Cancer TreatmentEpigenetic therapies, which target enzymes that alter the genes that are turned on or off in a cell, are of growing interest in oncology as a way to make cancers less aggressive or less malignant.

But now, at least one epigenetic therapy that had looked promising for lung cancer appears to boost the cancer stem cells that are believed to drive tumors, according to a study published Nov. 19 in Nature Communications. The study also identifies a strategy that reduces these stem cells, curbing lung cancer in mice.

Cancer stem cells have been identified in blood cancers and a variety of solid tumors. They make up a tiny fraction of tumor cells but can regenerate a cancer on their own. Carla Kim, professor of genetics at Harvard Medical School and professor of pediatrics at Boston Children’s Hospital, and colleagues previously showed that cancer stem cells play a role in adenocarcinoma, the most common type of lung cancer. When they transplanted cancer stem cells from a diseased mouse, healthy mice developed lung cancer.

The new study, led by research fellow Samuel Rowbotham in the Kim lab, focused on an epigenetic therapy that inhibits the enzyme G9a, a type of histone methyltransferase. G9a had been thought to be cancer-promoting, and some studies have suggested that inhibiting G9a is an effective strategy in certain cancers, including adenocarcinoma. Rowbotham and Kim now call this into question.

“People had looked at cell lines from lung tumors and found that they are sensitive to drugs inhibiting G9a,” said Rowbotham. “In general tumor cell populations, these drugs would slow down growth or even kill the cells. But we found that these drugs were also making the surviving tumor cells more stem-like. We predicted that this would advance disease progression, and this is what we saw.”

Beware the cancer stem cells

The team first looked at adenocarcinoma cell lines. They found that when the cells were treated with G9a, they became more like stem cells. Next, they transplanted cancer stem cells into live mice and tracked the development of adenocarcinoma. When they knocked down the G9a gene in lung tumors, the tumors grew bigger and spread farther.

Kim believes this downside to G9a hadn’t been noticed because prior studies only looked at cell lines and because cancer stem cells are hard to detect.

“Earlier studies couldn’t see that cancer stem cells were still around, and there’s more of them when you treat with these drugs,” she said. “Because they’re such a small fraction of the tumor, anything that affects them can easily be missed.”

Source: Harvard Medical News

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