Objective. Effects of Syringic acid (SA) extracted from dendrobii on diabetic cataract (DC) pathogenesis were explored. Methods. Both in vitro and in vivo DC lens models were established using D-gal, and proliferation of HLEC exposed to SA was determined by MMT assay. After 60-day treatment with SA, rat lens transparency was observed by anatomical microscopy using a slit lamp. SA protein targets were extracted and isolated using 2-DE and MALDI TOF/TOF. AR gene expression was investigated using qRT-PCR. Interaction sites and binding characteristics were determined by molecule-docking techniques and dynamic models. Results. Targeting AR, SA provided protection from D-gal-induced damage by consistently maintaining lens transparency and delaying lens turbidity development. Inhibition of AR gene expression by SA was confirmed by qRT-PCR. IC50 of SA for inhibition of AR activity was 213.17 μg/mL. AR-SA binding sites were Trp111, His110, Tyr48, Trp20, Trp79, Leu300, and Phe122. The main binding modes involved hydrophobic interactions and hydrogen bonding. The stoichiometric ratio of non-covalent bonding between SA and AR was 1.0 to 13.3. Conclusion. SA acts to prevent DC in rat lenses by inhibiting AR activity and gene expression, which has potential to be developed into a novel drug for therapeutic management of DC.
This study investigated whether 3,4-Dihydroxyacetophenone (DHAP) could improve endothelial function in streptozotocin-induced type 2 diabetic rats. Sprague-Dawley rats were randomly divided into control, diabetic, and diabetic DHAP-treated animals. After treatment with DHAP for 8 weeks, endothelial function was determined by measuring endothelium-dependent vasodilatation (EDV) of the thoracic aorta. Endothelial nitric oxide synthase (eNOS) activity and nitric oxide (NO) production in endothelial cells and nuclear transcription factor kappa B (NF-κB) expression and superoxide anion production in the aorta were determined. DHAP treatment reduced serum levels of triglycerides, cholesterol, malondialdehyde, and tumor necrosis factor α, and enhanced serum adiponectin levels. Endothelium-dependent vasodilatation was significantly attenuated in rats with diabetes and increased significantly after DHAP treatment. NO levels and eNOS activity in endothelial cells were significantly reduced, and NF-κB activation and superoxide production increased in rats with diabetes compared with the control group. DHAP treatment enhanced NO levels and eNOS activity and decreased NF-κB activation and superoxide production. These findings suggest that DHAP could improve endothelial function in streptozotocin-induced type 2 diabetic rats. The mechanism may be related to the enhancement of eNOS activity and NO production by reducing plasma lipid levels, oxidative stress, and inflammatory activity.
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