硫化氢可清除自由基，通过抑制 p38MAPK/mTOR/NF-κB 信号通路改善脊髓损伤。

IF 3.9 4区医学 Q2 NEUROSCIENCES

NeuroMolecular Medicine Pub Date : 2024-06-21 DOI:10.1007/s12017-024-08794-1

Kexin Lin, Yong Zhang, Yanyang Shen, Yiqin Xu, Min Huang, Xuehong Liu

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引用次数: 0

摘要

脊髓损伤（SCI）会导致不可逆的细胞损失和神经功能障碍。目前，临床上还没有治疗脊髓损伤的有效方法。唯一的干预措施是缓解患者的疼痛和发热等症状。自由基引起的损伤是原发性 SCI 后复杂的继发性损伤的有效机制之一。硫化氢（H2S）作为一种抗氧化剂可有效清除自由基，保护神经元，并通过抑制 p38MAPK/mTOR/NF-κB 信号通路改善 SCI。本报告分析了 SCI 的病理机制、自由基介导的 p38MAPK/mTOR/NF-κB 信号通路在 SCI 中的作用以及 H2S 在清除自由基和改善 SCI 中的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Hydrogen Sulfide can Scavenge Free Radicals to Improve Spinal Cord Injury by Inhibiting the p38MAPK/mTOR/NF-κB Signaling Pathway.

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Hydrogen Sulfide can Scavenge Free Radicals to Improve Spinal Cord Injury by Inhibiting the p38MAPK/mTOR/NF-κB Signaling Pathway.

Spinal cord injury (SCI) causes irreversible cell loss and neurological dysfunctions. Presently, there is no an effective clinical treatment for SCI. It can be the only intervention measure by relieving the symptoms of patients such as pain and fever. Free radical-induced damage is one of the validated mechanisms in the complex secondary injury following primary SCI. Hydrogen sulfide (H₂S) as an antioxidant can effectively scavenge free radicals, protect neurons, and improve SCI by inhibiting the p38MAPK/mTOR/NF-κB signaling pathway. In this report, we analyze the pathological mechanism of SCI, the role of free radical-mediated the p38MAPK/mTOR/NF-κB signaling pathway in SCI, and the role of H₂S in scavenging free radicals and improving SCI.

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来源期刊

NeuroMolecular Medicine 医学-神经科学

CiteScore

7.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： NeuroMolecular Medicine publishes cutting-edge original research articles and critical reviews on the molecular and biochemical basis of neurological disorders. Studies range from genetic analyses of human populations to animal and cell culture models of neurological disorders. Emerging findings concerning the identification of genetic aberrancies and their pathogenic mechanisms at the molecular and cellular levels will be included. Also covered are experimental analyses of molecular cascades involved in the development and adult plasticity of the nervous system, in neurological dysfunction, and in neuronal degeneration and repair. NeuroMolecular Medicine encompasses basic research in the fields of molecular genetics, signal transduction, plasticity, and cell death. The information published in NEMM will provide a window into the future of molecular medicine for the nervous system.