Comparison of hexadecylphosphocholine with fish oil as an antitumor agent.

Hexadecylphosphocholine (HePC) reduced the growth of the human mammary tumor, MX-1, in the athymic nude mouse similar to the fish oil, MaxEPA. When used together, HePC and MaxEPA were additive towards reducing tumor growth. An unsaturated alkylphosphocholine mixture, ShisoPC, was not as effective as HePC in reducing tumor growth. MaxEPA reduced tumor PGE2 levels greater than 90%, while HePC and the ShisoPC only reduced tumor PGE2 40-60% with HePC being slightly better than ShisoPC. MaxEPA markedly increased the cellular omega 3 fatty acids and decreased 20:4 omega 6, the substrate for PGE2. HePC did not alter the tumor fatty acid composition, but it significantly lowered the total fatty acid concentration of the tumor by about 47%. In addition, phosphatidylcholine and sphingomyelin decreased in tumors from animals treated with HePC, and alterations in other phospholipids also were noted. These data suggest that different mechanisms exist for HePC and fish oil in reducing tumor growth.

Effects of omega 3 fatty acids on receptor tyrosine kinase and PLC activities in EMT6 cells.

The effects of omega 3 fatty acids and epidermal growth factor (EGF) on the activity of receptor tyrosine kinase (RTK) and phospholipase C (phosphatidylinositol (PI)-specific PLC) were examined in EMT6 cells. The non-omega 3 treated, non-EGF stimulated cells served as controls. Treatment of the EMT6 cells with omega 3 fatty acids resulted in a 62% increase in RTK activity and a 67% increase in PI-specific PLC activity. When EGF was added to incubations for RTK activity, it stimulated the RTK activity 40% in the control cells and 130% in the omega 3-treated cells. When EGF was added to incubations for PI-specific PLC activity, a 54% increase in PI-specific PLC activity was observed in control cells and a 94% increase in the omega 3-treated cells. Thus, treating EMT6 cells with omega 3 fatty acids seems to increase RTK activity and PI-specific PLC activity to a similar extent, but has differential effects on the ability of these enzyme activities to be stimulated by EGF.