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)

To determine intracellular pH gradients rabbit renal cortical tubular cells were prepared by collagenase separation, suspended in a Krebs-Ringer buffer solution, and gassed with 95% O2-5% CO2 in a special nuclear magnetic resonance (NMR) probe. Renal tubular cellular pH was determined simultaneously from the distribution of 14C-dimethadione (DMO) (pHDMO) or the chemical shift of inorganic phosphate (pHNMR). Experiments were performed at different external pH values (pHe) ranging between 6.52 and 7.20. pHNMR, a measure of cytoplasmic pH, changed by an amount equal to the change in pHe. pHDMO, however, a measure of cytoplasmic plus mitochondrial pH, changed less than pHe as the latter increased. pHDMO, higher than pHNMR at low pHe, became equal to pHNMR at higher pHe values. By use of assumed mitochondrial volumes of 30-40% mitochondrial pH was calculated from pHDMO and pHNMR. Mitochondrial pH remained relatively constant over the entire pHe range studied. Since cytoplasmic pH fell as pHe was lowered, the transmitochondrial pH gradient increased at low pHE values. These findings suggest that the transmitochondrial pH gradient may be important in regulating metabolism.
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PMID:Estimation of cellular pH gradients with 31P-NMR in intact rabbit renal tubular cells. 647 6

Rabbits were fed with normal (group 1 and 2) and cholesterol rich diets (group 3 and 4) concomitantly to a daily peroral administration of 50 mg/kg procyanidolic oligomers (PCO) to groups 2 and 4. After 10 weeks, the cholesterol content of the blood serum and the excised aortic intima-media were significantly higher in groups 3 and 4 than in groups 1 and 2. The DNA, hydroxyproline, uronic acid contents were similar in aortic dry weight basis in all four groups. The intima-media samples were extracted successively with 0.15 M NaCl, 0.02 M sodium phosphate pH 7.4 (NaCl extract) and with 4 M guanidinium chloride, 0.05 M sodium acetate pH 5.8 prior (G1 extract) and following (G2 extract) hydrolysis of the collagen with collagenase. The cholesterol contents of G1 extracts were higher in groups 2 and 4 than in groups 1 and 3. The cholesterol content of aortic elastin increased with cholesterol feeding (group 3). With simultaneous administration of cholesterol and PCO the cholesterol content of aortic elastin in group 4 was significantly lower than in group 3. The uronic acid contents increased in G1 extracts and in the collagenase digest with PCO treatment of both normal and hypercholesterolemic rabbits. The ratio of dermatan-sulphate to chondroitin-sulphate decreased with hypercholesterolemia (group 3) and with PCO (group 2 and 4). The parallelism between increased cholesterol and uronic acid contents and modified glycosaminoglycan composition in G1 extract, indicate that the interaction of cholesterol with macromolecules of the aorta can be modulated by PCO. This drug modifies the extractibility of aortic cholesterol and glycosaminoglycans and reduces the association of cholesterol to elastin.
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PMID:The effect of procyanidolic oligomers on the composition of normal and hypercholesterolemic rabbit aortas. 649 5

High yields of Ca2+ - stable myocytes were obtained by perfusion of adult rat heart with a buffered collagenase medium followed by mincing and three additional digestion periods. Release of lactate dehydrogenase, respiratory control, content of ATP and creatine phosphate, electrical stimulation and attachment to extracellular matrix components indicated that the sarcolemma of the isolated myocytes remained intact and that the cells maintained some of the most basic physiological functions. The myocytes maintained their rod-shape in a medium containing 2.5 mM of Ca2+ and their release of LDH was slow. Some of the myocytes were contracting spontaneously, at a low rate, in an abrupt end-to-end contraction. Other cells appeared quiescent but they were all able to respond to external electrical stimulus. The oxygen consumption was measured by a perifusion method. In different preparations the basal consumption was 14-26 nmol O2/min X 10(5) rod-shaped myocytes. Freshly isolated rod-shaped heart cells attached in 30 minutes to dishes coated with collagen type IV, laminin or fibronectin but did not attach to dishes coated with collagen type I or III or to collagen gels. Attachment occurred at the ends of the cells.
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PMID:Isolation, characterization and adhesion of calcium-tolerant myocytes from the adult rat heart. 672 24

