AI Article Synopsis
- This study explores the protective effects of S-allyl L-cysteine (SAC), a garlic compound, against retinal ischemia, which is linked to various retinal diseases.
- It utilizes both cell culture and animal models to assess the efficacy of different SAC doses on cellular viability, retinal function, and associated biochemical pathways.
- Results indicate that low doses of SAC can significantly mitigate ischemic damage and alter protein expression related to retinal protection, while also demonstrating safety in terms of animal weight and basic blood parameters.
Article Abstract
Purpose: Retinal ischemia is a medical condition associated with numerous retinal vascular disorders, such as age-related macular degeneration, glaucoma, and diabetic retinopathy. This in vitro cell and in vivo animal study investigated not only the protective effect of S-allyl L-cysteine (SAC, an active component of garlic) against retinal ischemia but also its associated protective mechanisms.
Methods: Retinal ischemia was mimicked by raising the intraocular pressure to 120 mmHg for 1 hour in one eye. The effects of pre-/postischemic administration of vehicle vs. SAC 0.18 mg vs. SAC 0.018 mg vs. SAC 0.0018 mg treatments on retina cells were evaluated through cellular viability (MTT assay), flash electroretinograms (ERGs), and fluorogold retrograde labelling (retinal ganglion cell (RGC) counting). Also, protein immunoblot was utilized to assess the role of Wnt, hypoxia inducible factor (HIF)-1, and vascular endothelium factor (VEGF) in the proposed anti-ischemic mechanism. Lastly, the safety of drug consumption was investigated for changes in the animal's body weight, ERG waves, and blood biochemical parameters (e.g., glucose levels).
Results: The characteristic ischemic changes including significant reduction in ERG b-wave ratio and RGC number were significantly counteracted by pre- and postischemic low dose of SAC. Additionally, ischemia-induced overexpression of Wnt/HIF-1/VEGF protein was ameliorated significantly by preischemic low dose of SAC. In terms of the animal safety, no significant body weight and electrophysiological differences were observed among defined different concentrations of SAC without following ischemia. In low SAC dosage and vehicle groups, various blood biochemical parameters were normal; however, high and medium concentrations of SAC significantly lowered the levels of uric acid, Hb, and MCHC.
Conclusion: This study shows that preischemic administration of low SAC dosage has been proved to be safe and most effective against rat retinal ischemia electrophysiologically and/or histopathologically. Moreover, counteracting the ischemia-induced overexpression of Wnt/HIF-1/VEGF might presently explain SAC's anti-ischemic mechanism.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7556069 | PMC |
| http://dx.doi.org/10.1155/2020/3025946 | DOI Listing |
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