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Zinc Uptake (zinc + uptake)

Distribution by Scientific Domains

Life Sciences	100%

Selected Abstracts

Changes in zinc uptake in response to ascorbic acid and folic acid in rat liver slices under normal and oxidative stress conditions

BIOFACTORS, Issue 1 2007
R.S. Tupe
Abstract Zinc plays a dual role, as an integral part of metabolic machinery and in defense against reactive oxygen species. Hepatocytes are important sites for zinc metabolism for synthesis of zinc metalloproteins and maintaining its homeostasis. However, the factors influencing post absorptive zinc metabolism under normal and oxidative stress (OS) conditions are not well understood. Using rat liver slices, we conducted a series of four in vitro zinc uptake experiments to study influence of ascorbic acid and folic acid in normal and oxidative stress conditions with Zn concentrations representing deficient to excess states (7.7,30.7 millimole/L). Zinc uptakes under OS at these four zinc levels were lower than the normal conditions. Folic acid showed significant inhibitory effect on zinc uptake under both normal and OS conditions in a dose response manner. Nevertheless, dose response of ascorbic acid at four zinc levels indicated its marked enhancing effect under OS condition. Differences in zinc uptake trend lines between the normal and OS conditions for interaction of both the vitamins narrowed down as the zinc levels increased. Our results suggest that folic acid causes inhibitory effect, while ascorbic acid may be protective in OS with reference to zinc uptake. [source]

Response of extracelluar zinc in the ventral hippocampus against novelty stress

JOURNAL OF NEUROCHEMISTRY, Issue 2 2006
Atsushi Takeda
Abstract An extensive neuronal activity takes place in the hippocampus during exploratory behavior. However, the role of hippocampal zinc in exploratory behavior is poorly understood. To analyze the response of extracellular zinc in the hippocampus against novelty stress, rats were placed for 50 min in a novel environment once a day for 8 days. Extracellular glutamate in the hippocampus was increased during exploratory behavior on day 1, whereas extracellular zinc was decreased. The same phenomenon was observed during exploratory behavior on day 2 and extracellular zinc had returned to the basal level during exploratory behavior on day 8. To examine the significance of the decrease in extracellular zinc in exploratory activity, exploratory behavior was observed during perfusion with 1 mm CaEDTA, a membrane-impermeable zinc chelator. Locomotor activity in the novel environment was decreased by perfusion with CaEDTA. The decrease in extracellular zinc and the increase in extracellular glutamate in exploratory period were abolished by perfusion with CaEDTA. These results suggest that zinc uptake by hippocampal cells is linked to exploratory activity and is required for the activation of the glutamatergic neurotransmitter system. The zinc uptake may be involved in the response to painless psychological stress or in the cognitive processes. [source]

A peroxide-induced zinc uptake system plays an important role in protection against oxidative stress in Bacillus subtilis

MOLECULAR MICROBIOLOGY, Issue 4 2002
Ahmed Gaballa
Summary In Bacillus subtilis, hydrogen peroxide (H2O2) induces expression of the PerR regulon including catalase (KatA), alkyl hydroperoxide reductase and the DNA-binding protein MrgA. We have identified the P-type metal-transporting ATPase ZosA (formerly YkvW) as an additional member of the perR regulon. Expression of zosA is induced by H2O2 and repressed by the PerR metalloregulatory protein, which binds to two Per boxes in the promoter region. Physiological studies implicate ZosA in Zn(II) uptake. ZosA functions together with two Zur-regulated uptake systems and one known efflux system to maintain Zn(II) homeostasis. ZosA is the major pathway for zinc uptake in cells growing with micromolar levels of Zn(II) that are known to repress the two Zur-regulated transporters. A perR mutant is sensitive to high levels of zinc, and this sensitivity is partially suppressed by a zosA mutation. ZosA is important for resistance to both H2O2 and the thiol-oxidizing agent diamide. This suggests that increased intracellular Zn(II) may protect thiols from oxidation. In contrast, catalase is critical for H2O2 resistance but does not contribute significantly to diamide resistance. Growth of cells with elevated zinc significantly increases resistance to high concentrations of H2O2, and this effect requires ZosA. Our results indicate that peroxide stress leads to the upregulation of a dedicated Zn(II) uptake system that plays an important role in H2O2 and disulphide stress resistance. [source]