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)

Pigment migration in cultured erythrophores of the squirrel fish Holocentrus ascensionis, after manipulation with K+, epinephrine, 3',5'-dibutyryl cyclic adenosine monophosphate, theophylline, and caffeine, is essentially identical to that observed in this chromatophore in situ. For such observations, the erythrophores are dissociated from the scales with hyaluronidase and collagenase, and allowed to spread on an amorphous collagen substrate, where they resemble the discoid erythrophore in situ. In this state, they are readily fixed by glutaraldehyde and osmium tetroxide, and are then critical-point dried for whole-cell viewing in the high voltage electron microscope. The organization and fine structure of the erythrophore cytoplast was stereoscopically examined after fixation of the pigment granules in four experimental states: pigment dispersed, pigment aggregated, pigment aggregating, and pigment dispersing. In the dispersed cell, granules are contained in an extensive three-dimensional lattice composed of radially oriented microtubules and a network of fine filaments 3-6 nm in diameter (microtrabeculae), whereas in the aggregated cell, the microtrabecular system is absent, and the majority of the microtubules appear displaced into the cortices on the cytoplasmic surface of the plasma membrane. In cells fixed while aggregating, few microtrabeculae are observed, although formless thickenings are observed in the cortices, on granules, and between clumped granules. In dispersing cells, the microtrabecular system is reformed from material stored in the cortices and with the granules in the centrosphere. These observations suggest that the granules are suspended in a dynamic microtrabecular system that withdraws during pigment aggregation and is restructured during pigment dispersion. The microtubules guide linear granule motion not by defining physical channels, but by a recognizable affinity of microtubules, microtrabeculae, and granules for one another.
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PMID:Transformations in the structure of the cytoplasmic ground substance in erythrophores during pigment aggregation and dispersion. I. A study using whole-cell preparations in stereo high voltage electron microscopy. 26 22

Two different types of elastic behaviors could be distinguished in the twitch contraction curve of the isolated frog geniohyoid muscle under changing of chemical conditions; one was negative oscillation that occurred after completion of the relaxation phase which was sequential to a typical cyclic pattern demonstrated in the contraction and relaxation period, and the other was oscillation which occurred in the phase of plateau formation during relaxation. The former will relate to the parallel elastic component (the effect of caffeine combined with a low Ca++ condition) and the latter will to the series one (collagenase and dantrolene). The causal or genetic relationship is not yet clarified.
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PMID:[Condition to produce oscillation after twitch shortening in the bullfrog geniohyoid muscle]. 196 73

We tested the hypothesis that the adenylate cyclase system and Na+, K(+)-ATPase are reciprocally related in rat pancreatic islets. We studied the effect of theophylline, caffeine, and dibutyryl cyclic AMP on Na+, K(+)-ATPase activity in a membrane preparation from collagenase-isolated rat islets. Theophylline, caffeine, or dibutyryl cyclic AMP, in concentrations of 1 mM, all inhibited Na+, K(+)-ATPase activity (44,62, and 43%, respectively). Kinetic analysis indicated that theophylline and dibutyryl cAMP inhibit Na+, K(+)-ATPase by different mechanisms; theophylline decreased Vmax and decreased apparent Km (ATP), whereas dibutyryl cAMP decreased Vmax and increased apparent Km (ATP). Similar inhibition of Na+, K(+)-ATPase by theophylline or dibutyryl cAMP was noted in a particulate fraction from rat kidney and in a purified porcine brain Na+, K(+)-ATPase preparation. The adenylate cyclase system and Na+, K(+)-ATPase may act reciprocally in pancreatic islets and in other tissues. In the beta cell this relationship may be essential in coordinating consumption of ATP in the stimulated, as opposed to the rest, state.
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PMID:Relationships between adenylate cyclase and Na+, K(+)-ATPase in rat pancreatic islets. 215 93

