Sarm1 knockout prevents type 1 diabetic bone disease in females independent of neuropathy
Jennifer M. Brazill, Ivana R. Shen, Clarissa S. Craft, Kristann L. Magee, Jay S. Park, Madelyn Lorenz, Amy Strickland, Natalie K. Wee, Xiao Zhang, Alec T. Beeve, Gretchen A. Meyer, Jeffrey Milbrandt, Aaron DiAntonio, Erica L. Scheller
Jennifer M. Brazill, Ivana R. Shen, Clarissa S. Craft, Kristann L. Magee, Jay S. Park, Madelyn Lorenz, Amy Strickland, Natalie K. Wee, Xiao Zhang, Alec T. Beeve, Gretchen A. Meyer, Jeffrey Milbrandt, Aaron DiAntonio, Erica L. Scheller
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Research Article Bone biology Endocrinology

Sarm1 knockout prevents type 1 diabetic bone disease in females independent of neuropathy

Abstract

Patients with diabetes have a high risk of developing skeletal diseases accompanied by diabetic peripheral neuropathy (DPN). In this study, we isolated the role of DPN in skeletal disease with global and conditional knockout models of sterile-α and TIR-motif-containing protein-1 (Sarm1). SARM1, an NADase highly expressed in the nervous system, regulates axon degeneration upon a range of insults, including DPN. Global knockout of Sarm1 prevented DPN, but not skeletal disease, in male mice with type 1 diabetes (T1D). Female wild-type mice also developed diabetic bone disease but without DPN. Unexpectedly, global Sarm1 knockout completely protected female mice from T1D-associated bone suppression and skeletal fragility despite comparable muscle atrophy and hyperglycemia. Global Sarm1 knockout rescued bone health through sustained osteoblast function with abrogation of local oxidative stress responses. This was independent of the neural actions of SARM1, as beneficial effects on bone were lost with neural conditional Sarm1 knockout. This study demonstrates that the onset of skeletal disease occurs rapidly in both male and female mice with T1D completely independently of DPN. In addition, this reveals that clinical SARM1 inhibitors, currently being developed for treatment of neuropathy, may also have benefits for diabetic bone through actions outside of the nervous system.

Authors

Jennifer M. Brazill, Ivana R. Shen, Clarissa S. Craft, Kristann L. Magee, Jay S. Park, Madelyn Lorenz, Amy Strickland, Natalie K. Wee, Xiao Zhang, Alec T. Beeve, Gretchen A. Meyer, Jeffrey Milbrandt, Aaron DiAntonio, Erica L. Scheller

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Figure 6

Neural conditional knockout of Sarm1 does not prevent diabetic bone disease in female mice.

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Neural conditional knockout of Sarm1 does not prevent diabetic bone dise...
Mice expressing the pan-neuronal promoter Baf53b-Cre were bred with Sarm1fl/fl animals to generate Baf53b-Cre+ Sarm1fl/fl experimental mice (cKO) and Baf53b-Cre– Sarm1fl/fl controls (WT). Female mice at 8 weeks of age were treated with STZ to induce T1D; controls received 0.9% saline. (A and B) Relative Sarm1 gene expression by qPCR in the neuroskeletal system including the DRG (A) and flushed bone (B) at 12-week endpoint. (C and D) Nerve fiber quantifications and representative images based on immunostaining for neurofilament H (green) in distal sciatic nerve sections 5 days after proximal sciatic nerve transection. Scale bar = 200 μm. (E) Longitudinal fed blood glucose. (F) Fasting blood glucose at 12 weeks. (G) Longitudinal body mass. (H and I) Plasma bone biomarkers osteocalcin (H) and type I collagen cross-linked C-telopeptide (CTX-1, I) measured by ELISA at week 12. (JN) Tibia cortical total area (J), bone area (K), marrow area (L), cortical thickness (M), and cortical tissue mineral density (TMD, N) analyzed by in vivo microCT. (AC, F, H, and I) Two-way ANOVA for genotype × T1D with Tukey’s multiple comparisons test. (E, G, JN) Three-way ANOVA/mixed model for genotype × T1D × time. (JN) Each individual normalized to baseline. All data plotted as mean ± SD. n = 3–6/group. *P < 0.05, **P < 0.01, ****P < 0.0001.