DrugBank:APRD00080 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:APRD00080 (Leaf)
21,685 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The injection of botulinum toxin type A into the hind-leg of adult rats causes complete paralysis of the leg lasting for several weeks. In the extensor digitorum longus (EDL) muscle transmitter release is reduced to a level of less than 1% of normal. Tetraethylammonium (TEA) and guanidine in concentrations of about 3 mM restore, in EDL muslces in vitro, neuromuscular transmission to about the normal level, provided that the external calcium concentration is 4 mM or higher. 4-Aminopyridine (4-AP) has similar restorative effect but is about 20-30 times more potent. Unlike TEA and guanidine, 4-AP is effective when the ambient calcium concentration is 2 mM; this drug is therefore also active in vivo. The intravenous injection of 4-AP (5 mg/kg body weight) restores neuromuscular transmission from complete paralysis by botulinum toxin to a normal level as shown by the recording of almost normal twitch and tetanic tensions in the EDL muscle. In rats paralysed by a lethal dose of botulinum toxin, the intraperitoneal administration of 4-AP restores general motor activity, the effect lasting 1-2 hours. A study of the effects of these drugs on spontaneous and evoked transmitter release suggests that all three compounds increase the level of free calcium inside the nerve terminals. In botulinum poisoning the transmitter release mechanism appears to be intact, but a reduced sensitivity to calcium has been shown (Cull-Candy et al. 1976), and this could explain why the drugs restore evoked transmitter release in botulinum poisoning.
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PMID:Antagonism of the paralysis produced by botulinum toxin in the rat. The effects of tetraethylammonium, guanidine and 4-aminopyridine. 19 21

1. UDP-glucose-sterol glucosyltransferase and nucleoside diphosphatases were isolated in a particulate fraction from 7-day-old etiolated pea seedlings. The glucosyltransferase and UDPase (uridine diphosphatase) are stimulated by Ca2+ cation, less so by Mg2+ cation, and inhibited by Zn2+. 2. Each activity has a pH optimum near 8. 3. The glucosyltransferase is specific for UDP-glucose as the glucosyl donor and is inhibited by UDP. Partial recovery from UDP inhibition is effected by preincubation of the enzyme. 4. Freeze-thaw treatment and subsequent sucrose-density-gradient centrifugation of the particulate fraction shows the glucosyltransferase to be widely distributed among cell fractions but to be most active in particles with a density of 1.15 g/ml. UDPase is most active in particulate material with a density of over 1.18 g/ml but an activity peak also appears at 1.15 g/ml. Of several nucleoside diphosphatase activities, UDPase activity is most enhanced by the freeze-thaw and sucrose-density-gradient-fractionation procedures. 5. Detergent treatment with 0.1% sodium deoxycholate allows the partial solubilization of the glucosyltransferase and UDPase. The two activities are similarly distributed between pellet and supernatant after high-speed centrifugation for two different time intervals. 6. A role for UDPase in the functioning of glucosylation reactions is discussed.
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PMID:Uridine diphosphate glucose-sterol glucosyltransferase and nucleoside diphosphatase activities in etiolated pea seedlings. 20 95

Nascent calcium phosphate promotes the agglutination and fusion of human erythrocyte ghosts. Membrane phospholipids of erythrocyte ghosts treated with Ca2+ and phosphate ions become exposed to attack by phospholipase C (phosphatidylcholine cholinephosphohydrolase, EC 3.1.4.3) (Bacillus cereus). Freeze-fracture pictures of fused erythrocyte ghosts show the presence of regions deficient in intramemebrane particles in the protoplasmic face which we believe to be regions of fusion. Discontinuous regions of the protoplasmic and exoplasmic faces are observed, which are apparently intermediate stages in the process of fusion. TH-in-section electron micrographs reveal deposits of calcium phosphate in areas of contact and fusion of ghosts. Ca2+ in the presence of N-[tris(hydroxymethyl)methyl]glycine (Tricine) buffer causes the formation of blebs in the membrane but does not cause changes in the intramembrane particle pattern or induce fusion. It is suggested that nascent calcium phosphate acts by forming protein-free regions of phospholipid bilayer which can fuse readily.
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PMID:Membrane ultrastructural changes during calcium phosphate-induced fusion of human erythrocyte ghosts. 32 83

