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Etoposide’s Effect On Chromosomes May Explain Secondary Cancers COLUMBUS, OH -- May 27, 1998 -- A relatively new and highly-useful anticancer drug appears to work by cutting up the ends of chromosomes, a region known as the telomere, new research shows. The finding may help explain a serious after-effect of the drug -- in a small number of patients, it gives rise to often-fatal, secondary cancers. The drug, etoposide, is used in the treatment of leukemia, lymphoma and testicular cancer. It is also used experimentally in a number of other malignancies. In about five percent of patients, however, etoposide causes chromosomal defects that can lead to secondary leukemias. These leukemias often arise within a year or two of treatment and they are usually fatal. "We've unmasked a different kind of effect that etoposide has on cells and this effect is important to study because this is a clinically useful drug with a rather serious complication," said Mark Muller, professor of molecular genetics and a researcher with Ohio State University's Comprehensive Cancer Center. "These results help us understand where the drug acts inside the cell and they may help us understand why it causes secondary cancers in some patients." The study, co-authored by Muller, was published in a recent issue of the journal Biochimica et Biophysica Acta. Etoposide is a member of a small class of drugs known as topoisomerase-II inhibitors. These drugs work by blocking the action of an enzyme found in cells known as topoisomerase II (topo II). The job of topo II is to untangle DNA strands during cell division -- failure to do so is lethal to the cell. Topo II does this by making temporary breaks in DNA to allow another DNA strand to pass through it. Normally, the enzyme then instantly re-joins the cut ends to repair the break. Etoposide prevents the enzyme from completing its repair step. "The drug actually subverts the enzyme into a DNA damaging agent," Muller said. The researchers studied etoposide and five other topo II inhibitors on fragments of DNA that contained telomeres. Based on a knowledge of how the drugs interact with DNA, the researchers predicted that most topo-II inhibitors should cause breaks in telomeres. To test their prediction, they constructed fragments of DNA that ended with telomeres of different lengths. They then incubated the fragments with one topo-II inhibiting drug after another. Initially, the results were negative. "We got discouraged when we found that topo II didn't act on telomeres," Muller explained. Eventually, they tested etoposide. "It was positive beyond all belief. It knocked our socks off. We thought it was a mistake." Next, they looked for the effect in cancer cells grown in the laboratory. Again, etoposide damaged the telomeres. "That's what puts this experiment on the map," he said. "These results are significant because the telomere cutting also happened in the nucleus of living cells." Muller suspects that there is a link between the etoposide-related damage to telomeres and the secondary cancers that have been linked to the drug. "This damage may lead to a rearrangement of genetic information that unmasks oncogenes or other secondary mutations that cause the cells to become cancerous," he said. "This is still theoretical -- a guilt-by-association phenomenon. We need more data on what's actually happening in cells and on what the downstream consequences are of telomere-specific damage." E-mail this page to a friend or colleague! To print, use this version