Cold injury is a tissue trauma produced by exposure to freezing temperatures and even brief exposure to a severely cold and windy environment. Rewarming of frozen tissue is associated with blood reperfusion and the simultaneous generation of free oxygen radicals. In this review is discussed the current understanding of the mechanism of action of free oxygen radicals as related to cold injury during rewarming. Decreased energy stores during ischaemia lead to the accumulation of adenine nucleotides and liberation of free fatty acids due to the breakdown of lipid membranes. On rewarming, free fatty acids are metabolized via cyclo-oxygenase and adenine nucleotides are metabolized via the xanthine oxidase pathway. These may be the source of free oxygen radicals. Leukocytes may also play a major role in the pathogenesis of cold injury. Oxygen radical scavengers, such as superoxide dismutase and catalase, may help to reduce the cold induced injury but their action is limited due to the inability readily to cross the plasma membrane. Lipid soluble antioxidants are likely to be more effective scavengers because of their presence in membranes where peroxidative reactions can be arrested.
We have derived cells from the Chinese hamster V79 cell line by conditioning them with repeated low doses of hydrogen peroxide (H(2)O(2)). This mimics the physiological condition where cells are repeatedly exposed to low levels of oxidants. In an attempt to characterize such cells, we have exposed both conditioned cells (V79(C)) and the parental V79 cells (V79(P)) to different types of cytotoxic agents and compared their sensitivity to cell killing. The V79(C) cells were found to be stably resistant to killing by agents that produced toxicity through oxidative stress, e.g. H(2)O(2) and cisplatin. It was also found that the lipid peroxidation produced by these agents were considerably lower in the V79(C) cells. Thus, the difference in sensitivity could be due to lesser extent of damage to these cells. V79(C) cells had greater antioxidant defense through higher GSH content and greater activity of enzymes such as Cu-Zn superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GPx), which provided protection from damage. Enzyme activities were also assayed at different times after treatment with various cytotoxic agents; there was a relatively large increase in SOD activity which perhaps plays a key role in determining the resistance of the V79(C) cells to killing.
Abstract— Holding of acriflavine sensitizedV–79 cells in growth medium before visible light exposure decreases inactivation by visible light. The decrease depended upon the period of holding, indicating that there was release of cellular dye during this period. Exposures to visible light were done in two conditions: (a) with no dye in the medium during visible light exposure (washed) and (b) with dye in the medium during exposure (unwashed). Caffeine was found to slightly increase the sensitivity of the cells to visible light in the washed condition, whereas, in the unwashed condition no such effect was observed. Interaction studies with far UV did not reveal any correlation between photodynamic damage and UV damage. Visible light exposure of acriflavine sensitized cells was found to be mutagenic, as studied from the induction of 8‐azaguanine resistant mutants. Inhibition of singlet oxygen production by sodium azide suppressed the induction of mutants. All these, taken together, have been discussed with respect to the relative importance of DNA and non‐DNA damage in the photodynamic action of acriflavine.
Heat-induced damage in four strains of bacteria has been studied. It has been shown that the damage is repairable on incubation at 37 degrees C in a medium not supporting growth. The extent of repair is dependent upon the strain of bacterium chosen. Recovery from the damage is prominent in the case of filament-forming bacteria, and in non-filament formers, recovery is not totally absent.
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