A Novel Mechanism for Tauopathy in Progressive Multiple Sclerosis: Excitotoxic Misplacement of a Mitochondrial Anchor into Dendrites Driven by Tau-hyperphosphorylation

On April 2 ^nd , 2025, the FDA approved a Fast Track Designation for Biogen to use Antisense Oligonucleotides (ASO) to treat tauopathy in clinical trials for Alzheimer’s Disease (AD) to meet an unmet medical need [1]. For Multiple Sclerosis (MS), there is a similar unmet medical need regarding tauopathy when MS transitions into the late, or Progressive MS that is currently incurable. AD and MS share commonality: there is comorbidity between AD and MS [2], and the recent awareness that progressive MS may be considered a secondary tauopathy [3]. This study lays the basic science foundation for a future repurposing of ASO tauopathy therapy from AD to MS. The central hypothesis is that in Progressive MS, tauopathy is not a passive bystander but an active contributor to synaptic degeneration through a novel toxic target known as DSI ( D endritic S yntaphilin I ntrusion) discovered in our laboratory. In this hypothesis, the excitotoxic N-methyl-D-aspartate receptor (NMDAR) GluN2B activates Tau hyperphosphorylation (p-Tau), leading to the mislocalization or intrusion of a mitochondrial anchor SNPH into neuronal dendrites (DSI). This causes mitochondrial damage and subsequent synapse/dendrite disintegration. In support of this hypothesis that tauopathy is a key driver of DSI, we demonstrated using primary neuronal cultures that inhibitors of p-Tau kinases and Tau-KO both completely abolish DSI. We propose that a therapy for Progressive MS is repurpose the existing FDA-approved ASO Tau knockdown therapy from AD to treat MS.