Abstract
Genetically encoded fluorescent indicators have been broadly used to monitor neuronal activity in live animals, but invasive surgical procedures are required. This study presents a functional bioluminescence imaging (fBLI) method for recording the activity of neuronal ensembles in the brain in awake mice. We developed a luciferase prosubstrate activatable in vivo by nonspecific esterase to enhance the brain delivery of the luciferin. We further engineered a bright, bioluminescent indicator with robust responsiveness to calcium ions (Ca2+) and appreciable emission above 600 nm. Integration of these advantageous components enabled the imaging of Ca2+ dynamics in awake mice minimally invasively with excellent signal- to-background and subsecond temporal resolution. This study thus establishes a new paradigm for studying brain functions in health and disease.
Competing Interest Statement
HA and YX are inventors of a patent or a patent application covering some luciferase and luciferin variants used in this work.