An essential weapon in the body’s fight against infection has come into sharper view. Researchers at Princeton University have discovered the 3D structure of an enzyme that cuts to ribbons the genetic material of viruses and helps defend against bacteria.
The discovery of the structure of this enzyme, a first-responder in the body’s “innate immune system,” could enable new strategies for fighting infectious agents and possibly prostate cancer and obesity. The work was published Feb. 27 in the journal Science.
Until now, the research community has lacked a structural model of the human form of this enzyme, known as RNase L, said Alexei Korennykh, an assistant professor of molecular biology and leader of the team that made the discovery.
“Now that we have the human RNase L structure, we can begin to understand the effects of carcinogenic mutations in the RNase L gene. For example, families with hereditary prostate cancers often carry genetic mutations in the region, or locus, encoding RNase L,” Korennykh said. The connection is so strong that the RNase L locus also goes by the name “hereditary prostate cancer 1.” The newly found structure reveals the positions of these mutations and explains why some of these mutations could be detrimental, perhaps leading to cancer, Korennykh said. RNase L is also essential for insulin function and has been implicated in obesity. Via It slices, it dices, and it protects the body from harm.