AI Article Synopsis
- * SARM1 is normally inactive in healthy neurons but gets activated upon damage through two proposed mechanisms: increased NMN levels and a phase transition that stabilizes SARM1's active form.
- * This research demonstrates that the phase transition can significantly lower the NMN concentration needed to activate SARM1, merging both activation ideas and highlighting potential therapeutic targets.
Article Abstract
Axonal degeneration is a hallmark feature of neurodegenerative diseases. Activation of the NAD(P)ase sterile alpha and toll-interleukin receptor motif containing protein 1 (SARM1) is critical for this process. In resting neurons, SARM1 activity is inhibited, but upon damage, SARM1 is activated and catalyzes one of three NAD(P) dependent reactions: (1) NAD(P) hydrolysis to form ADP-ribose (ADPR[P]) and nicotinamide; (2) the formation of cyclic-ADPR (cADPR[P]); or (3) a base exchange reaction with nicotinic acid (NA) and NADP to form NA adenine dinucleotide phosphate. Production of these metabolites triggers axonal death. Two activation mechanisms have been proposed: (1) an increase in the nicotinamide mononucleotide (NMN) concentration, which leads to the allosteric activation of SARM1, and (2) a phase transition, which stabilizes the active conformation of the enzyme. However, neither of these mechanisms have been shown to occur at the same time. Using in vitro assay systems, we show that the liquid-to-solid phase transition lowers the NMN concentration required to activate the catalytic activity of SARM1 by up to 140-fold. These results unify the proposed activation mechanisms and show for the first time that a phase transition reduces the threshold for NMN-based SARM1 activation to physiologically relevant levels. These results further our understanding of SARM1 activation and will be important for the future development of therapeutics targeting SARM1.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10624580 | PMC |
| http://dx.doi.org/10.1016/j.jbc.2023.105284 | DOI Listing |
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