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Sarm1 activation produces cADPR to increase intra-axonal Ca++ and promote axon degeneration in PIPN

Yihang Li, Maria F. Pazyra‐Murphy, Daina Avizonis, Mariana De Sa Tavares Russo, Sophia Tang, Chiung-Ya Chen, Yi‐Ping Hsueh, Johann S. Bergholz, Tao Jiang, Jean J. Zhao, Jian Zhu, Kwang Woo Ko, Jeffrey Milbrandt, Aaron DiAntonio, Rosalind A. Segal

2021The Journal of Cell Biology89 citationsDOIOpen Access PDF

Abstract

Cancer patients frequently develop chemotherapy-induced peripheral neuropathy (CIPN), a painful and long-lasting disorder with profound somatosensory deficits. There are no effective therapies to prevent or treat this disorder. Pathologically, CIPN is characterized by a "dying-back" axonopathy that begins at intra-epidermal nerve terminals of sensory neurons and progresses in a retrograde fashion. Calcium dysregulation constitutes a critical event in CIPN, but it is not known how chemotherapies such as paclitaxel alter intra-axonal calcium and cause degeneration. Here, we demonstrate that paclitaxel triggers Sarm1-dependent cADPR production in distal axons, promoting intra-axonal calcium flux from both intracellular and extracellular calcium stores. Genetic or pharmacologic antagonists of cADPR signaling prevent paclitaxel-induced axon degeneration and allodynia symptoms, without mitigating the anti-neoplastic efficacy of paclitaxel. Our data demonstrate that cADPR is a calcium-modulating factor that promotes paclitaxel-induced axon degeneration and suggest that targeting cADPR signaling provides a potential therapeutic approach for treating paclitaxel-induced peripheral neuropathy (PIPN).

Topics & Concepts

PaclitaxelAxonPeripheral neuropathyNeuroscienceCalcium in biologyCalciumDegeneration (medical)MedicineBiologyCancerInternal medicinePathologyEndocrinologyDiabetes mellitusCalcium signaling and nucleotide metabolismPARP inhibition in cancer therapyIon channel regulation and function
Sarm1 activation produces cADPR to increase intra-axonal Ca++ and promote axon degeneration in PIPN | Litcius