Inhibition of hepatoma cell invasion beneath mesothelial-cell monolayer by sera from tea- and related component-treated rats and their modes of action.

The bioavailability and action of teas on the invasion of a rat ascites hepatoma cell line, AH109A, were determined and their modes of action were by co-culturing the cancer cells with a rat mesentery-derived mesothelial-cell (M-cell) monolayer in the presence of sera from rats orally given teas and their component, (-)-epigallocatechin gallate (EGCG). The rat sera obtained 2 and 5 hr after oral intubation of a low concentration of green, oolong, or black tea, or EGCG significantly inhibited AH109A invasion underneath the M-cell monolayer. These sera showed a time-dependent and significant inhibitory effect on the AH109A invasion. The 2-hr sera and 2.5 muM EDTA in the medium completely eliminated the enhancement of AH109A invasion induced by a reactive oxygen species (ROS)-generating system. These results show that the inhibition of relevant ROS-potentiated invasion of AH109A cells across the M-cell monolayer may be due to the antioxidative action of EGCG, the in vivo metabolites, and tea-induced changes in the endogenous substances. The results suggest that the drinking of tea in daily life may have certain preventive and therapeutic effects against cancer cell invasion.