Publications

Neurodegenerative diseases, like Alzheimer's disease (AD), are characterized by the accumulation of tau aggregates, leading to neuronal dysfunction and cognitive decline. This study explores the development of dual-acting compounds combining sigma-1 receptor (sigma R-1) agonists and histone deacetylase inhibitors (HDACi) to target these pathological mechanisms. Compounds 2d and 3a demonstrated high affinity for sigma R-1 and significantly reduced tau aggregation and phosphorylation in vitro, notably at the AT8 epitope. These dual-acting compounds destabilized tau aggregates, increased tau solubility, and showed favorable pharmacokinetic properties, with compound 2d exhibiting enhanced chemical stability and longer half-life than 3a. In vivo, both compounds confirmed a sigma R-1 agonist profile by reversing the effect of the sigma R-1 antagonist BD-1063. This dual-action approach, acting on both HDAC and sigma R-1 pathways, holds significant potential for treating tauopathies. While further optimization and clinical evaluation are needed, these findings provide a strong foundation for the continued development of multimodal therapies for neurodegenerative diseases treatment.

JTD Keywords: Alzheimers, Amyloid-beta, Anavex2-73, Dual-acting compounds, Hdac inhibitors, Histone deacetylase, Ligands, Neurodegenerative diseases, Neuroprotection, Pathogenesis, Phenylbutyrate, Phenylbutyric acid, Phosphorylation, Sigma 1r agonists, Sigma receptors (sigma rs), Sigma(1) receptors, Tau protein, Valproic acid