EC:3.4.24.3 - FACTA Search

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)

Effect of diltiazem on glucose-induced insulin secretion was investigated in the rat islets of Langerhans isolated by a collagenase digestion technique. It was found that B-cells, main constituents of isolated islet preparations, had a well-preserved ultrastructural appearance immediately following isolation or after incubation with glucose or glucose and diltiazem. The islets released a large amount of insulin upon stimulation with glucose and CaCl2. Diltiazem (10(-6)-10(-4) M) produced a dose-related inhibition of glucose-induced insulin secretion and this effect was antagonized by the increase in extracellular concentration of CaCl2. The inhibitory effect of diltiazem on the insulin secretion was also counteracted by dibutyryl-3',5'-cyclic AMP or by theophylline. Among calcium-antagonists tested, nifedipine produced the most powerful inhibitory action on the insulin secretion, while the effect of verapamil was similar to or somewhat stronger than that of diltiazem. It was suggested that diltiazem may reduce the intracellular concentration of free calcium ion, thus causing an inhibitory effect on the glucose-induced insulin secretion by the isolated islets of Langerhans.
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PMID:Effect of diltiazem on insulin secretion. I. Experiments in vitro. 20 92

To evaluate the hypothesis that extracellular mediators may affect collagen production by mesenchymal cells via a cyclic AMP coordinated mechanism, normal human fibroblasts were exposed to a variety of agents (prostaglandin E1, isoproterenol, cholera toxin) which independently elevated intracellular cyclic AMP during a 6-h incubation. Concomitantly, each agent caused an average 47% reduction in the percentage of total protein synthesis represented by collagen, yet little change in other major extracellular proteins. Since no active collagenase was found in these cultures, these findings suggest cyclic AMP levels may modulate the differentiated state of normal fibroblasts with respect to collagen production.
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PMID:Association in normal human fibroblasts of elevated levels of adenosine 3':5'-monophosphate with a selective decrease in collagen production. 20 41

Glucose-induced insulin secretion is enhanced by a preceeding glucose stimulus. The characteristics of this action of glucose were investigated in perfused pancreas and collagenase-isolated islets of Langerhans. A 20- to 30-min pulse of 27.7 mM glucose enhanced both the first and second phase of insulin release in response to a second glucose stimulus by 76-201%. This enhancement was apparent as an augmented maximal insulin release response to glucose. The effect of priming with glucose was seen irrespective of whether the pancreatic tissue was obtained from fed or fasted rats. Separating the two pulses of hexose by a 60-min time interval of exposure to 3.3 mM glucose did not abolish the potentiation of the second pulse. Omission of Ca(++) as well as the inclusion of somatostatin or mannoheptulose during the first pulse abolished insulin secretion during this time period; however, only the inclusion of mannoheptulose deleted the potentiation of the second pulse. d-Glyceraldehyde, but not pyruvate, d-galactose, or 3-isobutyl-1-methylxanthine, could substitute for glucose in inducing potentiation. In islets labeled with [2-(3)H]adenine, the [(3)H]cyclic AMP response to glucose was increased by 35% when measured after 1 min, but was increased only marginally after 2-10 min of stimulation with a second pulse of glucose. The production of (3)H(2)O from glucose was not affected by glucose priming. It is concluded that (a) the induction of the glucose-induced, time-dependent potentiation described here is dependent on glucose metabolism but not on stimulation of cyclic AMP, calcium fluxes, or insulin release per se; (b) the mechanisms that mediate the pancreatic "memory" for glucose are unknown but do not seem to involve to a major extent an increased activity of the adenylate cyclase-cyclic AMP system of the beta-cell; (c) the evidence presented supports the hypothesis of a dual role of glucose for insulin release.
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PMID:Immediate and time-dependent effects of glucose on insulin release from rat pancreatic tissue. Evidence for different mechanisms of action. 20 21

In collagenase isolated rat pancreatic islets, CCK-PZ, SHG, secretin and glucagon stimulated the accumulation of cAMP, in physiological ranges. The resulting increment of cAMP showed a good correlation with insulin release stimulated by either glucagon or secretin, but not by SHG or CCK-PZ. In the same system, 14CO2 production from glucose-U-14C was significantly increased by either SHG or CCK-PZ. The results presented in this report are compatible with the hypothesis that insulin release by gastrointestinal hormones may be mediated by cAMP in the B-cell in the case of either glucagon or secretin; whereas, in the case of either SHG or CCK-PZ, it may presumably be mediated by an unknown mechanism in glucose metabolism, other than c-AMP.
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PMID:Stimulation by gastro-intestinal hormones of cyclic adenosine 3': 5'-monophosphate accumulation and insulin release in isolated pancreatic islets of the rat. 20 18

