EC:3.4.24.3 - FACTA Search

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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)

Kidney-cortex tubule suspensions were prepared by collagenase treatment of kidney cortex from fed and starved rats. This preparation, consisting mainly of proximal convoluted tubules was incubated with three major renal substrates, L-lactate, glutamine and oleate to study the dose dependence of substrate uptake rates from medium substrate combinations. All three substances, when added at near physiological concentrations, modified the uptake rate and fate of the other substrates. In accordance with previous observations, oleate inhibited lactate uptake, and lactate decreased glutamine metabolism. Glutamine on the other hand led to a marked increase in lactate uptake. Both, glutamine and lactate increased oleate metabolism. Glucose was the main product of lactate and glutamine metabolism, lactate being preferentially taken up for this process. Oleate led to a net synthesis of triglycerides in the tubules, which was stimulated by the addition of lactate and glutamine. More than 75% of the oleate taken up was recovered as triglycerides. In the absence of fatty acids, triglyceride content of tubules decreased. The results indicate that oleate is taken up in preference to lactate and glutamine when all three substrates are offered to the tubule. Glucose and triglycerides are the main metabolic products of tubular substrate metabolism. Whereas glucose is released into the medium, triglycerides are stored in the tubule cell.
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PMID:Metabolism of isolated kidney tubules. Interactions between lactate, glutamine and oleate metabolism. 49 17

Type I procollagen secreted by matrix-free chick embryo tendon cells was labeled with L-[3,3'-3H] cystine and purified by DEAE-cellulose chromatography. After bacterial collagenase digestion, the NH2- and COOH-terminal propeptides were partially characterized by ion exchange chromatography and gel filtration. Similar experiments were then conducted after labeling with either D-[6-3H] glucosamine, D-[2-3H] mannose, or D-[U-14C] glucose. On the basis of these studies and subsequent carbohydrate analysis, it was concluded that the COOH-terminal peptide contained greater than 90% of the radioactive carbohydrate which consisted predominantly of glucosamine and mannose with traces of galactosamine and galactose. Only radioactive glucosamine could be detected in the NH2-terminal propeptide. Under conditions which inhibit hydroxylation of lysine and glycosylation of hydroxylysine, unhydroxylated procollagen (protocollagen) could still be labeled with [3H] glucosamine and [3H] mannose. This suggested that glycosylation of the propeptides is at least initiated at the level of the rough endoplasmic reticulum.
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PMID:Localization and partial composition of the oligosaccharide units on the propeptide extensions of type I procollagen. 61 65

1. A method for the preparation of isolated mammary gland cells of the rat is described. 2. The procedure involves disaggregation of the tissue in a collagenase-hyaluronidase mixture and subsequent purification of the heterogeneous population of cells by centrifugation in discontinuous Ficoll-400 gradients; the preparation takes 60 minutes. The yield of cells is approximately 14%. 3. The cells as prepared have high rates of metabolism and synthetic capacity and exhibit metabolic characteristics comparable to intact tissue. 4. Measurements of the content of metabolic intermediates show cells to have, and retain, outstandingly high levels of ATP and to have an energy charge close to 0.9. Levels of other intermediates approximate to those found in the intact tissue. The level of glycolytic intermediates below the triose phosphate stage indicate the highly aerobic state of the cells. 5. The pattern and scale of glucose utilization, measured using specifically labelled glucose incorporation into 14CO2 and 14C-labelled lipid production, approximates closely in isolated cells at 5 and 20 mM glucose and in tissue slices at 20 mM glucose concentration. Mammary gland slices incubated with 5 mM glucose have a considerably lower rate of metabolism. Isolated cells exhibit a higher proportionate rate of glucose utilization by way of the pentose phosphate pathway. 6. The isolated cells are hormone responsive. Insulin increases the oxidation of glucose by the pentose phosphate pathway and stimulates lipid synthesis. Addition of progesterone and cortisone in vitro (10 muM) leads to a marked and rapid decrease in the rate of glucose oxidation and conversion to lipid.
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PMID:Regulation of mammary gland metabolism: pathways of glucose utilization, metabolite profile and hormone response of a modified mammary gland cell preparation. 67 49

Insulin (IRI) secretion pattern of collagenase isolated islets from Wistar rats were investigated in a batch type incubation (60 min) and under organ culture conditions (up to 7 days) with different concentrations of glucose as stimulus. The B-cell response within 60 min of incubation was determined in Krebs-Ringer bicarbonate buffer with 1 mg/ml bovine serum albumin and 16 mM HEPES (KRB-HEPES) and compared with the hormone release in a culture medium (TC 199) containing 10% calf serum. Additionally the insulin content of islets before and after 7 days of culture was assayed radioimmunologically. In the presence of culture medium the insulin secretion was enhanced by 5.8 mM glucose whereas this glucose concentration does not stimulate the insulin secretion in KRB-HEPES. During organ culture the insulin secretion was identical in media with 1.0 and 5.8 mM glucose, respectively, but 15 mM glucose raised the hormon output more than 10-fold. The insulin content of islets, cultured for 7 days was decreased in the presence of 15 mM glucose up to 30% and in the presence of 5.8 mM glucose up to 13% of that of islets after isolation. The recovery rate of insulin calculated as the sum of secretion and content after cultivation at 15 mM glucose was higher than 100%, whereas the experiments in the presence of 1.0-5.8 mM glucose are characterized by a recovery rate of 25%. The results are discussed in connection with a altered intracellular breakdown of insulin in the B-cells.
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PMID:[In vitro studies on the islands of Langerhans. XI. Insulin secretion and content of isolated islands of Langerhans in the Wistar rat under short term incubation and under organ culture conditions]. 77

