Ocular neurodegenerative diseases like glaucoma lead to progressive retinal ganglion cell (RGC) loss, causing irreversible vision impairment. Neuroprotection is needed to preserve RGCs across debilitating conditions. Nerve growth factor (NGF) protein therapy shows efficacy, but struggles with limited bioavailability and a short half-life. Here we explore a novel approach to address this deficiency by utilizing circular RNA (circRNA)-based therapy. We show that circRNAs exhibit an exceptional capacity for prolonged protein expression and circRNA-expressed NGF protects cells from glucose deprivation. In a mouse optic nerve crush model, lipid nanoparticle (LNP)-formulated circNGF administered intravitreally protects RGCs and axons from injury-induced degeneration. It also significantly outperforms NGF protein therapy without detectable retinal toxicity. Furthermore, single-cell transcriptomics revealed LNP-circNGF's multifaceted therapeutic effects, enhancing genes related to visual perception while reducing trauma-associated changes. This study signifies the promise of circRNA-based therapies for treating ocular neurodegenerative diseases and provides an innovative intervention platform for other ocular diseases.
Keyphrases
- optic nerve
- growth factor
- single cell
- optical coherence tomography
- brain injury
- randomized controlled trial
- multiple sclerosis
- cell therapy
- stem cells
- genome wide
- induced apoptosis
- type diabetes
- gene expression
- blood pressure
- dna methylation
- small molecule
- metabolic syndrome
- artificial intelligence
- big data
- replacement therapy
- diabetic retinopathy
- cell death
- amino acid
- fatty acid
- binding protein
- subarachnoid hemorrhage