Sarah A. Stanley et al.
Rockefeller University researchers have remotely activated genes inside living animals, a proof of concept that could one day lead to medical procedures in which patients’ genes are triggered on demand.
The researchers used radio waves to switch on engineered insulin-producing genes in mice.
Jeffrey Friedman, a molecular geneticist at the Rockefeller University in New York and lead author of the study, says that in the short term, the results will lead to better tools to allow scientists to manipulate cells non-invasively. But with refinement, he thinks, clinical applications could also be possible.
Friedman and his colleagues coated iron oxide nanoparticles with antibodies that bind to a modified version of the temperature-sensitive ion channel TRPV1, which sits on the surface of cells.
They injected these particles into tumors grown under the skins of mice, then used low-frequency radio waves to heat the nanoparticles. In turn, the nanoparticles heated the ion channel to its activation temperature of 42 °C. Opening the channel allowed calcium to flow into cells, triggering secondary signals that switched on an engineered calcium-sensitive gene that produces insulin.
After 30 minutes of radio-wave exposure, the mice’s insulin levels had increased and their blood sugar levels had dropped.