Metabolic state oscillations in cerebral nuclei detected using two-photon fluorescence lifetime imaging microscopy

Abstract

The fluorescence lifetime of nicotinamide adenine dinucleotide (NADH), a key endogenous coenzyme and metabolic biomarker, can reflect the metabolic state of cells. To implement metabolic imaging of brain tissue at high resolution, we assembled a two-photon fluorescence lifetime imaging microscopy (FLIM) platform and verified the feasibility and stability of NADH-based two-photon FLIM in paraformaldehyde-fixed mouse cerebral slices. Furthermore, NADH based metabolic state oscillation was observed in cerebral nuclei suprachiasmatic nucleus (SCN). The free NADH fraction displayed a relatively lower level in the daytime than at the onset of night, and an ultradian oscillation at night was observed. Through the combination of high-resolution imaging and immunostaining data, the metabolic tendency of different cell types was detected after the first two hours of the day and at night. Thus, two-photon FLIM analysis of NADH in paraformaldehyde-fixed cerebral slices provides a high-resolution and label-free method to explore the metabolic state of deep brain regions.