Oxidative Stress Therapy for Solid Tumors - a Proposal

Many cancers are deficient in catalase activity, and maintain a moderate level of oxidative stress to aid their proliferation and survival. It may prove feasible to achieve substantial selective tumor kill with a three-pronged strategy for acutely exacerbating oxidative stress in cancer cells: inducing increased production of oxidants in tumors with sustained high-dose infusions of sodium ascorbate and menadione, while concurrently undercutting the antioxidant defenses of cancer cells by imposing glucose deprivation - as with 2-deoxyglucose administration or a hypoglycemic insulin clamp - and by suppressing hypoxia-inducible factor-1 activity with available agents such as salicylate, rapamycin, and irinotecan. Inhibition of pyruvate dehydrogenase-1 with dichloroacetate may also promote oxidative stress in hypoxic cancer cells. Cell culture studies could be employed to devise effective protocols that could be tested in xenografted rodents and, ultimately, in exploratory clinical trials.