Novel therapeutic mechanism of action of metformin and its nanoformulation in Alzheimer's disease and role of AKT/ERK/GSK pathway.

Brain Insulin-resistance plays a critical role in pathogenesis of Alzheimer's disease (AD). Current study explored the therapeutic mechanism of metformin (insulin sensitizer) and its solid-lipid nanoformulation (SLN) in rat-model of AD. In our study, SLN was prepared using microemulsion method. AD was induced with ICV-Aβ whereas the control-group (sham) received ICV-NS. Treatment arms included, disease-control (no treatment), Metformin (50 mg/kg, 100 mg/kg and 150 mg/kg), SLN-metformin 50 mg/kg and memantine 1.8 mg/kg (positive-control). Animals were tested for cognitive performance (EPM, MWM) after 21 days of therapy and sacrificed. Aβ (1-42), hyperphosphorylated tau, pAKTser473, GSK-3β, p-ERK (ELISA), metformin level(HPLC), neuronal injury score(H&E), Bcl2 and Bax(IHC) was evaluated in isolated brain. In our study, metformin-SLN were of spherical shape (size<200 nm) with 94.08% entrapment efficiency. Metformin was detectable in brain. Compared to sham, the disease-control group showed significantly higher (p ≤ 0.05) memory impairment(MWM and EPM), hyperphosphorylated tau, Aβ(1-42), neuronal-injury, Bax and lower Bcl-2 expression. Treatment with metformin and nanoformulation significantly reverse these parameters. AKT-ERK-GSK3β-Hyperphosphorylated tau pathway was found to be involved in the protective efficacy of metformin. To conclude, both metformin and its SLN were found to be effective as therapeutic agents in AD which act through the AKT-ERK-GSK3β-Hyperphosphorylated tau pathway. We need population based studies to confirm the same.