Abstract 3729: Novel radiation mitigators and anticancer drugs

Abstract

Abstract The possibility of a radiation disaster from a nuclear detonation or accident has existed for over 50 years and spawned much of the basic research in radiobiology in the 1950-60s. The recent Fukushima accident was yet another reminder that there remains a dire need to develop novel therapies against radiation-induced toxicities. Here we report on the development of two novel radiation countermeasure therapies: CJ010 and Yel002. These small, biologically active, drug-like molecules were uncovered in the DEL high throughput assay reducing radiation-induced cyto- and geno-toxicity in yeast. Radiation-modulating activity was further confirmed in yeast plate-based DEL Assay: addition of either CJ010 or Yel002 to irradiated cultures reduced cell death and genomic instability. Further, the compounds increases survival to 75% in vivo following an LD100/30 dose of ionizing radiation (IR) with the first therapeutic injection administered 24 hours post exposure followed by injections at 48,72,96, and 120 hours. Additionally, treatment with Yel001 an analog of CJ010 and Yel002 compounds reduces radiation-induced leukemia from 90% to to 50% and 40% respectively. Of note, treatment with either Yel001 or Yel002 reduced spontaneous leukemia rate from 10% to 0%. Treatment with Yel002 following IR accelerates the recovery of the hematopoietic cells after sub-lethal exposures. In addition, treatment with Yel002 reduces EMS, MMS, UV, radioactive iodine, cigarette smoke extract as well as nitrogen mustard induced toxicity as well as genotoxicity showing a broad application spectrum. It also prolongs live of cells in a senescence assay. In addition Atm deficient mice live 16 weeks longer with weekly injection of Yel002 which is about 12 years in human life expectancy. In addition, Yel002 complements a zebrafish model of Diamond Blackfan Anemia. It works in yeast, CHO cells, different human cells, mice and zebrafish. Toxicity has not been observed in neither in vitro or in vivo administrations. Overall, Yel compounds have much potential as stockpile therapies for radiation-induced lethality and cancer: they are highly effective when administered up to 24hours post exposure, they reduce radiation-induce sequelae such as leukemia, and appear to have an acceptable toxicity profile. Citation Format: Robert H. Schiestl, Yelena Rivina, Michael Davoren. Novel radiation mitigators and anticancer drugs. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 3729.