Effects of varying the intracellular adenosine triphosphate level on both the action potential and the membrane current were studied in single ventricular cells isolated from the guinea pig heart, using collagenase. Intracellular injection of adenosine triphosphate elevated the plateau potential level and prolonged the action potential duration. Similar results were obtained by injecting adenosine diphosphate, adenosine monophosphate, or creatine phosphate, i.e., substances considered to increase the intracellular concentration of adenosine triphosphate. In contrast, the action potential was depressed by procedures which could reduce the intracellular adenosine triphosphate level, such as an injection of creatine, superfusion of glucose-free Tyrode's solution containing 5.4 mM cyanide ion, or an injection of adenosine monophosphate into the cyanide-superfused cell. When the membrane current was recorded under the voltage clamp, it was found that the injection of adenosine triphosphate increased the amplitude of the slow inward current, whereas the superfusion of cyanide ion did not significantly decrease the slow inward current, although the action potential became considerably shorter. It was also found that the adenosine monophosphate injection decreased the amplitude of the net outward membrane current at the plateau level and increased it at around -40 mV, and thus intensified the N-shape of the isochronal 0.3-second current-voltage curve. The cyanide ion superfusion produced the opposite effect; in response to depolarizing clamp pulses more positive to the plateau level, the membrane current increased significantly with cyanide ion, but increased only slightly with adenosine triphosphate. These results suggest that intracellular adenosine triphosphate modifies the membrane currents at the plateau potential range, thus altering the action potential duration.
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PMID:Modification of the cardiac action potential by intracellular injection of adenosine triphosphate and related substances in guinea pig single ventricular cells. 688 41

Renal cells from Vitamin D-deficient and 1,25-dihydroxyvitamin D3 [1,25-(OH)2D3]-repleted chicks were isolated by a collagenase-hyaluronidase procedure. Exclusion of trypan blue and respiratory measurements indicate that the cells were functionally intact and metabolically active. The uptakes of phosphate and alpha-methylglucoside were stimulated markedly by Na+ in the extracellular medium. Phosphate uptake in the presence of Na+ was saturable with respect to phosphate concentration; half-maximal activity was obtained with approximately 0.2 mM. Three hours after 1,25-(OH)2D3 was injected into vitamin D-deficient chicks the Na+-dependent phosphate uptake by the isolated cells had increased about 40%, i.e., 2.00 compared with 1.44 nmol.min-1.mg protein-1. Phosphate uptake in the presence of K+ in the extracellular medium and alpha-methylglucoside uptake in the presence or absence of Na+ were unchanged. In a secondary response found 17 h after 1,25-(OH)2D3 injection, Na+-dependent phosphate uptake decreased. Serum concentrations of phosphorus and calcium were not measurably changed in the 3-h repleted bird, but both levels were increased 17 h after treatment. Administration of phosphate into vitamin D-deficient chicks, so that the serum concentration of phosphorus was raised to that of the 17-h 1,25-(OH)2D3 repleted animal, effected a comparable decrease in phosphate uptake. Serum calcium levels were not altered by this treatment. The actions of parathyroid hormone in stimulating adenylate cyclase and in inhibiting phosphate uptake were notably blunted in the vitamin D-deficient chick. Sensitivity to parathyroid hormone was not restored until several days after 1,25-(OH)2D3 repletion. These findings suggest that the initial response to 1,25-(OH)2D3, to increase renal phosphate uptake, and the secondary response, to decrease phosphate uptake, were by parathyroid hormone-independent processes. The results also indicate that the isolated renal cell represents an excellent model for studying the mechanism by which 1,25-(OH)2D3 regulates phosphate transport in the kidney.
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PMID:Effects of 1,25-(OH)2D3 administered in vivo on phosphate uptake by isolated chick renal cells. 689 66

Adipose tissue derived from open biopsies was used to develop a system for studying insulin resistance in human tissue in vitro. Subcutaneous adipose tissue obtained from obese donors was incubated in Parker's medium 199 in the absence or presence of insulin for 24 h under sterile conditions. Adipocytes were then isolated by collagenase digestion, washed thoroughly, and incubated for 2 h with multiple insulin concentrations in Krebs-Ringer phosphate buffer with 4% bovine serum albumin. Lipolysis was estimated by measuring glycerol. Basal lipolysis in adipocytes cultured with insulin did not differ significantly from that of adipocytes cultured without insulin (2.49 +/- 0.18 vs. 2.67+/- 0.58 mumol glycerol/mmol triglyceride). The maximum acute response in adipocytes prepared from tissue exposed to insulin during culture was 55% inhibition of basal lipolysis, whereas the maximum response in cells prepared from tissue not exposed to insulin chronically was 80%. Statistical analysis by paired t test showed a significant difference (P < 0.01) in the reaction of the two groups of cells to acute exposure to insulin. The insulin dose required to produce the half-maximal effect was increased from 3 to 24 microU/ml. Thus, after chronic exposure to insulin, adipocytes were not as responsive to the acute antilipolytic action of the hormone. We conclude that chronic exposure to insulin induces insulin resistance in human adipocytes.
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PMID:Insulin-induced insulin resistance of lipolysis in human adipocytes in organ culture. 699 2

Islets of Langerhans isolated by collagenase digestion were shown to elicit an immediate monophasic release by insulin when subjected to cryoprotective concentrations of dimethyl sulfoxide (Me2SO) in a perifusion system. This response only terminated after removal of the drug from the perifusate, and was attributed to membrane permeability changes as demonstrated by the immediate monophasic release of phosphate from perifused islets which also terminated only after removal of the drug.
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PMID:The effects of dimethyl sulfoxide on insulin release and phosphate efflux from isolated, perifused islets of Langerhans. 702 10

