Deep tissue magneto-genetic cell stimulation for neuroscience and therapy

DESCRIPTION (provided by applicant): One major goal of neuroscience is to unravel the neural circuitry and processing that control animal behaviors. A greater understanding of these systems can help in the treatment of diseases which are currently alleviated using invasive deep brain stimulation. Hence, methods for non-invasive, remote control of neuronal activity are at the top of the wish list for many neuroscientists. The goal is to develop a method to stimulate specific subsets of neurons deep in the brain without requiring a physical connection to the outside world. The objective of this proposal is to demonstrate that alternating magnetic fields may be used to stimulate neurons deep inside mammalian brains by using nanoparticles to convert the magnetic field energy into localized heat and genetically expressing a temperature sensitive ion-channel which then converts the heat stimulus into membrane depolarization. Magnetic fields interact only weakly with tissue, making them well suited for deep tissue stimulation. The fields and frequencies used will be comparable to those used in standard MRI machines. The approach contains several extremely innovative and novel concepts: (1) magnetic neuro- stimulation, (2) conversion of magnetic fields into heat to create a local and biologically detectable stimulus, (3) targeting nanoparticles to the cell membrane to achieve sub-cellular localization of the heating, and (4) genetic engineering of neurons to synthesize magnetic nanoparticles are all novel and innovative ideas. The proposed research is highly significant because it provides a method by which the relationship of neuronal circuits to animal behavior can be studied. This capability will (i) increase our understanding of normal and pathological brain function, and (ii) provide new therapeutic avenues for remote stimulations in conditions with reduced natural stimulations, such as traumatic brain injuries, Parkinson's disease, dystonia or major depression.