Identifying inducers of BDNF gene expression from pharmacologically validated compounds; antipyretic drug dipyrone increases BDNF mRNA in neurons

Abstract

Low levels of brain-derived neurotrophic factor (BDNF), a key regulator of synaptic plasticity, are associated with neurological diseases, including depression and Alzheimer’s disease. Therefore, BDNF is a drug target for these diseases. Here we screened for inducers of neuronal Bdnf expression from a pharmacologically validated compound library using our recently developed screening assay based on luciferase activity in cultured cortical neurons. We identified 18 pharmacologically validated compounds, most of which were inferred to induce Bdnf expression by their validated pharmacological actions, such as Gs-coupled receptor activation or neuronal excitation. Unexpectedly, the screening assay identified the antipyretic drug, dipyrone, to increase Bdnf expression. Dipyrone induced endogenous Bdnf expression by Ca2+ influx evoked via L-type voltage-dependent Ca2+ channels and the N-methyl-d-aspartate receptor, indicating that dipyrone induced activity-regulated Bdnf expression in neurons. However, dipyrone-induced Bdnf expression is independent of validated pharmacological effects. Although our screening assay is difficult to reveal how active compounds induce Bdnf expression, this method is convenient to identify inducers of Bdnf expression in primary neurons. Our screening assay evaluated neuronal BDNF induction and can be used to screen for drug re-positioning, as well as novel candidate drugs, for neurological diseases that have low levels of BDNF in the brain.