Mechanisms of ascorbic acid-induced inhibition of chemical transformation in C3H/10T1/2 cells.

Ascorbate irreversibly inhibited morphological transformation induced by methylcholanthrene in C3H/10T1/2 cells. To determine the mechanisms of this inhibition, we studied ascorbate uptake, redox potential, matrix proteins, and lipid composition of 10T1/2 cells. Ascorbate (16.8 nmol/dish) saturated cells and reduced the NADH-to-NAD+ ratio. Daily treatments with ascorbate, 28 nmol/dish, maintained intracellular ascorbate and reduced NADH by half. Matrix collagen and glycoproteins were stimulated by ascorbate, Iso-ascorbate, and dehydroascorbate in a dose-dependent manner. Both ascorbate and dehydroascorbate reduced total lipids with time; neutral lipids increased but were released into the media, phospholipids were modified, cholesterol-phospholipid ratios declined, and an inverse relationship between unsaturation index and cholesterol-phospholipids was apparent. Lipophilic bodies gradually accumulated. Our data suggest that inhibition of transformation by ascorbate, Iso-ascorbate, or dehydroascorbate may be associated with regulation of the redox potential, glycoproteins, and lipids in 10T1/2 cells.