A University of Alberta research team has found a potential new treatment target for ovarian cancer. Their new research is the first to comprehensively investigate the elevated expression of a gene called ZIC2 in ovarian cancer cells, finding that it is associated with poor survival rates of ovarian cancer patients and testing ways to inactivate the gene.
Ovarian cancer is predicted to kill an estimated 2,000 women in Canada this year, according to the Canadian Cancer Society. About a quarter of ovarian cancer cases show elevated levels of ZIC2 protein in the cancer cells. ZIC2 protein is produced by the ZIC2 gene, which normally is responsible for human brain development in the embryonic stage and then remains inactive in adults except in the brain and testis. It is not understood why the gene gets reactivated in ovarian cancer with such deadly results.
“Currently, there’s no effective treatment for ovarian cancer,” says YangXin Fu, associate professor of experimental oncology and adjunct associate professor of obstetrics and gynecology. “Also, ovarian cancer cases are often diagnosed at a late stage and by that time, even with surgery and chemotherapy, the cancer recurs and becomes resistant to chemotherapy.
“That is why we need to find a new treatment.”
The team started by testing for ZIC2 in test tubes, using human cell lines of ovarian cancer. They identified those that exhibited high expression of the gene and then used CRISPR technology to inactivate it. They found cancer cells with inactivated ZIC2 grew more slowly, migrated less and formed fewer and smaller colonies.
They then repeated the experiments by implanting the ovarian cancer cells in mice and observing their behaviour. Again, they found a similar slowing of cancer development in tumours where the ZIC2 gene had been inactivated.
“When we inactivate ZIC2 in those cancer cells, they become less aggressive and form smaller tumours in mice,” says Fu, who is also a member of the Cancer Research Institute of Northern Alberta. “Of course, it’s a huge step to go from animal work to a clinical trial in humans, but it shows that in the future if we can find a way to inhibit ZIC2 function, it might reduce tumour formation and progression and provide an effective treatment.”
ZIC2 is a transcription factor, which means it has the ability to turn many other genes on or off, a kind of “master regulator,” explains Fu, but it is rarely expressed in adults except in ovarian cancer tissue, so he believes it is safe to target.
