2020
DOI: 10.1101/2020.08.05.238287
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The Structural Basis for SARM1 Inhibition, and Activation Under Energetic Stress

Abstract: SARM1 is a central executor of axonal degeneration (1). Mechanistically, SARM1 contains NADase activity, which, in response to nerve injury, depletes the key cellular metabolite, NAD+ (2–5). Interestingly, SARM1 knockout mouse models do not present any apparent physiological impairment. Yet, the lack of SARM1 protects against various neuropathies (6, 7), thereby highlighting SARM1 as a likely safe and effective drug target (8). However, the absence of a SARM1 structure, in its active or inhibited form, makes i… Show more

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Cited by 6 publications
(4 citation statements)
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“…NAD + is generated from Nam in two steps: the rate-limiting conversion of Nam to NMN by NAMPT, followed by synthesis of NAD + from NMN by NMNAT2 and its paralogs (Sauve, 2008). NMN and NAD + compete to bind an allosteric pocket that modulates SARM1 autoinhibition, rendering SARM1 a metabolic sensor that responds to an elevated NMN/NAD + ratio (Figley et al, 2021;Jiang et al, 2020;Sporny et al, 2020). As such, experimental manipulations that alter the apparent concentration of either metabolite, whether by short-circuiting the usual synthesis pathway or by interjecting an NMN mimetic, directly affect SARM1 activity and its consequences (Di Stefano et al, 2017;Sasaki et al, 2009;Zhao et al, 2019).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…NAD + is generated from Nam in two steps: the rate-limiting conversion of Nam to NMN by NAMPT, followed by synthesis of NAD + from NMN by NMNAT2 and its paralogs (Sauve, 2008). NMN and NAD + compete to bind an allosteric pocket that modulates SARM1 autoinhibition, rendering SARM1 a metabolic sensor that responds to an elevated NMN/NAD + ratio (Figley et al, 2021;Jiang et al, 2020;Sporny et al, 2020). As such, experimental manipulations that alter the apparent concentration of either metabolite, whether by short-circuiting the usual synthesis pathway or by interjecting an NMN mimetic, directly affect SARM1 activity and its consequences (Di Stefano et al, 2017;Sasaki et al, 2009;Zhao et al, 2019).…”
Section: Discussionmentioning
confidence: 99%
“…In healthy neurons, SARM1 is maintained in an autoinhibited state via multiple intra-and intermolecular interactions (Shen et al, 2021), including binding of the N-terminal ARM domain to the C-terminal TIR-domain (Summers et al, 2016). SARM1 autoinhibition is regulated by an allosteric binding site within the autoinhibitory ARM domain that can bind either nicotinamide adenine dinucleotide (NAD + ) (Jiang et al, 2020;Sporny et al, 2020) or its precursor, nicotinamide mononucleotide (NMN) (Figley et al, 2021). Axon injury leads to loss of the NAD + biosynthetic enzyme NMNAT2 (Gilley et al, 2010), resulting in an increased NMN/NAD + ratio that favors NMN binding to the allosteric site (Figley et al, 2021).…”
Section: Introductionmentioning
confidence: 99%
“…We report here that rotenone induced temporal regulation of NAD + levels lead to a sequential triggering of events that ultimately cause cell death. Our study indicates that rotenone treatment results in an early loss of NAD + that is accompanied by mitochondrial dysfunction and PARP1 hyperactivation that may serve as the “biological trigger” of Sarm1 induction which has been previously shown to be allosterically inhibited by NAD + using in vitro systems [29,30,31]. In concurrence with these observations, replenishing NAD + levels by pre-incubation of cells with the PARP inhibitor PJ34 or Olaparib restored cellular NAD + levels, prevented Sarm1 activation and significantly reduced cell death following rotenone treatment.…”
Section: Introductionmentioning
confidence: 87%
“…The ARM:TIR interactions regulate SARM1 by preventing TIR self-association, and disruption of the ARM:TIR interface by site-directed mutagenesis produces a constitutively active SARM1 (Bratkowski and others 2020). In cryo-EM structures of human SARM1 and crystal structures of Drosophila SARM1, the ARM domain revealed an unusual compact superhelix with the N-and C-terminal regions collapsed around the allosteric activator NMN, or the allosteric inhibitors NAD + and NaMN (Figure 5C) (Figley and others 2021;Jiang and others 2020;Sasaki and others 2021;Sporny and others 2020). In two recent cryo-EM structures of hSARM1 incubated with NMN, the ARM domains have undergone a significant reorientation with respect to the octameric SAM domain ring (Hou and others 2022;Shi and others 2022).…”
Section: Mechanisms Of Sarm1 Regulation Activation and Nad + Cleavage...mentioning
confidence: 93%