Cisplatin induced neurotoxicity is mediated by Sarm1 and calpain activation

Aysel Cetinkaya-Fisgin; Xinghua Luan; Nicole Reed; Ye Eun Jeong; Byoung Chol Oh; Ahmet Hoke

doi:10.1038/s41598-020-78896-w

Cisplatin induced neurotoxicity is mediated by Sarm1 and calpain activation

Aysel Cetinkaya-Fisgin, Xinghua Luan, Nicole Reed, Ye Eun Jeong, Byoung Chol Oh, Ahmet Hoke

School of Medicine

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Abstract

Cisplatin is a commonly used chemotherapy agent with significant dose-limiting neurotoxicity resulting in peripheral neuropathy. Although it is postulated that formation of DNA-platinum adducts is responsible for both its cytotoxicity in cancer cells and side effects in neurons, downstream mechanisms that lead to distal axonal degeneration are unknown. Here we show that activation of calpains is required for both neurotoxicity and formation of DNA-platinum adduct formation in neurons but not in cancer cells. Furthermore, we show that neurotoxicity of cisplatin requires activation of Sarm1, a key regulator of Wallerian degeneration, as mice lacking the Sarm1 gene do not develop peripheral neuropathy as evaluated by both behavioral or pathological measures. These findings indicate that Sarm1 and/or specific calpain inhibitors could be developed to prevent cisplatin induced peripheral neuropathy.

Original language	English (US)
Article number	21889
Journal	Scientific reports
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41598-020-78896-w
State	Published - Dec 2020

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title = "Cisplatin induced neurotoxicity is mediated by Sarm1 and calpain activation",

abstract = "Cisplatin is a commonly used chemotherapy agent with significant dose-limiting neurotoxicity resulting in peripheral neuropathy. Although it is postulated that formation of DNA-platinum adducts is responsible for both its cytotoxicity in cancer cells and side effects in neurons, downstream mechanisms that lead to distal axonal degeneration are unknown. Here we show that activation of calpains is required for both neurotoxicity and formation of DNA-platinum adduct formation in neurons but not in cancer cells. Furthermore, we show that neurotoxicity of cisplatin requires activation of Sarm1, a key regulator of Wallerian degeneration, as mice lacking the Sarm1 gene do not develop peripheral neuropathy as evaluated by both behavioral or pathological measures. These findings indicate that Sarm1 and/or specific calpain inhibitors could be developed to prevent cisplatin induced peripheral neuropathy.",

author = "Aysel Cetinkaya-Fisgin and Xinghua Luan and Nicole Reed and Jeong, {Ye Eun} and Oh, {Byoung Chol} and Ahmet Hoke",

note = "Funding Information: This work was supported by NIH (R01 NS091260) and Dr. Miriam and Sheldon G. Adelson Medical Research Foundation to A.H. Publisher Copyright: {\textcopyright} 2020, The Author(s).",

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T1 - Cisplatin induced neurotoxicity is mediated by Sarm1 and calpain activation

AU - Cetinkaya-Fisgin, Aysel

AU - Luan, Xinghua

AU - Reed, Nicole

AU - Jeong, Ye Eun

AU - Oh, Byoung Chol

AU - Hoke, Ahmet

PY - 2020/12

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AB - Cisplatin is a commonly used chemotherapy agent with significant dose-limiting neurotoxicity resulting in peripheral neuropathy. Although it is postulated that formation of DNA-platinum adducts is responsible for both its cytotoxicity in cancer cells and side effects in neurons, downstream mechanisms that lead to distal axonal degeneration are unknown. Here we show that activation of calpains is required for both neurotoxicity and formation of DNA-platinum adduct formation in neurons but not in cancer cells. Furthermore, we show that neurotoxicity of cisplatin requires activation of Sarm1, a key regulator of Wallerian degeneration, as mice lacking the Sarm1 gene do not develop peripheral neuropathy as evaluated by both behavioral or pathological measures. These findings indicate that Sarm1 and/or specific calpain inhibitors could be developed to prevent cisplatin induced peripheral neuropathy.

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Cisplatin induced neurotoxicity is mediated by Sarm1 and calpain activation

Abstract

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