Mechanism of gold adsorption by persimmon tannin gel.
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Gold adsorption by persimmon tannin (PT) gel from a solution containing hydrogen tetrachloroaurate(III) was examined. A flow-rate examination in a column system indicated the reduction of Au(III) ion to Au(0). XRD patterns clarified the existence of Au(0) on the gel which adsorbed gold. The gel could also adsorb colloidal Au(0) prepared independently. A model consisting of ligand exchange, Au(III) reduction to Au(0), and resulting Au(0) adsorption by PT gel was presented for the gold adsorption mechanism. (+info)
A new phlorotannin from the brown alga Ecklonia stolonifera.
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A new phlorotannin, named eckstolonol (1), was isolated from the EtOAc soluble fraction of the methanolic extract of the brown alga, Ecklonia stolonifera OKAMURA, along with three known phlorotannins, eckol (2), phlorofucofuroeckol A (3), and dieckol (4). The structure of eckstolonol was identified as 5,8,13,14-tetraoxa-pentaphene-1,3,6,9,11-pentaol on the basis of spectroscopic evidence. The new compound was found to be a radical scavenger on the 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical. (+info)
Mouse mammary tumor virus gene expression is suppressed by oligomeric ellagitannins, novel inhibitors of poly(ADP-ribose) glycohydrolase.
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Oligomeric ellagitannins (nobotanins B, E, and K) were found to be potent inhibitors of poly(ADP-ribose) glycohydrolase purified from mouse mammary tumor 34I cells. Kinetic analysis revealed that the inhibition of nobotanin B (dimer) was competitive with respect to the substrate poly(ADP-ribose), whereas nobotanin E (trimer) and nobotanin K (tetramer) exhibited mixed-type inhibition. These results suggest that the dimeric structure of ellagitannin may have a functional domain that competes with poly(ADP-ribose) on the poly(ADP-ribose) glycohydrolase molecule. To determine the inhibitory effects of oligomeric ellagitannins on poly(ADP-ribose) glycohydrolase in vivo, we examined their effects on de-poly(ADP-ribosyl)ation of some chromosomal proteins in intact 34I cells that was induced by glucocorticoid treatment. Nobotanin B caused concentration-dependent inhibition of glucocorticoid-induced de-poly(ADP-ribosyl)ation of HMG 14 and 17 and histone H1 in intact 34I cells. Interestingly, this inhibition was associated with suppression of the glucocorticoid-sensitive mouse mammary tumor virus (MMTV) mRNA synthesis. In contrast, nobotanin E and K had little inhibitory effect on either de-poly(ADP-ribosyl)ation of these proteins or induction of MMTV transcription after glucocorticoid treatment. Nobotanin B but not E and K was taken into 34I cells. These results may suggest that the suppression of glucocorticoid-sensitive MMTV transcription results from in vivo inhibition of poly(ADP-ribose) glycohydrolase by nobotanin B. These results also indicate the importance of de-poly(ADP-ribosyl)ation of HMG 14 and 17 and histone H1 in regulation of transcription of the glucocorticoid-sensitive MMTV gene. (+info)
Cardiotonic action of two tannins.
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A tannin isolated from Paullinia pinnata Linn., and tannic acid, have cardiotonic actions on the isolated perfused frog heart. Paullinia tannin is more firmly "fixed" than tannic acid. Tannin solutions contain peroxide, but the cardiotonic action is not dependent on this, since drugs believed to prevent peroxide formation, and sodium pyruvate which destroys peroxides, do not prevent the cardiotonic action. Maximal stimulation by tannin greatly reduces subsequent stimulation by ouabain. If calcium is omitted from the Ringer solution tannins cannot stimulate the heart. In this respect they differ from ouabain. However, the ouabain stimulation can be prevented by prior perfusion with tannin. It is suggested that the antagonism between tannin and ouabain is due to the former preventing ouabain from reaching its receptor sites, and that tannin stimulation is dependent on the formation of a calcium-tannin complex at the heart surface. In the isolated perfused mammalian heart preparation tannins increase diastolic tonus and coronary flow. (+info)
Importance of calcium in the actions of some drugs that stimulate the isolated hypodynamic frog heart.
