Periodic Reporting for period 1 - NeurOLED (Organic Light-Emitting Diodes for Optogenetic Control of Neurons)
Berichtszeitraum: 2016-03-01 bis 2018-02-28
The NeurOLED project aimed at developing a new light source for optogenetics based on organic light-emitting diodes (OLEDs). OLEDs are based on extremely thin layers of organic compounds, can be structured to high-density arrays and may be fabricated on flexible plastic foils. Thus, they can overcome limitations of existing light sources and enable high-resolution optogenetic stimulation of cells over both small and large areas.
Due to the high brightness requirements for optogenetics, the harsh aqueous environment, and the need for small pixel arrays – all of which are not standard for OLEDs –, a large part of the project looked at adapting OLED technology for this new application. To demonstrate the usability of OLEDs in optogenetics, neurons were stimulated both in vitro and in vivo.
This project has been highly interdisciplinary, located at the interface of physics, materials science, biophotonics and neuroscience, and successfully established OLEDs as new light source in different environments for optogenetics. This gives neuroscientists a new tool to better understand the brain and allows a more in depth research of neurological diseases.
The developed OLEDs were used to stimulate cultured neurons, and the electrical activity of the cells was monitored optically with fluorescent indicators. A quick response of the neurons to OLED light was observed, demonstrating that OLEDs can achieve the required brightness levels for optogenetics.
Furthermore, structured OLEDs were also applied in vivo to stimulate neuronal networks in Drosophila (fruit fly) larvae. Using light-sensitive proteins, sensory neurons in individual segments of the larvae were both activated and silenced.