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SARM1 is responsible for calpain-dependent dendrite degeneration in mouse hippocampal neurons

Takashi Miyamoto, Chaeyoung Kim, Johann Chow, Jason C. Dugas, Jack DeGroot, Alex L. Bagdasarian, Arun P. Thottumkara, Martin Larhammar, Meredith Calvert, Brian M. Fox, Joseph W. Lewcock, Lesley A. Kane

2024Journal of Biological Chemistry12 citationsDOIOpen Access PDF

Abstract

following injury. Recent work has defined the mechanisms underlying SARM1's catalytic activity and advanced our understanding of SARM1 function in axons, yet the role of SARM1 signaling in other compartments of neurons is still not well understood. Here, we show in cultured hippocampal neurons that endogenous SARM1 is present in axons, dendrites, and cell bodies and that direct activation of SARM1 by the neurotoxin Vacor causes not just axon degeneration, but degeneration of all neuronal compartments. In contrast to the axon degeneration pathway defined in dorsal root ganglia, SARM1-dependent hippocampal axon degeneration in vitro is not sensitive to inhibition of calpain proteases. Dendrite degeneration downstream of SARM1 in hippocampal neurons is dependent on calpain 2, a calpain protease isotype enriched in dendrites in this cell type. In summary, these data indicate SARM1 plays a critical role in neurodegeneration outside of axons and elucidates divergent pathways leading to degeneration in hippocampal axons and dendrites.

Topics & Concepts

Degeneration (medical)Hippocampal formationDendrite (mathematics)CalpainNeuroscienceCell biologyChemistryBiologyAnatomyPathologyBiochemistryMedicineGeometryMathematicsEnzymeCalpain Protease Function and RegulationRNA regulation and diseaseNeuroscience and Neuropharmacology Research