Summary:
The dangers of depleted uranium are well known, and little discussed (though well covered by GNN). Now, research by University of Arizona biochemist Diane Stearns has established the basic means by which DU promotes cancerous cell mutation and causes mass deaths. Hopefully, her work will not be brushed under the carpet and the thousands (millions?) of victims of DU contamination worldwide can use it to bring their abusers to justice.
Biochemist reports that DU binds with cells, heightening risk of deadly mutations
The use of depleted uranium in munitions and weaponry is likely to come under intense scrutiny now that new research that found that uranium can bind to human DNA. The finding will likely have far-reaching implications for returned soldiers, civilians living in what were once war-zones and people who might live near uranium mines or processing facilities.
Uranium - when manifested as a radioactive metal - has profound and debilitating effects on human DNA. These radioactive effects have been well understood for decades, but there has been considerable debate and little agreement concerning the possible health risks associated with low-grade uranium ore (yellowcake) and depleted uranium.
Now however, Northern Arizona University biochemist Diane Stearns has established that when cells are exposed to uranium, the uranium binds to DNA and the cells acquire mutations, triggering a whole slew of protein replication errors, some of which can lead to various cancers. Stearns' research, published in the journals Mutagenesis and Molecular Carcinogenesis, confirms what many have suspected for some time - that uranium can damage DNA as a heavy metal, independently of its radioactive properties. "Essentially, if you get a heavy metal stuck on DNA, you can get a mutation," Stearns explained. While other heavy metals are known to bind to DNA, Stearns and her team were the first to identify this characteristic with uranium.
Depleted uranium – what is left over when the highly radioactive isotopes of uranium are removed – is widely used by the military. Anti-tank weapons, tank armor and ammunition rounds are just some of the applications. "The health effects of uranium really haven't been studied since the Manhattan Project (the development of the atomic bomb in the early 1940s). But now there is more interest in the health effects of depleted uranium. People are asking questions now," Stearns said.
Her research may shed light on the possible connection between exposure to depleted uranium and Gulf War Syndrome, or to increased cancers and birth defects in the Middle East and Balkans. And closer to home, questions continue to be asked about environmental exposure to uranium from mine tailings; heavily concentrated around Native American communities. "When the uranium mining boom crashed in the '80s, there wasn't much cleanup," Stearns said. Estimates put the number of abandoned mines on the Navajo Nation in Arizona at more than 1,100.