Dihydromyricetin reverses capecitabine‐induced peripheral myelin dysfunction through modulation of oxidative stress

Author:

Fang Jie1,Lou Shuyi2,Zhou Xinyi3,Lou Dayong4,Zhou Liqin4,Bian Rong4

Affiliation:

1. Emergency Department Zhoushan Hospital Zhoushan China

2. National Computer Network Emergency Response Technical Team/Coordination Center of China Beijing China

3. Huzhou University Huzhou China

4. Zhuji People's Hospital of Zhejiang Province Shaoxin China

Abstract

AbstractPrevious clinical reports have shown that capecitabine, an oral prodrug of 5‐fluorouracil (5‐Fu), can induce peripheral neuropathy, resulting in numbness, paresthesia and hypoesthesia. However, the mechanism through which capecitabine causes peripheral nerve injury remains unclear. Here, we demonstrate that systemic administration of capecitabine leads to myelin abnormalities in the peripheral nerves of mice, which are possibly attributed to the death of Schwann cells, the myelinating cells in the peripheral nervous system. Furthermore, our results show that 5‐Fu induces significant oxidative stress in Schwann cells by inhibiting the expression of the anti‐oxidative protein DJ‐1, leading to a decrease in Schwann cell markers. We found that the anti‐oxidant dihydromyricetin (DMY) reverses 5‐Fu‐induced Schwann cell death and oxidative stress and alleviates capecitabine‐induced myelin abnormalities. Taken together, our data indicate that capecitabine induces peripheral myelin dysfunction by regulating DJ‐1‐mediated oxidative stress in Schwann cells and reveal DMY as a potential therapeutic strategy for capecitabine‐induced peripheral neuropathy.

Funder

Natural Science Foundation of Zhejiang Province

Publisher

Wiley

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