Toad bladder epithelial cells were isolated under mild conditions in a calcium-free medium; they were found to exclude trypan blue, to consume oxygen, and to respond to vasopressin with an increased rate of oxygen consumption. Since isolated toad bladder epithelial cells are mostly spherical in shape, the cell diameter can be accurately measured with an ocular micrometer of an inverted microscope. Epithelial cells swelled by 29+/-3% in the presence of KCN. This cyanide-induced swelling of cells was prevented by amiloride or, alternatively, by replacing NaCl by equiosmotic amounts of mannitol in the Ringer's fluid. Cells incubated in the presence of vasopressin swelled by 10+/-2%. Vasopressin and KCN acted synergistically in enhancing cell volume. Ouabain caused cells to swell by 9+/-2%, and this effect was not additive to the swelling seen with vasopressin. These observations are in accord with the theory of Leaf and his associates, that the predominant effect of vasopressin is to enhance sodium entry into the transporting epithelial cells of the toad urinary bladder.
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PMID:Action of vasopressin, ouabain, and cyanide on the volume of isolated toad bladder epithelial cells. 40 62

Dust levels were determined in the three principal work areas of five high-capacity, saw-type cotton gins processing spindle-picked cotton. Dust levels measured by the vertical elutriator, OSHA personal and stationary personal samplers averaged 0.66, 0.96 and 0.87 mg/m3, respectively. Gross chemical analyses of dust samples collected indicated that the composit0n of the dust was highly variable and different for the principal work areas within each gin -- 15 to 53% ash, 2 to 5% moisture, 8 to 18% protein, 19 to 55% cellulose and 8 to 16% water-extractable constituents. Major elements were silicon, potassium, aluminum, calcium and magnesium.
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PMID:Levels and chemical composition of cotton gin dust. 74 99

A revertible turbidity happens in the depectinized red raspberry juice under refrigeration. Its analysis is carried out: --Chemically: Total sugar determination by anthrone methol, galacturonic acid determination by carbazol, total nitrogen determination according to Berthelot's coloured reaction (automated analysis) -- Physically: Calcium, potassium and magnesium determinations by atomic absorption. -- Chromatographically: Sugar separation and determination by HPLC. M. W. determination of the different entites by GPC (gel Sephadex G 100). Pectic substances separation on DEAE-cellulose column. The turbidity ensues from an enhanced by cold and acidic pH flocculation process which occurs between the large nitrogeneous molecules (inactive and enzymic proteins mainly). M. W. (superior to 150.000) of the depectinizing preparation and rich in glucose and mannose polysaccharidiques (M. W. between the range from 1.000 to 10.000) accompanied by aldobiuronic units. The origin of the manno-glucan entity remains to be determined. It could be issued either a limit-substrate produced by the degradation of the raspberry pectic substances or an by Aspergillus niger excreted compound.
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PMID:[Proteo-polysaccharidic turbidity in depectinized raspberry juice]. 75 86

To assess the role of routine investigations in children presenting with their first febrile convulsion, the results of investigations carried out in 328 children over a 2-year period were reviewed. Lumber puncture was performed in 96% of cases and resulted in the detection of 4 cases of unsuspected meningitis, one of which was bacterial. 2 children had normal lumbar punctures on admission but developed meningococcal meningitis within 48 hours. Sugar, calcium, urea, and electrolyte estimations, and blood counts were commonly performed but were unhelpful. We suggest that lumbar puncture in those children presenting with their first febrile convulsion under the age of 18 months is the only useful routine investigation.
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PMID:Role of routine investigations in children presenting with their first febrile convulsion. 84 97

