Intravenous (iv) infusion of high-dose ascorbic acid (AA) has been used as a treatment for cancer patients. The tumoricidal action of AA occurs due to its prooxidant effect. Erythorbic acid (EA), one of the AA epimers, has reduced vitamin C activity, while the antioxidant activity of EA is similar to that of AA. Currently, other physiological and pharmacological functions of EA are not well known. We examined the cytotoxicity of EA to murine colon carcinoma (colon-26) cells and the antitumor activity of EA in tumor-bearing mice. Cytotoxic activity of EA to colon-26 cells was evaluated by using the calcein-AM assay. EA showed the same cytotoxic activity to colon-26 cells as that of AA. The cytotoxicity of EA was shown to be caused by oxidative stress. Next, colon-26 tumor-bearing mice were iv administered EA and AA on alternate days for 4 times, and tumor growth rates were measured. Tumor growth was significantly inhibited by administration of high-dose EA in vivo as well as AA. Finally, the in vivo biodistribution and clearance of EA and AA were investigated in tumor-bearing mice. Endogenous AA in the tumor was consumed to resist oxidative stress caused by reactive oxygen species that was generated by administered EA. These results indicated that the oxidative stress-mediated antitumor activity is one of the pharmacological functions of high-dose iv EA.
Keywords: Cancer; Colon-26; Isoascorbic acid; Reactive oxygen species; Xenograft models.