Polymorphonuclear (PMN) leukocytes mediate that phase of inflammation at which vascular responses become translated into tissue injury. After phagocytosis, the PMN leukocyte generates derivatives of molecular oxygen (O2-.,OH., and H2O2) that stimulate a metabolic burst and assist in the killing of microorganisms. They also release oxidation products of membrane fatty acids (e.g., arachidonate), which are detected as thromboxanes and protaglandins. After interaction of phagocytic ligands (immune complexes and C3b-opsonized particles), the PMN leukocyte secretes lysosomal enzymes from open phagocytic vacuoles, and, especially when phagocytosis is blocked by cytochalasin B, secretes them directly into the cell's surrounding fluids. Secretion is enhanced by agents that elevate intracellular levels of cyclic GMP, and inhibited by agents that raise cyclic AMP. These reciprocal changes are associated with assembly and disassembly (respectively) of cytoplasmic microtubules. These cytoskeletal structures, together with contractile elements, regulate in part the secretory events of inflammation in which lysosomal constituents (e.g., elastase, collagenase, and cathepsin G) are diverted from their intracellular depots to an inappropriate assault on the tissues of the host.
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PMID:Polymorphonuclear leukocytes as secretory organs of inflammation. 21 Feb 34

1. Tubule fragments were isolated after treatment of rat kidney cortex with collagenase. The formation of glucose and lactate on incubation with 5mM-pyruvate was then measured under various conditions. 2. When tubule fragments were isolated from fed rats in the absence of Ca2+ and then incubated with various Ca2+ concentrations, an incubation period of 15--30 min was necessary to establish a metabolic steady state. Under these conditions glucose formation was increased by Ca2+, adrenaline or 3':5'-cyclic AMP to a greater extent than was lactate formation. Data show that appreciable lactate formation could not have resulted from glycolytic metabolism of glucose formed by gluconeogenesis during incubation. 3. When tubule fragments were isolated from fed rats in the presence of 1.27 mM-Ca2+ and adjustments made to the Ca2+ concentration at the commencement of incubation, metabolic steady state was rapidly established. Under these conditions lactate formation was almost insensitive to Ca2+ concentration (0.16--4.5 mM), whereas glucose formation varied with Ca2+ concentration in a sigmoidal manner. 3':5'-Cyclic AMP decreased this sigmoidicity. 4. Ca2+ depletion of the tissue before incubation appeared to change permanently the relationship between extracellular Ca2+ concentration and the measured rates of metabolic processes. 5. Under conditions of metabolic steady state, glucose formation by tubule fragments from fed rats was less sensitive than lactate formation to inhibition by 3-mercaptopicolinate or 2-n-butylmalonate. Lactate formation by tubule fragments prepared from 48 h-starved rats was more sensitive to these inhibitors. 6. Estimates were made of the rate of futile cycling of C3 species through pyruvate kinase. This was greater in the starved than in the fed state, was decreased by 3':5'-cyclic AMP in both the fed and the starved state, but was unaffected by Ca2+. 7. These results suggested that formation of lactate and glucose is less tightly linked in kidney cortex than in liver. A considerable amount of the supply of reducing equivalents for lactate formation did not appear to be associated with an energy-dependent translocation from mitochondria to cytosol involving a pyruvate leads to oxaloacetate leads to phosphoenolpyruvate leads to pyruvate cycle.
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PMID:A study of regulation of gluconeogenesis and the supply of cytosolic reducing equivalents for lactate formation in rat kidney-cortical-tubule fragments incubated with pyruvate. 21 19

Fluxes of 86Rb+ and hydrolysis of p-nitrophenyl phosphate were measured in collagenase-isolated islets of diabetic C57BL/KsJ-db/db-mice and normal controls (C57BL/KsJ-+/+). Both types of islets accumulated Rb+ avidly, as originally reported for hand-dissected islets of non-inbred ob/ob-mice. KsJ-db/db-mouse islets showed enhanced accumulation of Rb+ and normal activity of K+-activated nitrophenyl phosphatase. D-glucose, 20 mmol/l, inhibited Rb+ efflux in normal islets but not in those from KsJ-db/db-mice. The glucose insensitivity of Rb+ efflux was observed in young animals, which exhibit glucose-induced insulin release, as well as in old animals, which do not secrete insulin in response to glucose. The anomalous regulation of Rb+ efflux already present in young animals may bear on the liability of KsJ-db/db-mouse B-cells to develop defective control of membrane potential, an abnormal metabolism of cyclic AMP, and a marked failure of insulin secretory capacity.
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PMID:86Rb+ fluxes and K+-stimulated nitrophenyl phosphatase activity in the pancreatic islets of genetically diabetic mice (C57BL/KsJ-db/db). 21 36

