SARM1 activation triggers axon degeneration locally via NAD+destruction

SARM1 activation triggers axon degeneration locally via NAD+destruction

Axon degeneration is an intrinsic self-destruction program that underlies axon loss during injury and disease. Sterile alpha and TIR motif–containing 1 (SARM1) protein is an essential mediator of axon degeneration. We report that SARM1 initiates a local destruction program involving rapid breakdown...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2015-04, Vol.348 (6233), p.453-457
Hauptverfasser: Gerdts, Josiah, Brace, E.J., Sasaki, Yo, DiAntonio, Aaron, Milbrandt, Jeffrey
Format: Artikel
Sprache:eng
Schlagworte:
Activation
Animals
Armadillo Domain Proteins - chemistry
Armadillo Domain Proteins - genetics
Armadillo Domain Proteins - metabolism
Axons
Axons - metabolism
Axons - pathology
Biodegradation
Breakdown
Cells
Cytoskeletal Proteins - chemistry
Cytoskeletal Proteins - genetics
Cytoskeletal Proteins - metabolism
Degeneration
Depletion
Destruction
Dimerization
HEK293 Cells
Humans
Injuries
Literary Devices
Mice
Mice, Knockout
NAD - metabolism
Neurons
Neurons - metabolism
Neurons - pathology
Peripheral Nerve Injuries - metabolism
Protein Multimerization
Wallerian Degeneration - metabolism
Wallerian Degeneration - pathology
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Zusammenfassung:Axon degeneration is an intrinsic self-destruction program that underlies axon loss during injury and disease. Sterile alpha and TIR motif–containing 1 (SARM1) protein is an essential mediator of axon degeneration. We report that SARM1 initiates a local destruction program involving rapid breakdown of nicotinamide adenine dinucleotide (NAD+) after injury. We used an engineered protease-sensitized SARM1 to demonstrate that SARM1 activity is required after axon injury to induce axon degeneration. Dimerization of the Toll–interleukin receptor (TIR) domain of SARM1 alone was sufficient to induce locally mediated axon degeneration. Formation of the SARM1 TIR dimer triggered rapid breakdown of NAD+, whereas SARM1-induced axon destruction could be counteracted by increased NAD+ synthesis. SARM1-induced depletion of NAD+ may explain the potent axon protection in Wallerian degeneration slow (Wlds) mutant mice.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1258366