穴位埋线抑制血管性痴呆大鼠神经炎症反应

doi:10.16098/j.issn.0529-1356.2021.03.002

摘要/Abstract

摘要：

目的观察穴位埋线对血管性痴呆(VD)大鼠环氧化酶2 (COX-2)/前列腺素E2 (PGE2)信号通路中炎症因子表达的影响，探讨穴位埋线对VD大鼠脑部神经炎性反应抑制作用的机制。方法采用改良Pulsinelli’s 4血管阻断法建立VD模型，148只雄性SD大鼠随机分为VD模型组、非穴位埋线组、穴位埋线组，另设置假手术组为对照。术后第7天2个治疗组分别施行穴位埋线和非穴位埋线治疗，15 d后取材。Western blotting检测COX-2和PGE2的表达；Real-time PCR检测大鼠海马肿瘤坏死因子α（TNF-α）、细胞间黏附分子1（ICAM-1）、白细胞介素（IL）-6、巨噬细胞炎性蛋白2（MIP-2）、IL-1β和单核细胞趋化蛋白1（MCP-1）的mRNA表达。结果与假手术组相比，其他3组大鼠海马组织COX-2、PGE2、TNF-α、ICAM-1、IL-6、MIP-2、IL-1β和MCP-1因子的表达均显著性升高（P＜0.01）。与模型组相比，穴位埋线组和非穴位埋线组海马组织COX-2、PGE2蛋白及TNF-α、ICAM-1、IL-6、MIP-2、IL-1β和 MCP-1 mRNA表达均下降（P＜0.01），且穴位埋线组下降最为明显（P＜0.01）。结论穴位埋线可通过下调 COX-2/PGE2信号通路中相关炎症因子的表达，降低VD大鼠引起的炎症反应，起到保护脑炎免受损伤的作用。

关键词: 穴位埋线, 血管性痴呆, 炎症因子, 免疫印迹法, 大鼠

Abstract:

Objective To observe the effect of acupoint catgut embedding on the expression of inflammatory factor mRNA in cyclooxygenase-2 (COX-2)/prostaglandin E2 (PGE2) signal pathway of vascular dementia (VD) rats, and to explore the protective mechanism of acupoint catgut embedding on the brain inflammatory response of VD rats. Methods VD model was established by the modified Pulsinelli’s four vessel blocking method . Totally 148 male rats were randomly divided into VD model group, non acupoint catgut embedding group and acupoint catgut embedding group. On the 7th day after operation, catgut embedding at acupoints and catgut embedding at non acupoints were performed in the two treatment groups respectively, and materials were taken out 15 days later. Western blotting was used to detect the expression of COX-2 and PGE2, and real-time PCR was used to detect the mRNA expression of tumor necrosis factor α(TNF-α), intercellular cell adhesion molecule 1 (ICAM-1), interleukin(IL)-6, macrophage inflammatory protein 2 (MIP-2), IL-1β, and monocyte chemotactic protein 1 (MCP-1) in rat hippocampus. Results Compared with the sham group, the expressions of COX-2, PGE2, TNF-α, ICAM-1, IL-6, MIP-2, IL-1β and MCP-1 in hippocampus of the other three groups were significantly higher (P<0.01). Compared with the model group, the expressions of COX-2, PGE2 protein and TNF-α, ICAM-1, IL-6, MIP-2, IL-1β, MCP-1 mRNA in the hippocampus of the acupoint catgut embedding group and the non acupoint catgut embedding group decreased significantly (P<0.01). Conclusion Acupoint catgut embedding can protect the brain from inflammatory injury by down-regulating the expression of related inflammatory factors in COX-2/PGE2 signaling pathway and reducing the inflammatory response induced by VD rats.

Key words: Acupoint catgut embedding, Vascular dementia, Inflammatory factor, Western blotting, Rat

中图分类号:

R245
R392.11

朱世杰孙秋颖唐中生罗亚非谢高宇吴春朋寇云芳范瑞娟. 穴位埋线抑制血管性痴呆大鼠神经炎症反应[J]. 解剖学报, 2021, 52(3): 337-343.

ZHU Shi-jie SUN Qiu-ying TANG Zhong-sheng LUO Ya-fei XIE Gao-yu WU Chun-peng KOU Yun-fang FAN Rui-juan. Acupoint catgut embedding inhibiting neuroinflammation in vascular dementia rats[J]. Acta Anatomica Sinica, 2021, 52(3): 337-343.

参考文献

[1］ Zhang XSh, Sun JN, Guo J, et al. Study on the effect of total alkaloids of Peganum harmala on learning and memory of vascular dementia rats［J］.Pharmacology and Clinic of Traditional Chinese Medicine,2017, 44（8）:75-78.（in Chinese）

张晓双，孙建宁，郭洁，等.骆驼蓬总碱对血管性痴呆大鼠学习记忆的研究［J］.中药药理与临床，2017，44（8）：75-78.

