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Novel technique reveals surprising way to suppress tumor cells

Novel technique reveals surprising way to suppress tumor cells

By analyzing key enzymes in a new way, an international team led by researchers at Weill Cornell Medicine has discovered how a well-known signaling molecule can either stimulate or suppress tumor growth depending on where it’s produced. The work, published Sept. 27 in Cell Reports, reveals a new aspect of tumor cell biology, and points to a promising strategy for treating many types of cancer.

Cells use the small molecule cyclic AMP (cAMP) to trigger different effects largely depending on the proteins it activates. For example, past studies have shown that cAMP can either activate or suppress tumor growth under different circumstances.

“Most people have studied cAMP by studying the effector proteins that [mediate its activity], or they’ve looked at the [enzymes that] inactivate it,” said co-senior author Dr. Jonathan H. Zippin, vice chair of research and an associate professor of dermatology and pharmacology at Weill Cornell Medicine, director of dermatology precision medicine at the Englander Institute for Precision Medicine, and a dermatologist at NewYork-Presbyterian/Weill Cornell Medical Center.

Taha Merghoub, deputy director of the Sandra and Edward Meyer Cancer Center, the Margaret and Herman Sokol Professor of Oncology Research and a professor of pharmacology, as well as Elena Piskounova, an assistant professor of cell biology in dermatology, are also co-senior authors on the study.

Instead of turning cAMP signaling on or off across the entire cell, as previous studies had done, Marek Drozdz, a postdoctoral associate in Zippin’s lab, wanted to activate cAMP in specific subcellular compartments. Two enzymes can produce cAMP in a cell: one bound to the plasma membrane and one that’s soluble.

“We focused on the soluble one, because this source of cAMP could be targeted to different compartments within the cell, and then evoke a little pocket of cAMP signaling in each compartment,” said Drozdz, who is the lead author on the paper. To do this, he created a novel tunable genetic system that allowed the team to activate cAMP in distinct subcellular compartments in both cells and mice.

The researchers discovered that producing cAMP in the cell nucleus uniquely suppresses tumor cell growth, by acting through a previously unknown mechanism that inactivates Hippo signaling.

“By taking this [sub-cellular] approach, we revealed a unique signaling pathway, which we think is going to have a lot of applications in a variety of different tissue systems and clinical contexts,” Zippin said.

While stimulating cAMP production in cell nuclei isn’t practical in patients, Zippin suggests that inhibiting specific phosphodiesterases to reduce cAMP breakdown in the nucleus could have the same effect. Various phosphodiesterase inhibitors have already been approved by the U.S. Food and Drug Administration to treat over a dozen conditions, ranging from heart failure to eczema.

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