Emoxypine succinate modulates behavioral and molecular responses in zebrafish model of iron Overload-Induced neuroinflammation via CDK5/GSK3- β and NLRP3 inflammasome pathway

[Display omitted] •Emoxypine Succinate mitigates iron overload-induced neurodegeneration in a zebrafish model.•Improved behavioral performance observed in treated zebrafish, evidenced by enhanced exploration and memory functions.•Significant reduction in oxidative stress markers following emoxypine succinate treatment.•Suppression of neuroinflammatory markers, including IL-1β, TNF-α, CDK-5, GSK-3β, and NLRP3, highlights its potential in modulating neuroinflammation associated with neurodegenerative disorders. Excessive iron accumulation in the brain plays a significant role in neurodegenerative processes, contributing to the pathogenesis of Alzheimer’s disease (AD). AD, a prominent neurological disorder affecting the central nervous system, is characterized by the accumulation of beta-amyloid (Aβ) and tau phosphorylation. This accumulation leads to the subsequent development of cognitive impairments, particularly in learning and memory functions. This study investigates the neuroprotective effects of emoxypine succinate in a zebrafish model of iron overload-induced neurodegeneration. Iron was administered to the zebrafish for 28 days to induce neurodegeneration. Following induction, Emoxypine succinate was employed as a treatment intervention for 14 days (concentrations of 4 mg/L, 8 mg/L, and 12 mg/L). Following the end of the treatment, behavioral tests (Y maze test, Novel tank test) were conducted on the zebrafish, and the biochemical (MDA, Catalase, SOD, GSH) and molecular parameters (AchE, Iron levels, IL-1β, TNF-α, CDK-5, GSK-3β, and NLRP3) of the zebrafish brain were also assessed. In the novel tank test, emoxypine succinate-treated groups exhibited significantly increased time in the upper zone (p