1,721,111 research outputs found
Imaging of oxidative stress at subcellular level by confocal laser scanning microscopy after fluorescent derivativization of cellular carbonyls
No full textThe use of 3-hydroxy-2-naphthoic acid hydrazide and Fast Blue B for the histochemical detection of lipid peroxidation in animal tissues - A microphotometric study
No full textFunzionamento accoppiato delle pompe del calcio e dell'attività glucoso-6 fosfatasica nei microsomi epatici: risultati preliminari [Functional coupling of the calcium pump and glucose 6-phosphatase activity in liver microsomes: preliminary results]
No full textThe addition of G-6-Pi to the incubation system for MgATP-dependent calcium transport in liver microsomes results in a marked stimulation of Ca2+ uptake. At physiological pH values (7.2-7.4), the G-6-Pi stimulated calcium uptake is maximal and equals that obtained with oxalate at pH 6.8. In the system for the G-6-Pi-stimulated calcium uptake, G-6-Pi is actively hydrolyzed by the glucose 6-phosphatase activity of liver microsomes. Such an activity is not influenced by the concomitant calcium uptake. After the incubation of the system for the MgATP-dependent microsomal calcium transport in the presence of G-6-Pi, Pi and calcium are found in equal concentrations, on a molar base, in the recovered microsomal fraction. These results are interpreted in the light of a possible cooperative activity between the energy-dependent calcium pump of liver microsomes and the glucose 6-phosphatase multicomponent system
Protection by ascorbate against apoptosis of thymocytes: implications of ascorbate-induced nonlethal oxidative stress and poly(ADP-ribosyl)ation
No full textApoptosis can be triggered in thymocytes with stimuli (6α- methylprednisolone, thapsigargin, and etoposide) acting by different mechanisms. In each of these instances cell death is extensively prevented until 5 h of incubation when cells are preincubated with 250 μM ascorbic acid (AA) for 1 h, then washed, and incubated in fresh medium containing the above mentioned apoptotic stimuli. In addition, the degree of spontaneous apoptosis of untreated thymocytes is somewhat lower in the AA-preincubated cells. The protection against apoptosis does not seem to be dependent on the intracellular enrichment of AA, as measured at the end of the preincubation period. On the contrary, such a protection is strictly related to a partial loss of ascorbate in the medium (possibly due to its autooxidation), is catalase-inhibitable, and is reproduced by a preincubation of the cells with nontoxic concentrations of hydrogen peroxide. The AA-supplemented cells show a remarkable decrease in NAD+ levels and a significant increase of poly(ADP- ribose) polymerase (PARP) activity. Consistently with these results, the addition of PARP inhibitors, such as thymidine and 3-aminobenzamide, during the preincubation with AA, prevents NAD+ depletion and abolishes the protective effect of AA against apoptosis. The possibility is discussed that an early activation of PARP by stimuli which are nontoxic per se makes the cells able to withstand subsequent apoptotic stimuli which are otherwise lethal
Proceedings of the 1st Italian Symposium on Molecular and Cellular Toxicology
No full textThe Supplement of Pharmacol. Toxicol. containing the Proceedings of the 1st Italian Symposium on Molecular and Cellular Toxicolog
Inibizione dell'attività calcio sequestrante dei microsomi epatici nella intossicazione da monobromotriclorometano: studi preliminari sui possibili meccanismi [Inhibition of the calcium-sequestering activity of liver microsomes in monobromotrichloromethane poisoning: preliminary studies on possible mechanisms]
No full textThe mechanisms by which the in vivo intoxication with BrCCl3 inhibits the calcium sequestration activity of liver microsomes were studied. The initial rate of Ca2+ transport is inhibited by nearly 50% in the intoxicated rats as compared to the controls; this indicates that the active transport of Ca2+ is markedly affected by the intoxication. The microsomal ATPases activities both in the presence and in the absence of Ca2+ were not decreased at all in the intoxicated animals. However, the Ca2+-dependent extra ATP hydrolysis shows a different kinetics in the BrCCl3-poisoned rats with respect to the controls. The release of Ca2+ from Ca2+ loaded liver microsomes is higher in the intoxicated animals. It seems therefore that the increased permeability of the membrane to Ca2+ contributes to some extent to the haloalkane-induced inhibition of the calcium sequestration activity of liver microsomes
Allyl alcohol-induced hemolysis and its relation to iron release and lipid peroxidation
No full textAllyl alcohol administration to starved mice produced, along with liver necrosis, a high incidence (about 50%) of hemolysis. A marked decrease in erythrocyte glutathione (GSH) was seen in all the intoxicated animals. Such a decrease was significantly higher in the animals showing hemolysis. In these animals a substantial amount of malonic dialdehyde (MDA) was detected in plasma and a marked decrease in arachidonic and docosahexaenoic acids was found in erythrocyte phospholipids. These data suggest that the allyl alcohol-induced hemolysis is mediated by lipid peroxidation. In vitro studies have shown that the addition of acrolein to mouse erythrocytes produces a dramatic GSH depletion, which is followed by the appearance of lipid peroxidation and, after an additional 30 min of incubation, by the development of hemolysis. Prevention of lipid peroxidation by an antioxidant (Trolox C) or an iron chelator (desferrioxamine, DFO), prevented hemolysis even if the erythrocyte GSH level was dramatically decreased. In vitro, allyl alcohol and acrylic acid were ineffective in inducing GSH depletion, lipid peroxidation and hemolysis. Studies of possible induction of lipid peroxidation in erythrocytes showed that a progressive increase in "free" (desferal chelatable) iron occurs in the erythrocytes during the incubation with acrolein. It seems, therefore, that a release of iron from iron-containing complexes occurs in acrolein-treated erythrocytes and that such "free" iron promotes lipid peroxidation. © 1989
Liver glutathione depletion induced by bromobenzene, iodobenzene and diethylmaleate poisoning and its relation to lipid peroxidation and necrosis
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