Adult rat heart myocytes prepared by collagenase perfusion show a progressive loss of adenylate energy charge and total adenine nucleotide as a function of time of anaerobic incubation in the absence of glucose. Re-aeration of the rod-shaped anaerobic cells produces a population of viable rounded cells in hypercontracture. The round cells show extensive morphological dislocations but remain metabolically competent in that they 1) restore adenosine 5'-triphosphate levels to the extent permitted by the depleted adenine nucleotide pool: 2) reestablish a low Na+-K+ ratio; and 3) restore creatine phosphate to 73% of control. The hypercontracture on re-aeration of anaerobic myocytes closely resembles an analogous contracture of heart cells in situ produced when hypoxic perfused hearts are reoxygenated, the so-called "oxygen paradox." Both processes are eliminated by inclusion of glucose during the anaerobic phase and by inhibitors of respiration and uncouplers of oxidative phosphorylation added before reoxygenation. Mitochondria in the hypercontracted myocytes retain high acceptor control ratios. Contracture on re-aeration occurs to nearly the same extent in the presence of either mM Ca2+ or 0.1 mM EGTA. Contracture appears related to dislocations in intracellular Ca metabolism that result from the declining energy charge and depleted nucleotide pool produced during anoxic incubation.
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PMID:Contracture of isolated rat heart cells on anaerobic to aerobic transition. 709 41

Calcium-tolerant myocytes were isolated from adult rat ventricles by successive perfusion and incubation with buffer containing collagenase and hyaluronidase. Greater than 70% of the cells excluded trypan blue, maintained normal morphology, and contracted in response to an externally applied electric field. We have characterized metabolic defects present in isolated calcium-tolerance myocytes when exposed to low concentrations of extracellular calcium under aerobic and anaerobic conditions. In control cells exposed to 1.25 mM Ca2+, the following metabolic parameters were measured (in mumol/g protein): adenosine triphosphate (ATP) 28.8 +/- 3.3, creatine phosphate (CrP) 49.1 +/- 7.5, intracellular Na+ 37.7 +/- 8.1, intracellular K+ 352.9 +/- 49.3, cellular Ca2+ 12.3 +/- 1.8, as well as rate of protein synthesis 0.34 +/- 0.03 mumol . g protein-1 . h-1. In aerobic cells incubated in medium without added Ca2+, the corresponding values (in mumol/g protein) were ATP 27.9 +/- 4.4, CrP 25.3 +/- 4.3, intracellular Na+ 130.9 +/- 23.1, intracellular K+ 217.2 +/- 32.0, cellular Ca2+ 3.9 +/- 1.0, and rate of protein synthesis 0.09 +/- 0.02 mumol . g protein-1 . h-1. These data indicated major metabolic aberrations in myocytes exposed to medium low in Ca2+ (less than 10 microM). Metabolic depression was most severe in cells incubated in the absence of both Ca2+ and O2. It is postulated that Ca2+ removal resulted in an increase in Na+ and K+ permeability, causing a net gain of intracellular Na+ and loss of intracellular K+. These ionic shifts might stimulate the activity of membrane-associated Na+-K+-ATPase, accounting for lower levels of CrP.
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PMID:Effects of extracellular calcium removal and anoxia on isolated rat myocytes. 711 49

Epiphyseal cartilage was fractionated into subcellular components by nonenzymatic methods, and analyzed for activity of marker enzymes, for phospholipids, and for calcium and inorganic phosphate. Alkaline phosphatase, a marker enzyme for matrix vesicles and plasma membranes, was concentrated in the 100 000 X g (microsomal) pellet and, upon subsequent fractionation, in the low-density fractions from the sucrose gradient. Mitochondrial and endoplasmic reticular enzymes were localized primarily in the 20 000 X g pellet, lysosomal enzymes predominantly in the supernate from the microsomal pellet. Two phospholipids characteristic of matrix vesicles, sphingomyelin and phosphatidylserine, were enriched in the low-density sucrose fractions; however, unlike matrix vesicles, there was no depletion in phosphatidylcholine or increase in lysophospolipids. Ca and inorganic P were concentrated in the higher-density fractions, the amounts in the lower-density fractions being somewhat lower than those seen in matrix vesicles. The alkaline phosphatase-rich, low-density fractions were thus not identical to matrix vesicles isolated by collagenase digestion, but rather appear to be composed primarily of plasma membranes. Enzyme profiles indicate they were relatively free of mitochondrial, endoplasmic reticular and lysosomal contaminants. the data further indicate that significant modification of the phospholipid, electrolyte, and possibly enzyme content of chondrocyte plasma membranes, must occur during blebbing and matrix vesicle formation.
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PMID:Subcellular fractionation of epiphyseal cartilage: isolation of matrix vesicles and profiles of enzymes, phospholipids, calcium and phosphate. 740 48


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