These changes give cancer a selective advantage, at the same time they can become a weak area if the alteration is blocked that will kill the cancer or stop its growth.

This new study discovered that ovarian cancers massively amplify an enzyme, NMNAT-2, that makes NAD+. NAD+ is the substrate for a family of enzymes called PARPs, which chemically modify proteins with ADP-ribose from NAD+.

As it is difficult to identify single ADP-ribose group attached to a protein, they developed a synthetic detection reagent made up of natural protein domains fused together to detect ADP-ribosylated proteins in cells and patient samples.

“We were able to show that when ribosomes are mono(ADP-ribosyl)ated in ovarian cancer cells, the modification changes the way they translate mRNAs into proteins,” Dr. Kraus said.

This study identified mono (ADP-ribose) and NMNAT-2 as potential biomarkers for ovarian cancers, which allowed clinicians to identify ovarian cancer patients who may respond well to treatment.

This finding is not only a great advance in basic science but also a real promise for clinician investigators and cancer care practitioners because it shows a biomarker and a pathway for future drug target.

Source: Medindia