The extrahepatic diversion of essential splanchnic hepatotrophic factors may cause the liver atrophy and insufficiency that follows portacaval shunting. To investigate this, control dogs with end-to-side portacaval shunts (control-PCS, n = 6) were compared with dogs shunted 1 month after intraportal pancreatic islet autotransplantation (islet-Tx-PCS, n = 5). From the distal pancreas of each experimental dog, 1.95 +/- 0.49 X 10(5) islets were isolated by collagenase digestion and retransplanted within 3 hours. Assays of hepatocellular function (caffeine clearance) and hepatic blood flow (indocyanine green), conventional biochemical liver function tests, and glucose, insulin, and glucagon responses to intravenous glucose challenge were measured monthly and when dogs were killed. Four of six control-PCS dogs were killed 32 +/- 9 days after shunting because of more than 20% body weight loss; one control-PCS dog lost only 7% of body weight by day 56 and stabilized. No significant loss of body weight occurred in islet-Tx-PCS dogs (n = 5). Liver function test abnormalities seen in control-PCS dogs were absent in islet-Tx-PCS dogs. Both control-PCS and islet-Tx-PCS indocyanine green half-life measurements were significantly (p less than 0.05) prolonged at all times, indicating equally reduced hepatic blood flow after shunting for both groups. In contrast, islet-Tx-PCS caffeine half-life periods were significantly (p less than 0.05) shorter than in control-PCS dogs and were similar to those in normal dogs, indicating a protective effect of the transplanted islets on hepatocellular function. We conclude that intraportal pancreatic islet autotransplants prevent, by the local release of hepatotrophic factors within the liver, the metabolic abnormalities and loss of hepatic function after PCS.
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PMID:Hepatic insufficiency after portacaval shunting is prevented by prior intraportal pancreatic islet autotransplantation. 250

1. Single dispersed cells obtained by collagenase treatment of longitudinal muscle of rabbit small intestine were voltage clamped with low-resistance patch pipettes and membrane current was measured. 2. In cells held at -20 or -30 mV, a discharge of spontaneous transient outward currents (STOCs) was usually seen; these are believed to represent the sporadic release of calcium from storage sites in the cell in relation to TEA-sensitive, 4 AP-resistant, calcium-activated potassium channels. 3. Caffeine (20 mM) externally applied, accelerated and then abolished STOCs; carbachol (0.1 mM) had similar effects; the initial burst of STOCs was often carried on a large, temporary, outward current which could occur alone. This was suggested to be caused by the rapid release of stored calcium in relation to calcium-activated potassium channels. 4. If STOCs were abolished by caffeine (or carbachol) then carbachol (or caffeine) did not evoke outward current indicating that these drugs act on the same calcium store but by different pathways. Inclusion of ryanodine (10(-8)-10(-4) M) in the patch pipette abolished STOCs soon after establishing whole-cell recording mode; afterwards, outward current to caffeine or to carbachol could not be evoked. 5. STOCs were quickly abolished in cells patched with pipettes filled with GTP gamma S (0.1-1 mM) or Gpp(NH)p (0.1-1 mM) but were large or normal in size in cells where GDP beta S (0.1-1 mM) was included in the pipette. GTP gamma S or Gpp(NH)p in the cell abolished outward current to caffeine or to carbachol, but had no effect on calcium-activated potassium channel activity in isolated patches or on a TEA-sensitive, 4-AP-resistant, outward potassium current evoked in single cells by stepping positively from a -20 mV holding potential. These results suggest that the effect of guanine nucleotide analogues are on the calcium store rather than on calcium-activated potassium channels. 6. The effects of GTP gamma S or Gpp(NH)p could be explained if they depleted calcium stores via a G-protein mechanism; this effect may involve activation of phospholipase C enzyme (PLC) and D-myo-inositol 1,4,5-trisphosphate (IP3) production as well as a direct effect on stores. However a separate G-protein-independent pathway of activation of PLC by muscarinic receptor activation may exist as calcium release by carbachol was large or normal in cells filled with GDP beta S.
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PMID:Properties of calcium stores and transient outward currents in single smooth muscle cells of rabbit intestine. 258 96

