Protein inhibition confers radioprotective effects

After 24 hours, the effect was more subtle. DMOG treatment showed little benefit at higher doses of radiation. But at a lower dose, 75% of the treated animals lived for at least 30 days, compared to 18.2% of the untreated animals.

“We found we were still able to rescue a significant proportion of the animals,” Dr Giaccia said.

Finally, the researchers tested the effect of DMOG treatment 24 hours after total-body irradiation.

They found that 37.5% of the treated mice survived for at least 30 days, but only if the mice were also given a bone marrow transplant to restore blood and immune stem cells killed by the radiation. None of the untreated mice lived beyond 10 days.

The investigators pointed out that, although this study suggests a possible way to mitigate the effects of therapeutic radiation exposure, more work remains. But the next steps are clear.

“There are a number of drug molecules that act in a manner similar to DMOG that are already in clinical trials for unrelated conditions,” Dr Giaccia said. “Our next step will be to test some of these molecules to see if they also offer radioprotection.”

Stanford University has filed a patent application, “Use of Prolyl Hydroxylase Inhibitors as a Radioprotective Drug for the Lower Gastrointestinal Tract” (international application No. PCT/US2012/052232), based on the results of this study.