The present study was aimed at observing the effect on insulin secretion of serotonin (5-HT) administered intraportally to anesthetized adult dogs. The influence of 5-HT on insulin release was also studied in mouse pancreatic islets isolated by a collagenase method. In the in vivo studies, 6 mg of 5-HT rapidly injected in the portal vein of dogs induced hypoglycemia, and a significant increase of immunoreactive insulin plasma levels (IRI) in blood samples taken from the pancreatoduodenal vein. The phenomenon was registered throughout three consecutive 10 min periods after serotonin administration. With 3 mg of 5-HT the IRI increases were not observed. When serotonin was slowly infused at doses of 3 and 6 mg, no increases of IRI were recorded. In the in vitro studies, 5-HT at 100 mug/ml stimulated the output of insulin in the presence of a low concentration of glucose (0.6 mg/ml); when the islets were incubated with glucose at a higher concentration (3.0 mg/ml) there was a lower insulin release in the presence of serotonin (100 mug/ml) than that obtained with glucose alone at the same concentration (3.0 mug/ml). The results obtained suggest that serotonin stimulates insulin release under certain conditions in the intact dog and also in the isolated pancreatic islets of the mouse incubated in vitro.
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PMID:The effect of serotonin (5-HT) on insulin secretion. 79 2

Release of immunoreactive insulin activity (IRI) and biological insulin like activity (ILA) from collagenase isolated pancreatic islets of sand rats (Psammomys obesus) maintained on a vegetable diet were examined at 60 min and 24-48 h intervals under culture conditions at 1.0 and 15.6 mM glucose. The glucose-insulin dose response curves for sand rats after 60 min incubation were compared with those after 24 or 48 h of incubation. The pancreatic islets responded to 5mM glucose with a high insulin release especially under culture conditions. A drastic depletion of stored insulin in the islets cultivated for 2 days at 5 or 15 mM glucose is accompanied by a continuous diminution of the glucose-induced insulin release with the prolongation of cultivation up to one week.
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PMID:Investigations on isolated islets of Langerhans in vitro. XIV. Insulin secretion and insulin stores of cultivated islets from sand rats (Psammomys obesus): investigations of glucose-dose response. 79 40

Characterization of glycopeptides obtained on alkaline hydrolysis and on extensive collagenase and pronase digestion of the intestinal basement membrane showed the existence of two distinctly different carbohydrate units. One of these is a disaccharide, composed of glucose and galactose, linked to hydroxylysine. It was shown to be identical to the unit (2-O-D-glucopyranosyl-O-D-galactopyranosylhydroxylyasine) present in vertebrate basement membranes, as determined from stability to alkaline hydrolysis, retention time on amino acid analyzer, chemical composition, graded acid hydrolysis, methylation analysis, and periodate oxidation. Direct quantitation after alkaline hydrolysis showed the presence of 9.71 disaccharide units/1000 amino acid residues, indicating that 89% of the hydroxylysine residues of the intestinal membrane are glycosylated. The other unit, consisting of the remaining monosaccharides of the membrane, was separated from the disaccharide unit by gel filtration and ion exchange chromatography of collagenase/pronase digests. Chemical analyses and molecular weight determination by thin layer gel filtration chromatography of purified glycopeptides indicated that this unit is an oligosaccharide which is composed of fucose, galactose, mannose, galactosamine, and glucosamine in a mole ratio of 1:1:1:1:2, respectively. The amount of this unit was calculated to be 2.6 units/1000 amino acid residues.
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PMID:Intestinal basement membrane of Ascaris suum. Characterization of carbohydrate units. 86 12

1. Isolated parenchymal cells were prepared by collagenase perfusion of livers from fed rats that had been previously injected with [(3)H]leucine to label liver proteins. When these cells were incubated in a salts medium containing glucose, gelatin and EDTA, cellular integrity was maintained over a period of 6h. 2. Cells incubated in the presence of 2mm-leucine to minimize radioactive isotope reincorporation released [(3)H]leucine into the medium at a rate accounting for the degradation of 4.5% of the labelled cell protein per h. 3. Degradation of [(3)H]protein in these cells was inhibited by insulin and by certain amino acids, of which tryptophan and phenylalanine were the most effective. 4. Protein degradation was decreased by several proteinase inhibitors, particularly those that are known to inhibit lysosomal cathepsin B, and by inhibitors of cell-energy production. 5. Ammonia inhibited degradation, but only at concentrations above 1.8mm. Aliphatic analogues of ammonia were effective at lower concentrations than was ammonia. 6. High concentrations of ammonia inhibited degradation by 50%. The extent of this inhibition could not be increased further by the addition of the cathepsin B inhibitor leupeptin, which by itself inhibited degradation by approx. 30%. 7. The sensitivity of proteolysis in isolated hepatocytes to these various inhibitory agents is discussed in relation to their possible modes of action.
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PMID:Inhibition of protein degradation in isolated rat hepatocytes. 88 Feb 45

