Background. 3,3'-Diindolylmethane (DIM) is a proposed cancer prevention agent that can be given safely to humans in oral form. We showed that DIM protects normal cells and tissues from damage by ionizing radiation. The protection is due, in part, by ATM activation and is potentially exploitable for protecting normal tissues and organs in the radiotherapy clinic. In preliminary studies, DIM did not protect human breast xenograft tumors in nude mice, but strongly protected mice and rats against supralethal doses of total body irradiation up to 13-Gy. Hypothesis. Here, we hypothesize that DIM activates an ATM-dependent cytoprotective DNA damage response (DDR) and antioxidant response without itself causing DNA damage or oxidative stress. We predict differential protection of normal cells relative to tumor cells in vivo because tumors already exhibit constitutive activation of a similar DDR-like pathway and of cellular survival pathways (e.g., AKT, NF-?B, Bcl-2/Bcl-XL). Research design. We propose three specific aims to investigate DIM's mechanism of action and to advance DIM as a candidate clinical radiation protector during cancer treatment. The experimental plan will include studies to: 1) identify the molecular mechanism(s) of DIM radioprotection up- and down-stream of ATM by the use of biochemical, molecular biologic, and genetic approaches; 2) test the effects of DIM on tumor growth and tumor radiosensitivity in response to fractionated radiation treatments; and 3) test the ability of DIM to protect against late radiation effects in normal tissues, using established mouse models for lung and skin toxicity. Significance. The proposed research addresses the development of a novel means of radioprotection of normal tissues in cancer radiation therapy. The ultimate goal is to develop DIM as a clinical radioprotector in order to improve the therapeutic index by allowing higher doses of radiation to improve locoregional tumor control and/or by reducing late dose-limiting normal tissue toxicity at any given dose of radiation.
In preliminary studies, we observed that 3,3'-diindolylmethane (DIM), a proposed cancer prevention agent, strongly protects normal cells and tissues from damage due to gamma radiation. In this application, we propose a series of pre-clinical studies using cell culture and animal models, with the goal of advancing DIM toward approval as a radioprotector in the radiation therapy clinic, in order to improve the efficacy of cancer treatmen and reduce the side effects of treatment.
|Rosen, Eliot M; Day, Regina; Singh, Vijay K (2014) New approaches to radiation protection. Front Oncol 4:381|