Elimination of tau tangles and soluble aggregates with the small molecule ACI‐16664 prevents neurodegeneration in vivo
Nicolas Preitner, Véronique Dehlinger, Patrick Rodriguez, Kerstin Fabbri, Yvan Varisco, Matteo Pigni, Alessandra Lovison, Lucas Münzenmaier, Kasia Piorkowska, Aline Fuchs, Nadine Ait‐Bouziad, Nicolas Fournier, Sandra Jepaul, Jérôme Molette, Emanuele Gabellieri, Vincent Darmency, Sonia Poli, Andrea Pfeifer, Marie Kosco‐Vilbois, Francesca CapotostiAbstract
INTRODUCTION
Pathological tau aggregates are key therapeutic targets in Alzheimer's disease (AD), but current approaches face limitations including poor intracellular penetration, lack of selectivity for aggregated over physiological tau, or reliance on invasive administration.
METHODS
ACI‐16664, an orally available brain penetrant tau aggregation inhibitor, was identified through medicinal chemistry optimization of the Morphomer library and characterized using biochemical assays, neuronal cultures, and the Tg4510 tauopathy mouse model.
RESULTS
ACI‐16664 selectively bound aggregated tau with high apparent affinity, destabilized its β‐sheet structures, blocked intracellular seeding by both soluble and insoluble tau, and prevented tau‐induced neurotoxicity. In Tg4510 mice, ACI‐16664 reduced both soluble tau aggregates and tangles, and prevented neuronal loss, synaptic degeneration, and cortical atrophy.
DISCUSSION
These findings demonstrate the therapeutic value of targeting tau aggregation across its diverse pathological forms and cellular compartments, supporting the potential of this approach to benefit patients with AD and other tauopathies across disease stages.