Spontaneously contracting myocytes were isolated from ventricles of the adult rat heart. Hearts were perfused retrogradally via the aorta for 30 minutes at 37 degrees C with Ca2+-free phosphate-buffered saline containing collagenase and hyaluronidase. The venticles were divided into pieces and incubated 15 minutes with the enzymes. Dislodged cells were decanted, diluted with cold buffer and allowed to settle. The washed cells were then sedimented through 3% Ficoll. This procedure yielded approximately 50 mg of protein from 1 gm of heart. Viability measured by trypan-glue exclusion is 90-95%. Approximately 80% of the cells were beating. Scanning electron microscopic studies suggest that the isolated myocytes are morphologically intact. The cells oxidize glucose, pyruvate, citrate and palmitate to CO2 and synthesize protein and RNA. Uptake of glucose, 2-deoxyglucose, leucine and taurine was saturable. Glucose uptake was stimulated by insulin. The cells retained LDH and CPK as well as their capacity to oxidize substrates after 24 hours at 4 degrees C or 4 hours at 37 degrees C. After 24 hours at 4 degrees C the cells resume contracting when returned to room temperature. The procedure reported here for the isolation of spontaneously contracting, adult, rat heart myocytes provides cells with a high index of viability and greater yield than previously reported methods. The cells retain metabolic activity and withstand storage for longer periods than other described preparations.
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PMID:Isolation and characterization of myocytes from the adult rat heart. 91 20

1. Isolated lamb liver cells were prepared from 24-h-starved animals by venous perfusion of the excised caudate lobe with buffer containing collagenase. On the basis of Trypan-Blue exclusion, rate of O2 uptake, adenine nucleotide content and retention of constitutive enzymes, these cells were judged to be intact. 2. Isolated caudate-lobe liver cells showed rates of gluconeogenesis from 10 mM-propionate and 10 mM-lactate that compared favourably with rates determined in isolated median-lobe cells and with rates determined with the isolated perfused lamb liver. 3. The gluconeogenic potential of substrates tested depended on the lamb's age. Cells prepared from suckling lambs (up to 20 days of age and essentially non-ruminant) showed highest rates from galactose, serine and alanine; those prepared from post-weaned lambs (older than 30 days of age and ruminant) showed highest rates from propionate, lactate and fructose. 4. Gluconeogenic rates from endogeneous precursors, 10 mM-propionate and 10mM-galactose, were linear for 1 h and were both stimulated by 1 muM-glucagon. Provided the endogenous rate of gluconeogenesis remained unchanged after substrate addition, glucagon caused a net stimulation of gluconeogenesis from each of these substrates. 5. Gluconeogenic capacity and glucagon sensitivity were examined in cells maintained in substrate-free oxygenated buffer at 37 degrees, 22 degrees and * degrees C. Even under the best of the three conditions of storage that were tested (i.e. at 22 degrees C in gelatin-containing buffer) deterioration of the lamb cells proceeded rapidly, and loss of glucagon responsiveness preceeded the loss of ability to convert precursor into glucose. 6. n-Butyric acid, 2-methylpropanoic acid and 3-methylbutanoic acid at concentrations comparable with those found in lamb portal-vein blood each stimulated gluconeogenesis from 10mM-galactose or 10mM-propionate; gluconeogenesis from galactose was stimulated to the greater extent. 7. The regulatory effects of glucagon and sodium butyrate on lamb liver-cell gluconeogenesis and glycogenolysis were compared. Glucagon (1 muM) and 2mM-butyrate accelerated the rate of glucose formation of liver cells of 24h-starved animals from lactate+pyruvate or fructose. Insulin (20nM) decreased both gluconeogenesis and the efficacy of 1 muM-glucagon. For lactate+pyruvate as substrate, the stimulatory effect of butyrate was additive to that of 1muM-glucagon and for both lactate+pyruvate and fructose the stimulatory effect of butyrate was not influenced by 20nM-insulin. In contrast with glucagon, which stimulated the rate of glycogenolysis in cells prepared from fed lambs, butyrate (0.1-20mM) had no effect. 8. It is concluded that glucagon and butyrate stimulate lamb liver-cell gluconeogenesis by different mechanisms.
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PMID:Gluconeogenesis in isolated intact lamb liver cells. Effects of glucagon and butyrate. 94 49

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