Single smooth muscle cells were isolated from guinea-pig taenia caeci by digestion with collagenase. The 45Ca desaturation curve from isolated cells, which were previously washed with Ca2+-free solution containing EGTA in Ca2+-free modified Locke solution, consisted of three components (half-time: 1.0, 3.8 and 12.4 min). The 45Ca efflux from isolated cells in the third component was significantly increased by caffeine. This increase was suppressed by procaine, but was not affected by La3+. These results suggest that, in guinea-pig taenia caeci, there are at least four Ca2+ compartments: superficial low and high affinity bound Ca2+ and cellular low and high affinity bound Ca2+. Caffeine releases Ca2+ from the cellular high affinity binding sites.
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PMID:Efflux of 45Ca from isolated smooth muscle cells of guinea-pig taenia caeci. 287 33

To clarify the nature of the noradrenaline (NA)-induced contraction, the effects of NA on inositol phospholipid metabolism and the actions of inositol 1,4,5-trisphosphate (InsP3) on skinned muscle of the rabbit mesenteric artery were investigated. NA, in concentrations over 1 nM, reduced the amount of phosphatidylinositol 4,5-bisphosphate (PI-P2) and increased the amount of phosphatidic acid (PA). The maximum reduction in the amount of PI-P2 and the maximum increase in the amount of PA were observed in the presence of 1 microM-NA. With prolonged application of NA, the PI-P2 was gradually restored to near the control level, but with repeated applications of NA separated by rinses with Krebs solution, there was a consistent reduction of PI-P2. The NA-induced PI-P2 breakdown was inhibited by the alpha 1-adrenoceptor blocking agent, prazosin. After incubation of the tissue with radioactive inositol-containing solution, NA transiently increased the amount of radioactive InsP3 which was followed by increases in the amount of inositol 1,4-bisphosphate (InsP2) and inositol monophosphate (InsP). After accumulation of Ca by saponin-treated muscle cells of the dog mesenteric artery dispersed by collagenase, InsP3 released Ca stored in cells but InsP2 did not. A23187 (5 microM) but not InsP3 (up to 10 microM), depleted Ca accumulated in the presence of ATP. In saponin-treated skinned muscle tissues, InsP3 in concentrations over 0.3 microM, produced contraction following accumulation of Ca into the store site. InsP3 released Ca from the same source as caffeine. The release of Ca by InsP3 appeared in a concentration-dependent manner and this release also depended on the amount of Ca stored in cells (the median effective dose (ED50) was 3.0 microM in 0.1 microM-Ca and 1.0 microM in 0.3 microM-Ca). We concluded that NA activates alpha 1-adrenoceptors, thus hydrolysing PI-P2 and synthesizing InsP3. This product can release Ca stored in cells as estimated from the contraction in skinned muscle tissues, and also reduces the residual amount of Ca stored in skinned dispersed muscle cells. Contraction evoked by NA through pharmacomechanical coupling can be explained as a function of InsP3.
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PMID:Inositol 1,4,5-trisphosphate activates pharmacomechanical coupling in smooth muscle of the rabbit mesenteric artery. 300 48

The action of procaine on pharmaco-mechanical coupling activated by application of acetylcholine (ACh) was investigated using collagenase-treated dispersed intact and skinned smooth muscle cells and intact muscle tissues of the porcine coronary artery. ACh reduced stored 45Ca2+, and this action was prevented by procaine in intact dispersed cells. The maximum reduction in the level of stored 45Ca induced by caffeine (25 mM) or inositol 1,4,5-trisphosphate (InsP3; 3 microM) was also prevented by procaine in the skinned muscle cells in the presence or absence of ATP. However, inhibitions of the latter required higher concentrations of procaine than the former. Release by 10 microM ACh of Ca2+ from its store site in the presence or absence of extracellular Ca2+ was also inhibited by procaine and was detected using the quin2 fluorescence method. In these smooth muscle tissues, ACh (above 10 nM) reduced the amount of phosphatidylinositol 4,5-bisphosphate (PI-P2) and dose dependently increased the amount of phosphatidic acid. Procaine inhibited the hydrolysis of PI-P2 activated by ACh, thus reducing the amount of InsP3 and the release of Ca2+ from the store site. It is concluded that procaine has multiple actions on the porcine coronary artery, and one of the actions related with pharmacomechanical coupling appears through inhibition of hydrolysis of PI-P2 induced by ACh.
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PMID:Effects of procaine on pharmaco-mechanical coupling mechanisms activated by acetylcholine in smooth muscle cells of porcine coronary artery. 303 48

