Loss of photoreceptors is the central pathology accountable for irreversible vision impairment in patients with photoreceptor degenerative disorders. Currently, mechanisms-based pharmacological therapies protecting photoreceptors from degenerative progression remain clinically unavailable. Photooxidative stress plays a pivotal role in initiating the degenerative cascade in photoreceptors. Meanwhile, photoreceptor degeneration interacts closely with neurotoxic inflammatory responses primarily mediated by aberrantly activated microglia in the retina. Thus, therapies with anti-oxidant and anti-inflammatory properties have been actively investigated for their pharmacological value in controlling photoreceptor degeneration. In the current study, we examined the pharmacological potentials of ginsenoside Re (Re), a naturally occurring antioxidant with anti-inflammatory activities, in photooxidative stress-mediated photoreceptor degeneration. Our results demonstrate that Re attenuates photooxidative stress and associated lipid peroxidation in the retina. Furthermore, Re treatment preserves the morphological and functional integrity of the retina, counteracts photooxidative stress-induced perturbation of the retinal gene expression profiles and mitigates photoreceptor degeneration-associated neuroinflammatory responses and microglia activation in the retina. Lastly, Re partially antagonizes the deleterious effects of photooxidative stress on müller cells, verifying its beneficial impact on retina homeostasis. In conclusion, the work here provides experimental evidence supporting novel pharmacological implications of Re in attenuating photooxidative stress-mediated photoreceptor degeneration and ensuing neuroinflammation.
Keywords: Ginsenoside Re; Neuroinflammation; Photooxidative stress; Photoreceptor degeneration; Retinopathy.
© 2023. The Author(s).