Evaluating Flavoprotein Fluorescence Imaging as a Biomarker of Early Retinal Ganglion Cell Mitochondrial Stress
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Purpose
Retinal neurodegeneration is difficult to monitor due to insensitive disease endpoints. Mitochondrial dysfunction and oxidative stress are promising early biomarkers of retinal ganglion cell (RGC) degeneration. This study investigates dynamics of flavoprotein fluorescence (FPF), a non-invasive mitochondrial oxidative stress measure, and sensitivity to early neurodegeneration and neuroprotection in vitro and in vivo .
Methods
FPF activity in response to neurodegeneration and neuroprotection were characterized in vitro in wild-type (WT) and SARM1 knockout (SARMKO) human embryonic stem cell-derived RGCs with and without Vacor treatment over 24 hours and confirmed with mitochondrial reactive oxygen species (ROS) measures. Further FPF evaluation was explored in vivo using the optic nerve crush (ONC) model in WT and SARMKO mice to compare early RGC stress detection within rodent retinas.
Results
In vitro FPF intensities in WT RGCs increased within 8 hours of degeneration induction, preceding significant mitochondrial ROS production. Neuroprotective SARMKO RGCs maintained comparable FPF and ROS levels following insult. In vivo FPF changes were not observed in WT and SARMKO mice over 4 days following ONC, while only early retinal thickening was observed from OCT. Early FPF and OCT changes were not reflective of late RGC survival observed from ex vivo RGC soma and axon counts.
Conclusions
These findings highlight differences in FPF sensitivity to mitochondrial stress between simplified in vitro systems and complex in vivo rodent retinas. This study demonstrates the potential of FPF as an early neurodegeneration and neuroprotection endpoint in vitro while identifying limitations and areas of development for its translatability to preclinical in vivo assessment.
