Axonal Transport as an In Vivo Biomarker for Retinal Neuropathy.
Lucia G Le RouxXudong QiuMegan C JacobsenMark D PagelSeth T GammonDavid R Piwnica-WormsDawid SchellingerhoutPublished in: Cells (2020)
We illuminate a possible explanatory pathophysiologic mechanism for retinal cellular neuropathy by means of a novel diagnostic method using ophthalmoscopic imaging and a molecular imaging agent targeted to fast axonal transport. The retinal neuropathies are a group of diseases with damage to retinal neural elements. Retinopathies lead to blindness but are typically diagnosed late, when substantial neuronal loss and vision loss have already occurred. We devised a fluorescent imaging agent based on the non-toxic C fragment of tetanus toxin (TTc), which is taken up and transported in neurons using the highly conserved fast axonal transport mechanism. TTc serves as an imaging biomarker for normal axonal transport and demonstrates impairment of axonal transport early in the course of an N-methyl-D-aspartic acid (NMDA)-induced excitotoxic retinopathy model in rats. Transport-related imaging findings were dramatically different between normal and retinopathic eyes prior to presumed neuronal cell death. This proof-of-concept study provides justification for future clinical translation.
Keyphrases
- optic nerve
- optical coherence tomography
- spinal cord injury
- high resolution
- diabetic retinopathy
- cell death
- escherichia coli
- spinal cord
- oxidative stress
- transcription factor
- drug delivery
- quantum dots
- fluorescence imaging
- brain injury
- endothelial cells
- current status
- photodynamic therapy
- high glucose
- cerebral ischemia
- pi k akt