[2］ Tang ZhSh, Li X, Wu ChP, et al. Effect of acupoint catgut embedding on hemorheology and expression of p75NTR in hippocampal CA1 neurons of vascular dementia rats［J］. Journal of Practical Medicine,2017,（16）:2628-2631.（in Chinese）

唐中生，李霞，吴春朋，等.穴位埋线对血管性痴呆大鼠血液流变学和海马CA1区神经元p75NTR表达的影响［J］.实用医学杂志，2017，（16）：2628-2631.

[3］ Cui J, Chen PB, Yang XF, et al. Effect of the simple acupoint catgut embedding on the expression of ICAM-1, NF-kappaB and airway inflammation in rats with asthma［J］. Anesth Analg, 2017, 125(2):662-669.

［4］ Fang YN, Sui RB, Zhang L. Effect of acupuncture on inflammatory cytokines in hippocampus of vascular dementia rats ［J］.Journal of Xi’an Jiaotong University (Medical Edition), 2016, 37（4）:586-589.（in Chinese）

房雅楠，隋汝波，张磊.针刺完骨穴对血管性痴呆大鼠海马炎性细胞因子的影响［J］.西安交通大学学报（医学版），2016，37（4）：586-589.

［5］ Gr?sch S, Niederberger E, Geisslinger G.Investigational drugs targeting the prostaglandin E2 signaling pathway for the treatment of inflammatory pain［J］.Expert Opin Investig Drugs, 2017, 26(1):51-61.

［6］ Li WD, Jiang HB, Lian XQ, et al. Improvement of the method of making brain ischemia model by Pulsinelli four vessel method in rats［J］.Journal of Xinxiang Medical College,2010,27(3):237-239.（in Chinese）

李文东，姜洪波，连晓倩，等.Pulsinelli四血管法大鼠全脑缺血模型制作方法的改进［J］.新乡医学院学报，2010,27(3):237-239.

［7］ Li ZhR. Experimental Acupuncture Science［M］. BeiJing: China Press of Traditional Chinese Medicine,2003:184-185.（in Chinese）

李忠仁.实验针灸学［M］.北京：中国中医药出版社，2003:184-185.

［8］ Yang ChH, Wang YY. Pathogenesis and treatment of vascular dementia in traditional chinese medicine［J］.Traditional Chinese Medicinal Research,2005，18(5):6-7.（in Chinese）

杨辰华，王永炎.血管性痴呆的中医病机及辨治思路［J］.中医研究，2005，18(5):6-7.

［9］ Li HB, Tan ZH. Study on neurovascular unit of vascular dementia based on collateral disease theory［J］.Lishizhen Medicine and Materia Medica Research,2016,27（10）：2481-2483.（in Chinese）

李红兵，谭子虎.基于络病理论对血管性痴呆神经血管单元的研究［J］.时珍国医国药，2016,27（10）：2481-2483.

［10］ Yang ChH, Wang YY, Wang XZh. Syndrome elements and pathogenesis of vascular dementia［J］.Journal of Beijing University of Traditional Chinese Medicine,2006,29（10）：665-667.（in Chinese）

杨辰华，王永炎，王新志.血管性痴呆的证候要素与玄府病机［J］.北京中医药大学学报，2006,29（10）：665-667.

［11］ Kalaria RN.Neuropathological diagnosis of vascular cognitive impairment and vascular dementia with implications for Alzheimer’s disease［J］.Acta Neuropathol, 2016, 131 (5): 659-685.

［12］ Wang J, Chen Y, Liang H, et al. The role of disturbed small-world networks in patients with white matter lesions and cognitive impairment revealed by resting state function magnetic resonance images (rs-fMRI)［J］.Med Sci Monit, 2019, 25:341-356.

［13］ Lin CC, Hsieh HL, Liu SW, et al. BK induces cPLA2 expression via an autocrine loop involving COX-2-derived PGE2 in rat brain astrocytes［J］. Mol Neurobiol, 2015, 51(3):1103-1115.

［14］ Yang Y, Chen Q, Zhao Q, et al. Inhibition of COX-2/PGD2-related autophagy is involved in the mechanism of brain injury in T2DM rat［J］.Front Cell Neurosci, 2019, 13:68.

［15］ Shiow LR, Favrais G, Schirmer L,et al. Reactive astrocyte COX2-PGE2 production inhibits oligodendrocyte maturation in neonatal white matter injury［J］.Glia, 2017, 65(12):2024-2037.

［16］ Song Q, Fan C, Wang P, et al. Hippocampal CA1 βCaMKⅡ mediates neuroinflammatory responses via COX-2/PGE2 signaling pathways in depression［J］.J Neuroinflamm, 2018,15（1）:338.

［17］ Echizen K, Hirose O, Maeda Y,et al. Inflammation in gastric cancer: interplay of the COX-2/prostaglandin E2 and Toll-like receptor/MyD88 pathways［J］.Cancer Sci, 2016,107 (4):391-397.