1. Adenosine triphosphate (ATP), applied in the bathing solution or ionophoretically, depolarized freshly dispersed single arterial smooth muscle cells obtained by collagenase and elastase treatment of the rabbit ear artery. 2. Ionophoretic application of ATP evoked an inward current with a latency of about 70 ms and a time to peak of about 230 ms in cells held under voltage clamp using whole-cell patch-pipette techniques. 3. Bath application of 10 microM-ATP evoked a transient inward current at negative holding potentials. The amplitude of the ATP-induced current was linearly related to the clamp potential with a reversal potential near 0 mV. Removal of extracellular calcium, buffering intracellular calcium with high EGTA concentration, or depleting calcium stores with caffeine or noradrenaline treatment did not affect the ATP-evoked current. 4. Changing the chloride concentration gradient by decreasing extracellular or intracellular chloride concentration, or using the chloride channel blocker, frusemide, had no effect on the currents. 5. Replacing sodium with Tris shifted the reversal potential to more negative potentials. The reversal potential was not affected by exchanging intracellular potassium for caesium or sodium. Replacing extracellular sodium with 89 mM-barium also had little effect on the reversal potential. 6. These results are consistent with ATP activating a conductance that is cation selective but allows both monovalent and divalent cations to pass across the membrane.
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PMID:Action of externally applied adenosine triphosphate on single smooth muscle cells dispersed from rabbit ear artery. 311 14

The mobilization of 45Ca2+ was investigated in collagenase-treated single smooth muscle cells of the porcine coronary artery. After removal of extracellular 45Ca2+ by 10 mM-EGTA at 0 degree C, the content of exchangeable Ca2+ was estimated to be 0.42 +/- 0.02 nmol/2 X 10(5) cells at rest and 0.62 +/- 0.03 nmol/2 X 10(5) cells in 102.5 mM-external K solution. The efflux of 45Ca2+ into Ca2+-free solution, estimated from the 45Ca2+ remaining in the cells, increased temperature dependently and was reduced by oligomycin. The muscle cells at rest had a substantial amount of stored Ca2+ which was releasable by caffeine or acetylcholine. Saponin-treated (skinned) muscle cells accumulated 45Ca2+ in the presence of Mg ATP. Two mechanisms of ATP-dependent Ca2+ sequestration were observed: one exhibited a low affinity for Ca2+ but a high-capacity uptake which was sensitive to sodium azide; this was thought to be located in the mitochondria. The other had a high-affinity (1.5/microM) and low-capacity uptake (0.92 nmol/2 X 10(5) cells), which was insensitive to sodium azide, potentiated by oxalate and was thought to be mainly mediated via the sarcoplasmic reticulum (s.r.). The minimum concentration of free Ca2+ required for the ATP-dependent Ca2+ uptake in the saponin-treated cells was about 20 nM by the s.r. and 1 microM by the mitochondria. Thus, the mitochondria seem to play a minor role in regulating cytoplasmic Ca2+ during the contraction-relaxation cycle. These results indicate that enzymically isolated muscle cells are functionally intact, and may facilitate direct measurement of Ca2+ movements when attempting to estimate the physiological role of Ca2+ in vascular smooth muscles.
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PMID:Calcium mobilization in enzymically isolated single intact and skinned muscle cells of the porcine coronary artery. 392 90

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