Phytochemical Ginkgolide B Attenuates Amyloid-? amage and Altered Cellular Responses in Human Neuroblastoma SH-SY5Y Cells

Abstract

Oxidative stress is an upsurge in reactive oxygen/nitrogen species (ROS/RNS), which aggravates damage to cellular components viz. lipids, proteins, and nucleic acids resulting in impaired cellular functions and neurological pathologies including Alzheimer's disease (AD). In the present study, we have examined amyloid-? (A?)-induced oxidative stress responses, a major cause for AD, in the undifferentiated and differentiated human neuroblastoma SH-SY5Y cells. A?1-42-induced oxidative damage was evaluated on lipids by lipid peroxidation; proteins by protein carbonyls; antioxidant status by SOD and GSH enzyme activities; and DNA and RNA damage levels by evaluating the number of AP sites and 8-OHG base damages produced. In addition, the neuro-protective role of the phytochemical ginkgolide B (GB) in countering A?1-42-induced oxidative stress was assessed. We report that the differentiated cells are highly vulnerable to A?1-42-induced oxidative stress events as exerted by the deposition of A? in AD. Results of the current study suggest that the pre-treatment of GB, followed by A?1-42 treatment for 24, displayed neuro-protective potential, which countered A?1-42-induced oxidative stress responses in both undifferentiated and differentiated SH-SY5Y neuronal cells by: 1) hampering production of ROS and RNS; 2) reducing lipid peroxidation; 3) decreasing protein carbonyl content; 4) restoring antioxidant activities of SOD and GSH enzymes; and 5) maintaining genome integrity by reducing the oxidative DNA and RNA base damages. In conclusion, A?1-42 induces oxidative damage to the cellular biomolecules, which are associated with AD pathology, and are protected by the pre-treatment of GB against A?-toxicity. Taken together, this study advocates for phytochemical-based therapeutic interventions against AD.