucose, glyceraldehyde, mannose and theophylline. The in vitro secretory responses were comparable to those of islets from carbohydrate-tolerant Sand rats. The results underline the importance of the natural environment for the B-cell response in vivo.
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PMID:Apparent discrepancy between the insulin secretory responses in vivo and in vitro in carbohydrate-intolerant Sand rats. 39 3

Rats trained to the "8 + 16" controlled feeding cycle where food is only available for the first 8 h of the 12 h dark period exhibit a pronounced diurnal rhythm of hepatic glycogen metabolism. Glycogen is stored within the liver parenchymal cells during the dark period and subsequently mobilized for energy production during the light period. Hepatocytes, isolated by collagenase perfusion, from livers of such animals have differing capacities for glycogen synthesis when incubated with glucose. Cells prepared at the end of the 16 h period without food have very little capacity for synthesis compared with much higher rates obtained in cells obtained during the feeding period. Cells obtained from liver containing a large glycogen concentration produce a net breakdown of glycogen during incubations with glucose, however experiments using radioactively labelled glucose indicate that synthesis does occur in these cells. The changes in the capacity of the cells for glycogen synthesis appear to be due, in part, to changes in the percentage of the cell population involved in synthesis and in the activity of glycogen synthetase a. Attempts of influence the rate of glycogen synthesis at any time of day with insulin or dexamethasone were unsuccessful.
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PMID:The influence of diurnal rhythms of carbohydrate metabolism in adult rat liver on the metabolic characteristics of isolated liver parenchymal cells. 40 61

Transplantation of isolated islets of Langerhans has been suggested as a treatment of certain forms of diabetes mellitus. Injection of 200-400 syngeneic pancreatic islets isolated by collagenase digestion into the pancreas or submandibular gland of diabetic rats rendered most of the hosts nearly normoglycaemic. Blood glucose determinations were monitored for 2 months after islet transplantation. Although intrapancreatic and intrasubmandibular implantation reduced hyperglycaemia and polyuria in these animals, consistent normal values were rarely achieved.
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PMID:Experimental pancreatic islet transplantation. 40 49

Parenchymal cells from adult rat liver, isolated by a collagenase perfusion technique, have been maintained in primary culture and a detailed study on carbohydrate metabolism carried out over the initial 48-hour culture period. The glucose concentration of the medium exerts a major influence on glycogen accumulation by the cells. Insulin, particularly at high glucose concentrations, stimulates glycogen biosynthesis, whereas glucagon prevents glycogen accumulation. Dexamethasone was without effect on glycogen metabolism. Glucose appears to stimulate glycogen accumulation by activation of glycogen synthetase enzyme. However, there is a gradual loss of synthetase activity throughout the culture period. Similar decreases in activity were noted for pyruvate kinase, aldolase and hexokinase. Glucose, insulin and dexamethasone were unable to prevent these decreases in enzyme activity. Foetal bovine serum contains fructose and this hexose appears to be the factor in serum which is responsible for the activation of glycogen accumulation in the presence of physiological glucose concentrations. The lactic acid content of the serum may also stimulate glycogen accumulation. In general, there is a gradual loss of the pattern of carbohydrate metabolism typical of differentiated hepatocytes during the culture period.
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PMID:Effects of hormones and serum on glycogen metabolism in adult rat liver parenchymal cell primary cultures. 40 98

Pancreatic islets from adult donors were transplanted intraportally into 32 inbred, adult AGUS rats with streptozotocin diabetes. The islets were isolated with collagenase and counted individually. A relationship between the number of islets transplanted and the metabolic response could be demonstrated. Transplantation of less than 200 islets did not change the diabetic state. Rats receiving 200-220 improved, while recipients of 240-800 islets all exhibited normal values of blood glucose, plasma insulin, urine volume and urine glucose. The glucose tolerance, however, remained abnormal in all animals.
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PMID:Metabolic response to isologous transplantation of small numbers of isolated islets of Langerhans in the rat. 41 21

Renal gluconeogenesis was studied in suspended tubule fragments isolated by collagenase treatment of rat kidney cortices. Angiotensin II increased glucose formation from pyruvate, lactate, and to a lesser extent from oxoglutarate and glutamine, but not from other substrates such as malate, succinate, dihydroxyacetone or fructose. Stimulation was significant with peptide concentration exceeding 1 . 10(-8) M and was also shown with an 8-Sar derivative. Other peptides such as 4-Ala-8-Ile-angiotensin II, hexapeptide and bradykinin had no effect. The stimulatory action of angiotensin II was additive to that of L-lysine, and 3',5'-adenosine cyclic monophosphate, suggesting a different mechanism of action. In the presence of maximally stimulatory concentrations of oleate, phenylephrine and 3',5'-guanosine cyclic monophosphate, however, the stimulatory effect of angiotensin II was absent. Cyclic GMP levels, however, did not increase in tubules after angiotensin II and phenylephrine addition, making a messenger function of this nucleotide unlikely. Omission of Ca2+ from the medium markedly reduced basal gluconeogenesis but did not result in a complete loss of angiotensin II effect. Reduction of medium potassium to 2 mM, however, increased basal gluconeogenesis and blunted the peptide effect. 1 mM ouabain was also able to inhibit the stimulatory effect of angiotensin II. Therefore changes in intracellular potassium levels are discussed as a possible mechanism of angiontensin action, whereas calcium seems not to be specifically linked to this metabolic action of angiotensin on the proximal tubule.
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PMID:Stimulation of renal gluconeogenesis by angiotensin II. 45 78


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