In recent years, it's become clear that RNA-binding proteins play a major role in cancer growth. These proteins, active in all cells but especially so in cancer cells, bind to RNA molecules and accelerate cancer cell growth. Unfortunately, no cancer treatment has targeted these proteins until now.
In the journal Nature Communications, researchers present a new technology to fight cancer. They designed decoy molecules that trick RNA-binding proteins into binding with them. Once bound, these RNA-binding proteins are no longer able to bind with the natural RNA molecules in cancer cells and lose their cancer-promoting activity. These "sterile" RNA molecule decoys are called oligonucleotides.
"Our technology is a new approach in the war on cancer. By understanding the biological function of RNA-binding proteins we successfully designed decoy molecules that inhibit these proteins and move us ever closer to creating an anti-cancer drug," shared the senior author.
Authors designed decoy oligonucleotides, composed of several repeats of a RNA motif, which is recognized by a single SF. They show that decoy oligonucleotides targeting splicing factors RBFOX1/2, SRSF1 and PTBP1, can specifically bind to their respective SFs and inhibit their splicing and biological activities.
To test the decoys, they treated brain cancer cells with decoy molecules. When the cells were then injected into healthy mice, the cancer cells did not replicate and, soon after, the tumors died off.
Though this study tested the efficacy of decoy molecules on breast and brain cancer cells, the senior author explained that this technology enables scientists to tailor-make decoys for other types of cancer, thereby streamlining and improving treatment for cancer patients. "We still need to examine the toxicity of the decoy molecules and to test their efficacy on animals before we can move on to humans," cautioned the author. "However, I'm optimistic, given that we've already succeeded at creating decoy oligonucleotides that inhibit RNA binding proteins in other kinds of cancers."
https://www.nature.com/articles/s41467-019-09523-0
Creating decoys that block RNA-binding proteins from spreading cancer
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