Control of fatty acid incorporation in membrane phospholipids. X-ray-induced changes in fatty acid uptake by tumor cells

Abstract

Lymphosarcoma cells isolated from the spleens of tumor-bearing mice were used to study the effect of a low dose of X-rays (5 Gy) on the incorporation of [ 3H]palmitate and [ 14C]arachidonate into the lipids of the tumor cells. Palmitate and arachidonate were rapidly incorporated especially into the phospholipids of the cells. Between one and three hours after the start of the incubation with radiactive palmitate 80–90% of the label of the total lipids was found in the phospholipid fraction. Already after a few minutes of incubation with radioactive arachidonate, about 95% of the label was incorporated in the phospholipids. Irradiation caused a small but significant increase in the rate of fatty acid incorporation for both fatty acids. Concomitantly, a significantly increased amount of fatty acid was removed from the medium by the cells as a result of the irradiation, and the specific radioactivity of the free fatty acids in the cells was found to be enhanced. The radiation effect on the tumor cells could be mimicked by a hypotonic treatment. The magnitude of the radiation-induced stimulation of the fatty acid incorporation was similar to that of the hypotonically induced effect. Cells which had received a hypotonic treatment before the irradiation, did not show an additional radiation-induced enhancement of fatty acid incorporation into the cellular lipids. When the cells were incubated with serum albumin loaded with a relatively large (non-physiological) amount of complexed fatty acids (fatty acid: albumin molar ratio, ν = 3.7 ), no radiation effect on the fatty acid incorporation could be detected. It is concluded that hypotonic treatment, irradiation, and increased supply of exogenous fatty acids all lead to an enhanced flux of fatty acids into the cells. These results confirm our previous suggestion that the uptake of fatty acids through the plasma membrane is the rate-limiting step in the fatty acid incorporation into the phospholipids and that ionizing radiation is one of the means to enhance fatty acid uptake through the plasma membrane leading to an increased incorporation into the phospholipids.