Title: Relationship between cellular calcium and vitamin E metabolism during protection against cell injury.

Authors: Pascoe, G A; Reed, D J

Published In Arch Biochem Biophys, (1987 Mar)

Abstract: The extent of chemically induced injury to isolated hepatocytes has been previously shown to depend on the content of alpha-tocopherol in the cells, the levels of which are influenced by the concentration of extracellular calcium. Investigations into the effect of calcium on the alpha-tocopherol content of nonchemically exposed cells demonstrated that incubation of isolated hepatocytes in a calcium-deficient medium decreased cell calcium content to 10% of initial levels, and resulted in the depletion of endogenous alpha-tocopherol. This loss in alpha-tocopherol was not accounted for by alpha-tocopherylquinone formation. After supplementation of the cell incubation medium with alpha-tocopheryl succinate, the decreased cell calcium content was associated with higher levels of cellular alpha-tocopherol than in calcium-adequate cells. This was the result of greater intracellular hydrolysis of the tocopheryl ester in the calcium-depleted cells, and not an effect of extracellular calcium concentration on the uptake of alpha-tocopheryl succinate into the cells or on the extracellular hydrolysis of the ester. Uptake studies indicated a much greater achievable level of alpha-tocopherol in hepatocytes after incubation with alpha-tocopherol than with the alpha-tocopheryl ester. These data provide substantial support for the hypotheses that the content of extracellular calcium per se is not the determinant in toxic injury to hepatocytes, but that cell calcium content affects the intracellular metabolism of alpha-tocopherol and its esters, which may subsequently govern the outcome of a toxic challenge.

PubMed ID: 3566275

MeSH Terms: Animals; Calcium/metabolism*; Calcium/physiology; Cell Survival; Liver/metabolism*; Male; Rats; Rats, Inbred Strains; Vitamin E/metabolism*