An improved FLARE system for recording and manipulating neuronal activity.
Abstract:
To address the need for methods for tagging and manipulating neuronal ensembles underlying specific behaviors, we present an improved version of FLARE, termed cytoFLARE (cytosol-expressed FLARE). cytoFLARE incorporates cytosolic tethering of a transcription factor and expression of a more sensitive pair of calcium-sensing domains. We show that cytoFLARE captures more calcium- and light-dependent signals in HEK293T cells and higher signal-to-background ratios in neuronal cultures. We further establish cytoFLARE transgenic Drosophila models and apply cytoFLARE to label activated neurons upon sensory or optogenetic stimulation within a defined time window. Notably, through the cytoFLARE-driven expression of optogenetic actuators, we successfully reactivated and inhibited neurons involved in the larval nociceptive system. Our findings demonstrate the characterization and application of time-gated calcium integrators for both recording and manipulating neuronal activity in Drosophila larvae.
