Cimifugin Alleviates Chronic Constriction Injury of the Sciatic Nerve by Suppressing Inflammatory Response and Schwann Cell Apoptosis.

IF 1.8 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Cell Biochemistry and Biophysics Pub Date : 2024-10-11 DOI:10.1007/s12013-024-01513-4

Qijuan Zhang, Xiaoli Zhang, Qing He, Yu Tian, Zhengmao Liu

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Abstract

Inflammation and Schwann cell apoptosis play critical roles in neuropathic pain after sciatic nerve injury. This study aimed to explore the function and mechanism of cimifugin in lipopolysaccharide (LPS)-stimulated rat Schwann cells and sciatic nerves of rats treated with chronic constriction injury (CCI). Thermal, mechanical and cold hyperalgesia of rats in response to cimifugin or mecobalamin (the positive drug control) treatment were evaluated through behavioral tests. H&E staining of sciatic nerves was performed for pathological observation. ELISA was conducted to assess concentrations of inflammatory cytokines in rat serum and sciatic nerves. The intensity of S100β in sciatic nerves was determined using immunohistochemistry. Flow cytometry analysis was conducted for detection of Schwann cell apoptosis. RT-qPCR was performed to measure mRNA levels of inflammatory factors in Schwann cells. Immunofluorescence staining was performed to detect cellular p65/NF-κB activity. Western blotting was performed to quantify protein levels of apoptotic markers and factors associated with the NF-κB and MAPK pathways in rat nerves and Schwann cells. As shown by experimental data, cimifugin mitigated thermal, mechanical and cold hyperalgesia of CCI rats. Cimifugin repressed inflammatory cell infiltration, reduced proinflammatory cytokine levels while increasing anti-inflammatory factor (IL-10) level in serum or sciatic nerves of CCI rats. Cimifugin enhanced S100β expression and downregulated apoptotic markers in vivo. The anti-inflammatory and anti-apoptotic properties of cimifugin were verified in the LPS-stimulated Schwann cells. Moreover, cimifugin suppressed nuclear translocation of p65 NF-κB in vitro and repressed the phosphorylation of IκB, p65 NF-κB, p38 MAPK, ERK1/2, as well as JNK in CCI rats. In conclusion, cimifugin alleviates neuropathic pain after sciatica by suppressing inflammatory response and Schwann cell apoptosis via inactivation of NF-κB and MAPK pathways.

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Cimifugin通过抑制炎症反应和许旺细胞凋亡缓解坐骨神经的慢性收缩损伤

炎症和许旺细胞凋亡在坐骨神经损伤后的神经病理性疼痛中起着关键作用。本研究旨在探讨cimifugin在脂多糖（LPS）刺激的大鼠许旺细胞和慢性收缩性损伤（CCI）大鼠坐骨神经中的功能和机制。通过行为测试评估了大鼠对西米芬净或甲钴胺（阳性药物对照）的热痛、机械痛和冷痛反应。对坐骨神经进行 H&E 染色，以进行病理观察。采用 ELISA 方法评估大鼠血清和坐骨神经中炎性细胞因子的浓度。用免疫组化法测定坐骨神经中 S100β 的强度。流式细胞术分析用于检测许旺细胞凋亡。用 RT-qPCR 检测许旺细胞中炎性因子的 mRNA 水平。免疫荧光染色检测细胞中 p65/NF-κB 的活性。用 Western 印迹法定量检测大鼠神经和许旺细胞中凋亡标志物以及与 NF-κB 和 MAPK 通路相关的因子的蛋白水平。实验数据显示，cimifugin 可减轻 CCI 大鼠的热痛、机械痛和冷痛。Cimifugin 可抑制炎症细胞浸润，降低促炎细胞因子水平，同时提高 CCI 大鼠血清或坐骨神经中的抗炎因子（IL-10）水平。Cimifugin 可增强体内 S100β 的表达，并下调细胞凋亡标志物。cimifugin 的抗炎和抗凋亡特性在 LPS 刺激的许旺细胞中得到了验证。此外，cimifugin 还抑制了体外 p65 NF-κB 的核转位，并抑制了 CCI 大鼠体内 IκB、p65 NF-κB、p38 MAPK、ERK1/2 和 JNK 的磷酸化。总之，cimifugin可通过抑制NF-κB和MAPK通路，抑制炎症反应和许旺细胞凋亡，从而缓解坐骨神经痛后的神经病理性疼痛。

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来源期刊

Cell Biochemistry and Biophysics 生物-生化与分子生物学

CiteScore

4.40

自引率

0.00%

发文量

审稿时长

7.5 months

期刊介绍： Cell Biochemistry and Biophysics (CBB) aims to publish papers on the nature of the biochemical and biophysical mechanisms underlying the structure, control and function of cellular systems The reports should be within the framework of modern biochemistry and chemistry, biophysics and cell physiology, physics and engineering, molecular and structural biology. The relationship between molecular structure and function under investigation is emphasized. Examples of subject areas that CBB publishes are: · biochemical and biophysical aspects of cell structure and function; · interactions of cells and their molecular/macromolecular constituents; · innovative developments in genetic and biomolecular engineering; · computer-based analysis of tissues, cells, cell networks, organelles, and molecular/macromolecular assemblies; · photometric, spectroscopic, microscopic, mechanical, and electrical methodologies/techniques in analytical cytology, cytometry and innovative instrument design For articles that focus on computational aspects, authors should be clear about which docking and molecular dynamics algorithms or software packages are being used as well as details on the system parameterization, simulations conditions etc. In addition, docking calculations (virtual screening, QSAR, etc.) should be validated either by experimental studies or one or more reliable theoretical cross-validation methods.