We have previously shown that bone cells possess glucocorticoid receptors and that, in addition to being inhibitory to cell growth, glucocorticoid treatment potentiates the ability of parathyroid hormone (PTH) to stimulate cyclic AMP (cAMP) formation. This study extends those observations to specific subpopulations of bone cells and explores the mechanism of the cAMP augmentation. Subpopulations of cultured bone cells derived from 20-d-old fetal rat calvaria were enriched for "osteoblast-like" (OB) and "osteoclast-like" (OC) cells by sequential collagenase digestion. OC cells released during the first 30 min of collagenase digestion were characterized by low alkaline phosphatase activity, a cAMP response to salmon calcitonin (CT), but only a small cAMP response to bovine PTH. In contrast, OB cells released between 30 and 120 min of collagenase digestion, possessed high alkaline phosphatase activity, responded with a large cAMP rise to PTH, but exhibited no response to CT. Glucocorticoid receptors, with similar properties, were demonstrated in both populations (K(d) congruent with 5 nM, N(maximum) congruent with 400 fmol/mg cytosol protein). Dexamethasone equivalently inhibited cell growth and alkaline phosphatase activity in both populations. Dexamethasone potentiation of cAMP generation occurred after PTH but not CT stimulation. A greater enhancement of cAMP generation observed in OB cells appears to result from two glucocorticoid actions: (a) stimulation of adenylate cyclase and (b) inhibition of phosphodiesterase. Only the latter mechanism was found in OC cells. Dexamethasone-treated cells showed an increase in both sensitivity and maximal response of cAMP to PTH. The possible relationship of these actions to the mechanism of glucocorticoid-induced osteopenia is discussed.
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PMID:Glucocorticoid receptors and actions in subpopulations of cultured rat bone cells. Mechanism of dexamethasone potentiation of parathyroid hormone-stimulated cyclic AMP production. 22 Feb 82

The adjuvant effects of mycobacteria can be replaced by more chemically defined isolates of the cell walls including a water soluble fraction (WSA) and by the synthetic analog N-acetyl-muramyl-L-alanyl-D-isoglutamine (MDP), which is the minimal structure required for adjuvanticity. These compounds can directly activate macrophages as determined by an increase in spreading and adherence and by an elevated synthesis of the enzyme collagenase. Moreover, this increase in collagenase production is modulated by enhanced production of prostaglandins that influences intracellular levels of cyclic AMP. In addition, both MDP and WSA induced macrophages to produce a biologically active mediator that triggers quiescent fibroblasts into active proliferation. It thus appears that a mechanism for mycobacterial adjuvant action as determined with MDP and WSA is via activation of macrophages, which may then precipitate a multiplicity of other reactions resulting in enhanced immune phenomena. Furthermore, the granulomatous and fibrotic reactions associated with mycobacterial infection may be a consequence of this direct activation of macrophages.
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PMID:Macrophage activation by mycobacterial water soluble compounds and synthetic muramyl dipeptide. 22 82

It was shown previously that addition of cyclic AMP (cAMP) to a synaptic membrane fraction incubated with [gamma-32P]ATP stimulated the phosphorylation of two proteins, designated proteins Ia and Ib, found only in nerve tissue. Addition of Ca2+ plus veratridine to synaptosomes preincubated with 32Pi stimulated the phosphorylation of two proteins with similar apparent molecular weights. Various techniques have now been used to determine whether the two proteins phosphorylated in synaptosomes in the presence of Ca2+ plus veratridine are the same as proteins Ia and Ib phosphorylated in synaptic membranes in the presence of cAMP. The proteins phosphorylated by the two procedures were extracted under similar conditions, had similar apparent molecular weights and charges, and were digested by collagenase at similar rates and to the same radioactive intermediates and end products. Furthermore, the two sets of proteins were digested by three other proteolytic enzymes to phosphopeptides with similar molecular weights. The results indicate that Ca2+ and cAMP are each capable of regulating the phosphorylation of proteins Ia and Ib.
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PMID:Ca2+ and cyclic AMP regulate phosphorylation of same two membrane-associated proteins specific to nerve tissue. 22 28

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