Freeze cleaving electron microscopy has shown that fusion of isolated secretory vesicles from bovine neurohypophyses was induced by Ca2+ in micromolar concentrations. Mg2+ and Sr2+ were ineffective. Mg2+ inhibited Ca2+-induced fusion. In suspensions containing secretory vesicles as well as sheets of cell membrane, release of vasopressin parallel to intervesicular fusion and fusion of secretory vesicles with sheets of cell membrane was observed after exposure to Ca2+. Mg2+ and Sr2+ were ineffective in replacing Ca2+ as trigger for fusion or vasopressin release. Intervesicular fusion and exocytotic profiles were observed when isolated neurohypophyses or neurosecretosomes were exposed to cold.
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PMID:Fusion of neurohypophyseal membranes in vitro. 90 83

The available evidence suggests that hormones and neurophysins are associated exclusively with the neurosecretory granules, each of which contains approximately 6 times 10-4 molecules of each. Hormones and carrier proteins are complexed within the granules and the complexes are densely packed. The processes that keep the intragranular space in osmotic equilibrium with the axoplasm require further study. Freeze-fracture data, as well as studies in which histochemical methods for the detection of glycoproteins were used, suggest that the intragranular aspect of the granule membrane mostly resembles the extracellular half of the plasma membrane; on the other hand, the cytoplasmic aspects of plasma and granule membrane have similar characteristics, which may be important in permitting membrane fusion to take place prior to secretion. Little is known about the molecular species involved in this interaction between granule and plasma membrane, except that calcium is a cofactor in this process. Release is triggered in vivo by propagated action potentials which cause an influx of calcium into the secretory endings. Newly formed granules, and other granules located at the periphery of the endings are preferentially released. Irrespective of the type of stimulation of secretion, release involves the diffusion into the extracellular space of granule core constituents. The best evidence so far in support of this view comes from ultrastructural studies showing images of exocytosis, as well as from biochemical studies demonstrating that hormones and carrier proteins are secreted concomitantly in a great variety of experimental or clinical conditions, without an associated release of granule membrane constituents or of enzymes of cytoplasmic origin. Recovery mechanisms following secretion require new synthesis of granule constituents and restoration of the resting internal concentrations of potassium, sodium, and calcium. Membrane surface area is restored following exocytosis by compensatory endocytosis which involves indiscriminate uptake of extracellular medium into the secretory axon terminals. While much progress has been made in research on the cellular and subcellular processes that take place in neurons which produce, store, and secrete neurohypophyseal hormones and their carrier proteins, neurophysins, many pressing questions remain to be answered. New developments, such as organ culture of supraoptic nuclei94-96 and the recent isolation of a clone of mouse hypothalamic cells capable of synthesizing vasopressin and neurophysin,97 will hopefully allow some of these problems to be solved in the future.
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PMID:A review on neurosecretory granules: their contents and mechanisms of release. 109 Nov 94

Bone is a tissue that responds to mechanical load by changing its internal architecture. However, the mode of transmission of mechanical stimuli into biological signals and the effect of load at the cellular level are still not clear. An in vitro system, a Flexercell Strain Unit, was used to apply cyclic load to osteoblast-like cells in culture. In the first series of experiments, ROS 17/2.8 rat osteosarcoma cells, cultured on Flex I, flexible bottomed culture plates, were subjected to a 0.05 Hz, 0.24 STRAIN cyclic load regime for 3 and 7 days, in vitro. One group subjected to load received verapamil, a calcium channel blocker, throughout the experimental period. A second group was exposed to load but received no verapamil. A third group had no drug or load and a fourth group had no load but received verapamil. Cultures were incubated for 24 hours prior to collection with 10 microCi of 45CaCl in the medium, then well bottoms were divided to yield outer (maximum) and inner (minimum) load zones for assay of radioactivity. The effect of verapamil during a 7-day loading period was studied by adding the drug to individual cultures at daily intervals. Results indicated that mechanical loading stimulates calcium incorporation in ROS 17/2.8 cell cultures by day 7 but not by day 3. Only early verapamil addition decreased load-induced calcium incorporation when drug was added prior to day 4. If verapamil was added after 4 days, the channel blocker did not diminish load-induced calcium incorporation.
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PMID:Verapamil decreases cyclic load-induced calcium incorporation in ROS 17/2.8 osteosarcoma cell cultures. 128 12

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