The effect of α‐Tocopherol and β‐tocopherol on proliferation, protein kinase C activity and gene expression in different cell lines.

Abstract

α‐Tocopherol, but not β‐tocopherol, negatively regulates proliferation of A7r5 vascular smooth muscle cells at physiological concentration. The HeLa cell line was not affected whereas the Chinese hamster ovary cell line (CHO) was slightly inhibited by both α‐tocopherol and β‐tocopherol. In A7r5 cells α‐tocopherol inhibited protein kinase C activity, and this correlated with inhibition of proliferation. β‐Tocopherol did not inhibit either protein kinase C or proliferation. In HeLa cells no inhibition by α‐tocopherol or β‐tocopherol of protein kinase C activity and cell proliferation was observed. In Chinese hamster ovary cells both tocopherols inhibited protein kinase C activity but not proliferation. Thus in the latter cells proliferation was not protein kinase C‐dependent. In A7r5 cells α‐tocopherol but not β‐tocopherol activated AP‐l‐mediated gene expression. In HeLa cells no change in gene expression was observed in agreement with the finding that also protein kinase C was not affected. In CHO cells gene expression was activated by both α‐tocopherol and β‐tocopherol. In this case also a positive correlation was found with similar inhibition of protein kinase C activity. In these cells, however, the changes at the level of protein kinase C activity and gene expression did not result in proliferation changes. The effect of α‐tocopherol and β‐tocopherol on protein kinase C activity and gene expression suggest a cause‐to‐effect relationship. Inhibition of proliferation, however, correlates in the case of A7r5 and HeLa cells but not in the case of CHO suggesting a different proliferation pathway for these cells.