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Eight drugs that stimulate the isolated hypodynamic frog heart have been tested for their ability to stimulate hearts freshly perfused in calcium-free Ringer solution. Ouabain and digitoxigenin regularly caused stimulation, veratridine did so occasionally. Hydrogen peroxide, tannic acid, paullinia tannin (from Paullinia pinnata, Linn.), sodium oleate and sodium caprylate did not stimulate. The stimulant action of ouabain could be prevented or greatly reduced by prior perfusion with either of the two tannins or with hydrogen peroxide. Hearts perfused for 3 to 4 hr with calcium-free Ringer solution, or hearts perfused for shorter periods of time with calcium-free Ringer solution containing the disodium salt of ethylenediaminetetra-acetic acid, behave unusually in that when perfusion with low-calcium Ringer solution is resumed twitch tension does not return for periods ranging from 10 to 90 min. Ouabain is unable to stimulate these "calcium-depleted" hearts. It is suggested that hydrogen peroxide, the two tannins, oleate and caprylate stimulate by causing the heart to increase the uptake of calcium from the perfusion fluid to a superficial site where calcium is necessary for the propagation of excitation from the cell membrane inwards. A special feature of the action of cardiac glycosides may be their ability to enable the heart to utilize in a similar way the intracellular stores of calcium. (+info)
THE INTERACTION OF SOME STIMULANT AND DEPRESSANT DRUGS ON THE FROG HEART.
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THE ACTIVITY OF FROG ISOLATED HEARTS WAS DEPRESSED BY ALTERING THE PERFUSING RINGER SOLUTION IN FIVE DIFFERENT WAYS: by reducing the calcium content, by increasing the potassium content, and by adding ether, thiopentone or acetylcholine. Depressed hearts were perfused with Ringer solution containing the following stimulant drugs: paullinia tannin, tannic acid, hydrogen peroxide, sodium oleate, sodium caprylate and ouabain. All these stimulant drugs had similar actions on hearts depressed by calcium lack, ether and thiopentone; hearts depressed by acetylcholine were, however, only weakly stimulated. Hearts depressed by potassium were readily stimulated by oleate, caprylate and paullinia tannin; ouabain and hydrogen peroxide had weak stimulant actions on hearts depressed by potassium, and tannic acid had a negative inotropic action. The differing actions on hearts depressed by potassium are probably related to differences in the degrees of fixation of the stimulant drugs. The mode of action of ouabain and the functional lesion in hearts depressed by narcotics are discussed. (+info)
FATAL LIVER DAMAGE AFTER BARIUM ENEMAS CONTAINING TANNIC ACID.
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Tannic acid contained in the barium enema was found to have been the sole known potential hepatotoxin in four of the five cases of fulminating fatal liver failure that occurred in a 213-bed hospital over a period of 27 months. In the other case halothane anesthesia had also been administered. Autopsies (performed on four of the cases) did not suggest viral hepatitis but showed substantially indentical hepatic changes, not unlike those reported in the past following tannic acid exposure. Proof is not claimed that tannic acid was the cause of these deaths, but further investigation regarding the safety of its administration in barium enemas is advocated. (+info)
EFFECT OF WATER EXTRACTS OF CAROB PODS, TANNIC ACID, AND THEIR DERIVATIVES ON THE MORPHOLOGY AND GROWTH OF MICROORGANISMS.
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The effect of aqueous extracts of carob (Ceratonia siliqua) pods, gallotannic acid, gallic acid, and catechol on several microorganisms was studied. Carob pod extract and tannic acid showed a strong antimicrobial activity toward some cellulolytic bacteria. On the basis of tannin content, to which antimicrobial effect was related, carob pod extracts inhibited Cellvibrio fulvus and Clostridium cellulosolvens at 15 mug/ml, Sporocytophaga myxococcoides at 45 mug/ml, and Bacillus subtilis at 75 mug/ml. The inhibiting concentrations for tannic acid were found to be 12, 10, 45, and 30 mug/ml, respectively. Gallic acid and catechol were much less effective. Tannic acid and the tannin fraction of carob extract exerted both bacteriostatic and bactericidal effects on C. fulvus. Respiration of C. fulvus in the presence of bactericidal concentrations of tannic acid or tannin fraction of carob extract was inhibited less than 30%. A partial formation of "protoplasts" by C. fulvus was obtained after 2 hr of incubation in a growth medium to which 20% sucrose, 0.15% MgSO(4).7H(2)O, and 10 to 50 mug/ml of tannic acid or 500mug/ml of penicillin, or both, had been added. Tannic acid and the tannin fraction of carob extract protected C. fulvus from metabolic lysis in sucrose solution. Although the growth of other microorganisms tested was only slightly affected, the morphology of some of them was drastically changed in the presence of subinhibitory concentrations of carob pod extracts of tannic acid. It is suggested that the site of action of tannins on sensitive microorganisms is primarily the cell envelope. (+info)