Exploring the Potential of Fenamate NSAID Analogs for the Treatment of Alzheimer’s Disease

Abstract

AbstractBackgroundAlzheimer’s disease (AD) is the most common form of dementia, and its prevalence continues to increase with absence of available interventions. Drug repurposing accelerates the drug discovery process as therapeutics with known safety and toxicology profiles are considered. Although the blood‐brain barrier (BBB) prevents uptake of most pharmaceuticals, our laboratory previously showed that tolfenamic acid (TA), a fenamate non‐steroidal anti‐inflammatory drug (NSAID) with known anti‐cancer effects, can cross the BBB and slow the progression of AD (Zawia et al, 2018).MethodIn the present study, we test 2‐(2‐Cyanophenylthio) benzoic acid (CBA) and Niflumic acid (NA), small molecule analogs of TA that showed better safety and efficacy at targeting neurodegenerative pathways in vitro, and a similar mechanism of action to TA. We aimed to examine the effects of the analogs on in mice using proteomic and transcriptomic analyses.Single dose study of TA, CBA, and NA was carried out in C57BL/6 mice following oral administration at 100 mg/kg. Differential expression of genes and proteomic biomarkers in mice cortices were analyzed between each treatment group and a corresponding control group.ResultsAnalysis of the number of perturbed genes revealed that the drugs demonstrate limited off‐target effects. Bioinformatic analyses revealed that the therapeutics targeted cancer and neurodegenerative pathways including autophagy, inflammation, and neuronal trafficking. CBA and NA shared common downstream targets and pathways suggesting that they may have a similar mode of action.ConclusionWe found a set of differentially expressed genes that have been linked to processes involved in AD pathogenesis such as the production and clearance of neurotoxic Aβ peptides, tau phosphorylation, regulation of oxidative stress, and inflammatory processes. These results suggest that the drugs may influence pathways related to the pathogenesis of AD and support the potential of drug repurposing of fenamate NSAIDs such as TA, and its analogs CBA and NA, as a strategy for cancer and neurodegenerative disease therapy. Further research is needed to confirm the effect of the analogs on AD biomarkers and their efficacy as therapeutics for AD.