Targeted delivery of therapeutic RNAs directly to cancer cells

Tel Aviv University‘s groundbreaking technology may revolutionize the treatment of cancer and a wide range of diseases and medical conditions. In the framework of this study, the researchers were able to create a new method of transporting RNA-based drugs to a subpopulation of immune cells involved in the inflammation process, and target the disease-inflamed cell without causing damage to other cells.

The study was led by Prof. Dan Peer, a global pioneer in the development of RNA-based therapeutic delivery. He is Tel Aviv University‘s Vice President for Research and Development, head of the Center for Translational Medicine and a member of both the Shmunis School of Biomedicine and Cancer Research, George S. Wise Faculty of Life Sciences, and the Center for Nanoscience and Nanotechnology. The study was published in the prestigious scientific journal Nature Nanotechnology.

Our development actually changes the world of therapeutic antibodies. Today we flood the body with antibodies that, although selective, damage all the  that express a specific receptor, regardless of their current form. We have now taken out of the equation  that can help us, that is, uninflamed cells, and via a simple injection into the bloodstream can silence, express or edit a particular gene exclusively in the cells that are inflamed at that given moment,” explains Prof. Peer.

As part of the study, Prof. Peer and his team were able to demonstrate this groundbreaking development in animal models of inflammatory bowel diseases such as Crohn’s disease and colitis, and improve all inflammatory symptoms, without performing any manipulation on about 85% of the immune system cells. Behind the innovative development stands a simple concept, targeting to a specific receptor conformation. “On every cell envelope in the body, that is, on the , there are receptors that select which substances enter the cell,” explains Prof. Peer. “If we want to inject a drug, we have to adapt it to the specific receptors on the , otherwise it will circulate in the bloodstream and do nothing. But some of these receptors are dynamic—they change shape on the membrane according to external or internal signals. We are the first in the world to succeed in creating a drug delivery system that knows how to bind to receptors only in a certain situation, and to skip over the other identical cells, that is, to deliver the drug exclusively to cells that are currently relevant to the disease.”

Source: https://phys.org/