Macrophage depletion blocks congenital SARM1-dependent neuropathy
Caitlin B. Dingwall, … , Aaron DiAntonio, Jeffrey Milbrandt
Caitlin B. Dingwall, … , Aaron DiAntonio, Jeffrey Milbrandt
Published October 26, 2022
Citation Information: J Clin Invest. 2022;132(23):e159800. https://doi.org/10.1172/JCI159800.
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Research Article Neuroscience

Macrophage depletion blocks congenital SARM1-dependent neuropathy

Abstract

Axon loss contributes to many common neurodegenerative disorders. In healthy axons, the axon survival factor NMNAT2 inhibits SARM1, the central executioner of programmed axon degeneration. We identified 2 rare NMNAT2 missense variants in 2 brothers afflicted with a progressive neuropathy syndrome. The polymorphisms resulted in amino acid substitutions V98M and R232Q, which reduced NMNAT2 NAD+-synthetase activity. We generated a mouse model to mirror the human syndrome and found that Nmnat2V98M/R232Q compound-heterozygous CRISPR mice survived to adulthood but developed progressive motor dysfunction, peripheral axon loss, and macrophage infiltration. These disease phenotypes were all SARM1-dependent. Remarkably, macrophage depletion therapy blocked and reversed neuropathic phenotypes in Nmnat2V98M/R232Q mice, identifying a SARM1-dependent neuroimmune mechanism as a key driver of disease pathogenesis. These findings demonstrate that SARM1 induced inflammatory neuropathy and highlight the potential of immune therapy as a treatment for this rare syndrome and other neurodegenerative conditions associated with NMNAT2 loss and SARM1 activation.

Authors

Caitlin B. Dingwall, Amy Strickland, Sabrina W. Yum, Aldrin K.Y. Yim, Jian Zhu, Peter L. Wang, Yurie Yamada, Robert E. Schmidt, Yo Sasaki, A. Joseph Bloom, Aaron DiAntonio, Jeffrey Milbrandt

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Figure 6

Activated macrophages accumulate in the peripheral nervous system of Nmnat2V98M/R232Q mice.

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Activated macrophages accumulate in the peripheral nervous system of Nmn...
(AE) Representative images of CD68 immunofluorescence and DAPI signal in the spinal cord, original magnification, ×10 (A and B) and sciatic nerves, original magnification, ×20 (CE) of 2-month-old WT, Nmnat2V98M/R232Q, and Nmnat2V98M/R232Q; Sarm1-KO mice. (F) Representative scatter plots and quantification of fluorescence-activated cell sorting of total sciatic nerve macrophages (CD64+ CD11b+) in 2-month-old WT (n = 3), Nmnat2V98M/R232Q (n = 3), and Nmnat2V98M/R232Q; Sarm1-KO (n = 3) mice. (G) Relative cADPR levels in sural and femoral nerves of 4-month-old WT (n = 5), Nmnat2V98M/R232Q (n = 4), and Nmnat2V98M/R232Q; Sarm1-KO (n = 5) mice. Values normalized to WT cADPR levels (set to 1). (H) Relative levels of CD68+ macrophages in sural and femoral nerves of 4-month-old WT (n = 4), Nmnat2V98M/R232Q (n = 3-4) and Nmnat2V98M/R232Q; Sarm1-KO (n = 2-3) mice. Values normalized to WT CD68+ macrophage levels (set to 1). All data are presented as mean ± SEM. Statistical significance determined by 1-way ANOVA with multiple comparisons, ****P < 0.0001.