Orientin Reduces the Effects of Repeated Procedural Neonatal Pain in Adulthood: Network Pharmacology Analysis, Molecular Docking Analysis, and Experimental Validation.

IF 2.5 3区医学 Q2 CLINICAL NEUROLOGY

Pain Research & Management Pub Date : 2023-11-24 eCollection Date: 2023-01-01 DOI:10.1155/2023/8893932

Dong-Dong Guo, Hai-Yan Huang, Hai-E Liu, Kun Liu, Xing-Jing Luo

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引用次数: 0

Abstract

Background: Premature infants often undergo painful procedures and consequently experience repeated procedural neonatal pain. This can elicit hyperalgesia and cognitive impairment in adulthood. Treatments for neonatal pain are limited. Orientin is a flavonoid C-glycoside that has repeatedly been shown to have pharmacological effects in the past decades. The aim of this study was to systematically explore the effect of orientin on repeated procedural neonatal pain using network pharmacology, molecular docking analysis, and experimental validation.

Methods: Several compound-protein databases and disease-protein databases were employed to identify proteins that were both predicted targets of orientin and involved in neonatal pain. A protein-protein interaction (PPI) network was constructed, and Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analyses were performed to explore the potential mechanism of action. Molecular docking analysis was employed to calculate the binding energy and visualize the interactions between orientin and potential target proteins. Finally, a mouse model of repeated procedural neonatal pain was established and orientin was administered for 6 days. The mechanical and thermal pain thresholds were assessed in neonates and adult mice. A Morris water maze was employed to investigate cognitive impairment in adult mice.

Results: A total of 286 proteins that were both predicted targets of orientin and involved in neonatal pain were identified. The hub proteins were SRC, HSP90AA1, MAPK1, RHOA, EGFR, AKT1, PTPN11, ESR1, RXRA, and HRAS. GO analysis indicated that the primary biological process (BP), molecular function (MF), and cellular component (CC) were protein phosphorylation, protein kinase activity, and vesicle lumen, respectively. KEGG analysis revealed that the mitogen-activated protein kinase (MAPK) signaling pathway may be the key to the mechanism of action. Molecular docking analysis showed the high binding affinities of orientin for MAPK1, MAPK8, and MAPK14. In mice, orientin inhibited the hyperalgesia in the pain threshold tests in neonates and adult mice and cognitive impairment in adult mice. Immunofluorescence showed that phosphorylated MAPK1 (p-ERK) protein levels in the hippocampus and spinal dorsal horn were downregulated by orientin.

Conclusion: The findings suggested that orientin alleviates neonatal pain, and the MAPK signaling pathway is involved.

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东方汀减少成年期新生儿反复程序性疼痛的影响:网络药理学分析，分子对接分析和实验验证。

背景:早产儿经常经历痛苦的手术，因此经历了反复的手术新生儿疼痛。这会在成年期引发痛觉过敏和认知障碍。新生儿疼痛的治疗是有限的。东方苷是一种黄酮类c -糖苷，在过去的几十年里多次被证明具有药理作用。本研究的目的是通过网络药理学、分子对接分析和实验验证等方法，系统探讨奥立丁对新生儿重复性程序性疼痛的影响。方法:利用多个化合物蛋白数据库和疾病蛋白数据库，鉴定既可预测orient蛋白靶点又与新生儿疼痛有关的蛋白。构建蛋白-蛋白相互作用(PPI)网络，并进行基因本体(GO)和京都基因与基因组百科全书(KEGG)富集分析，探讨其潜在的作用机制。利用分子对接分析计算结合能，可视化定位蛋白与潜在靶蛋白之间的相互作用。最后，建立小鼠重复性程序性新生儿疼痛模型，并给药6 d。评估了新生小鼠和成年小鼠的机械痛阈和热痛阈。采用Morris水迷宫法观察成年小鼠的认知功能障碍。结果:共鉴定出286个与新生儿疼痛相关的蛋白，这些蛋白既可预测orient蛋白的作用靶点，又与新生儿疼痛有关。中心蛋白为SRC、HSP90AA1、MAPK1、RHOA、EGFR、AKT1、PTPN11、ESR1、RXRA和HRAS。氧化石墨烯分析表明，主要的生物过程(BP)、分子功能(MF)和细胞成分(CC)分别是蛋白质磷酸化、蛋白激酶活性和囊泡腔。KEGG分析显示，丝裂原活化蛋白激酶(MAPK)信号通路可能是其作用机制的关键。分子对接分析显示，东方蛋白对MAPK1、MAPK8和MAPK14具有较高的结合亲和力。在小鼠中，荭草苷抑制了新生儿和成年小鼠痛阈测试中的痛觉过敏和成年小鼠的认知障碍。免疫荧光显示，东方汀下调海马和脊髓背角磷酸化MAPK1 (p-ERK)蛋白水平。结论:荭草苷减轻新生儿疼痛，可能与MAPK信号通路有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Pain Research & Management CLINICAL NEUROLOGY-

CiteScore

5.30

自引率

0.00%

发文量

109

审稿时长

>12 weeks

期刊介绍： Pain Research and Management is a peer-reviewed, Open Access journal that publishes original research articles, review articles, and clinical studies in all areas of pain management. The most recent Impact Factor for Pain Research and Management is 1.685 according to the 2015 Journal Citation Reports released by Thomson Reuters in 2016.