［18］ Huang X, Pan Q, Mao Z,et al. Sinapic acid inhibits the IL-1β-induced inflammation via MAPK downregulation in rat chondrocytes［J］.Inflammation, 2018, 41(2):562-568.

［19］ Damlar Ⅰ, Esen E, Tatli U.Effects of glucosamine-chondroitin combination on synovial fluid IL-1β, IL-6, TNF-α and PGE2 levels in internal derangements of temporomandibular joint［J］. Med Oral Patol Oral Cir Bucal, 2015, 20(3):e278-283.

［20］ da Silva JB, Carvalho E, Covarrubias AE,et al. Induction of TNF-alfa and CXCL-2 mRNAs in different organs of mice infected with pathogenic Leptospira ［J］.Microb Pathog, 2012,52(4):206-216.

［21］ Liu CW, Sung HC,Lin SR,et al. Resveratrol attenuates ICAM-1 expression and monocyte adhesiveness to TNF-α-treated endothelial cells: evidence for an anti-inflammatory cascade mediated by the miR-221/222/AMPK/p38/NF-κB pathway［J］.Sci Rep, 2017,7:44689.

［22］ Dohgu S, Takata F, Matsumoto J,et al. Monomeric α-synuclein induces blood-brain barrier dysfunction through activated brain pericytes releasing inflammatory mediators in vitro［J］. Microvasc Res, 2019,124:61-66.

[1]	洪晓敏李三强崔钦奕郑润月杨孟利罗仁利李前辉 . 酒精性肝纤维化核因子κB信号通路与性别的差异 [J]. 解剖学报, 2024, 55(1): 55-61.
[2]	谢惠兰方芳林毅. Chir99021调控Wnt/β-catenin 信号通路抑制大鼠牙髓干细胞成骨诱导分化的机制[J]. 解剖学报, 2024, 55(1): 67-72.
[3]	魏茜茜李超红赵晨露唐家萍刘玉珍. 大鼠颈上神经节中Ⅰ组代谢型谷氨酸受体表达及慢性间歇性低氧对其的影响 [J]. 解剖学报, 2024, 55(1): 3-9.
[4]	袁蕾杨智伟杨惠刘政海何洁万炜. 三七总皂苷抑制小鼠星形胶质细胞活化缓解完全弗氏佐剂所致炎性痛 [J]. 解剖学报, 2024, 55(1): 25-31.
[5]	马婷婷陈建红刘爱翠李海宁. 抑制lncRNA TUG1下调核苷酸结合寡聚结构域样受体蛋白1炎症小体在延缓阿尔茨海默病进展的作用 [J]. 解剖学报, 2024, 55(1): 32-42.
[6]	邹成功冯浩陈兵唐辉邵川孙谋杨荣何家全. 创伤性颅脑损伤中神经功能障碍与认知功能损伤的动态变化 [J]. 解剖学报, 2024, 55(1): 43-48.
[7]	吕海燕沈西雅赵富生朱梅. 松茸多糖对 1-甲基-4-苯基-吡啶离子诱导 PC12 细胞损伤的影响 [J]. 解剖学报, 2024, 55(1): 49-54.
[8]	郑丽平刘霞杜晓华吴亚娟刘珊珊 . 脑源性神经营养因子在牦牛与黄牛端脑不同区域的表达与分布 [J]. 解剖学报, 2024, 55(1): 10-16.
[9]	苏芃王兴仪梁景岩熊天庆. 一种低密度及高纯度胎鼠原代海马神经元培养方法的优化及鉴定[J]. 解剖学报, 2024, 55(1): 113-119.
[10]	郝永明郭磊周程辉裴汉军李莉赵哲 . 改良腹主动脉缩窄法建立心肌肥厚模型[J]. 解剖学报, 2024, 55(1): 120-124.
[11]	许亚平余悦欣陈金福王柯柯郭志坤 . 高龄大鼠心室肌间质弹性纤维和胶原纤维的结构分布特征及其机制 [J]. 解剖学报, 2023, 54(6): 716-721.
[12]	刘丽平朱梦妮徐慧 . 白细胞介素6对脂多糖诱导所致类子痫前期大鼠有核红细胞的影响 [J]. 解剖学报, 2023, 54(6): 722-729.
[13]	赵卫明李晓余国营王改平常翠芳 . 丝氨酸肽酶抑制因子Kazal型1对肝癌细胞增殖的影响及其机制 [J]. 解剖学报, 2023, 54(6): 695-702.
[14]	王文娟丁雨桐苏昊任捷孙艳荣王涵菲陆嘉莉张林倩白钰秦丽华. 低雌激素状态下大鼠海马及纹状体Nogo-A的表达变化[J]. 解剖学报, 2023, 54(6): 620-627.
[15]	张琴杨俊霞蒋青松. 福辛普利对糖尿病视网膜病变小鼠血管紧张素转化酶2和血管内皮生长因子的影响[J]. 解剖学报, 2023, 54(6): 628-634.