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Cancer Center

Reprogramming Stem Cells May Prevent Cancer after Radiation

The body has evolved ways to get rid of faulty stem cells. A University of Colorado Cancer Center study published December 29th 2014 in the journal Stem Cells shows that one of these ways is a “program” that makes stem cells damaged by radiation differentiate into other cells that can no longer survive forever. Radiation makes a stem cell lose its “stemness.” That makes sense: you don’t want damaged stem cells sticking around to crank out damaged cells.

A release from the university explains that Tthe study also shows that this same safeguard of “programmed mediocrity” that weeds out stem cells damaged by radiation allows blood cancers to grow in cases when the full body is irradiated. And by reprogramming this safeguard, we may be able to prevent cancer in the aftermath of full body radiation.

The release quotes James DeGregori, PhD, investigator at the CU Cancer Center, professor of Biochemistry and Molecular Genetics at the CU School of Medicine, and the paper’s senior author, as saying, “The body didn’t evolve to deal with leaking nuclear reactors and CT scans. It evolved to deal with only a few cells at a time receiving dangerous doses of radiation or other insults to their DNA.” .

DeGregori, doctoral student Courtney Fleenor, and colleagues explored the effects of full body radiation on the blood stem cells of mice. In this case, radiation increased the probability that cells in the hematopoietic stem cell system would differentiate. Only, while most followed this instruction, a few did not. Stem cells with a very specific mutation were able to disobey the instruction to differentiate and retain their “stemness“. Genetic inhibition of the gene C/EBPA allowed a few stem cells to keep the ability to act as stem cells. With competition from other, healthy stem cells removed, the stem cells with reduced C/EBPA were able to dominate the blood cell production system. In this way, the blood system transitioned from C/EBPA+ cells to primarily C/EBPA– cells.

Mutations and other genetic alterations resulting in inhibition of the C/EBPA gene are associated with acute myeloid leukemia in humans. Thus, it’s not mutations caused by radiation but a blood system reengineered by faulty stem cells that creates cancer risk in people who have experienced radiation.

“It’s about evolution driven by natural selection,” DeGregori says. “In a healthy blood system, healthy stem cells out-compete stem cells that happen to have the C/EBPA mutation. But when radiation reduces the heath and robustness (what we call ‘fitness’) of the stem cell population, the mutated cells that have been there all along are suddenly given the opportunity to take over.”

Think about it in terms of chipmunks and squirrels: reducing an ecosystem’s population of chipmunks may allow squirrels to flourish – especially if the way in which chipmunks are reduced changes the ecosystem to favor squirrels, similar to how radiation changes the body in a way that favors C/EBPA-mutant stem cells).

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