Mesenchymal stem cells reduce the oxaliplatin-induced sensory neuropathy through the reestablishment of redox homeostasis in the spinal cord

神经病理性疼痛 医学 脊髓 药理学 伤害 氧化应激 间充质干细胞 神经保护 加巴喷丁 痛觉超敏 麻醉 痛觉过敏 内分泌学 内科学 病理 受体 替代医学 精神科
作者
Gisele Graça Leite dos Santos,Anna Lethícia Lima Oliveira,Dourivaldo Silva Santos,Renan Fernandes do Espírito Santo,Daniela Nascimento Silva,Paulo José Lima Juíz,Milena Botelho Pereira Soares,Cristiane Flora Villarreal
出处
期刊:Life Sciences [Elsevier BV]
卷期号:265: 118755-118755 被引量:18
标识
DOI:10.1016/j.lfs.2020.118755
摘要

The present study was designed to investigate whether the antinociceptive effect of bone marrow-derived mesenchymal stem/stromal cells (MSC) during oxaliplatin (OXL)-induced sensory neuropathy is related to antioxidant properties. Male mice C57BL/6 were submitted to repeated intravenous administration of OXL (1 mg/kg, 9 administrations). After the establishment of sensory neuropathy, mice were treated with a single intravenous administration of MSC (1 × 106), vehicle or gabapentin. Paw mechanical and thermal nociceptive thresholds were evaluated through von Frey filaments and cold plate test, respectively. Motor performance was evaluated in the rota-rod test. Gene expression profile, cytokine levels, and oxidative stress markers in the spinal cord were evaluated by real-time PCR, ELISA and biochemical assays, respectively. OXL-treated mice presented behavioral signs of sensory neuropathy, such as mechanical allodynia and thermal hyperalgesia, which were completely reverted by a single administration of MSC. Repeated oral treatment with gabapentin (70 mg/kg) induced only transient antinociception. The IL-1β and TNF-α spinal levels did not differ between mice with or without sensory neuropathy. MSC increased the levels of anti-inflammatory cytokines, IL-10 and TGF-β, in the spinal cord of neuropathic mice, in addition to increasing the gene expression of antioxidant factors SOD and Nrf-2. Additionally, nitrite and MDA spinal levels were reduced by the MSC treatment. MSC induce reversion of sensory neuropathy induced by OXL possibly by activation of anti-inflammatory and antioxidant pathways, leading to reestablishment of redox homeostasis in the spinal cord.
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