基于网络药理学分析参苏饮治疗慢性支气管炎的作用机制

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Abstract Objective To explore the mechanism of Shensu decoction in treating chronic bronchitis based on network pharmacology.Methods Screening the active ingredients and action targets of Shensu Decoction from the establishment of the Chinese Medicine Systematic Pharmacological Analysis Platform(TCMSP)until September 2020.Disease targets for chronic bronchitis were obtained from GeneCards database(up until September 2020).Cytoscape 3.7.0 software was used to draw the component-target network,Protein-protein interaction(PPI)analysis,gene ontology(GO)analysis and Kyoto Encyclopedia of Genes and Genomes(KEGG)analysis were performed on related targets using R language scripts.Results A total of 160 active components of Shensu Decoction,such as quercetin,kaempferrol and luteolin D ethyl ester,might act on 154 targets core through 175 pathways,such as tumor necrosis factor(TNF)pathway.Conclusion On the surface of network pharmacology,the active ingredients contained in Shensu Deccoction may have potential preventive and therapeutic effect on chronic bronchitis through anti-inflammatory effect.

Key words： Shensu Decoction Chronic bronchitis Network pharmacology Gene ontology-analysis

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	Articles by authors
	ZHU Gao-feng
	CHEN Rui
	ZHANG Yi-ming
	TANG Lei▲

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ZHU Gao-feng,CHEN Rui,ZHANG Yi-ming, et al. Mechanism analysis of Shensu Decoction in treating chronic bronchitis based on network pharmacology[J]. 中国当代医药, 2021, 28(17): 12-19.

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http://dangdaiyiyao.com/EN/ OR http://dangdaiyiyao.com/EN/Y2021/V28/I17/12

[23]	李东涛，金尚艺.c-Jun 氨基末端激酶选择性抑制剂对哮喘小鼠肺组织IL-6 表达的影响[J].解剖学研究，2014，36（3）：170-172，190.
[24]	Geerts D，Cusick JK，Connelly L.Editorial：The tumor necrosis factor superfamily：An increasing role in breast cancer[J].Front Oncol，2020，10：622588.
[26]	Grivennikov SI，Greten FR，Karin M.Immunity，inflammation，and cancer[J].Cell，2010，140（6）：883-899.
[1]	李志强，王学惠，常红娟.参苏饮加减治疗肺气不足型成人病毒性心肌炎的临床观察[J].中国实验方剂学杂志，2019，25（5）：73-78.
[2]	段锦，李艳明.参苏饮治疗慢性支气管炎临床疗效观察[J].四川中医，2017，35（1）：162-164.
[3]	李宏.参苏饮加减联合西药治疗气管切开术后肺部感染临床观察[J].四川中医，2015，33（10）：103-106.
[4]	张琳.小儿反复呼吸道感染中医治疗优化方案临床分析[J].深圳中西医结合杂志，2019，29（15）：38-39.
[5]	Benscoter DT.Bronchiectasis，chronic suppurative lung disease and protracted bacterial bronchitis[J].Curr Probl Pediatr Adolesc Health Care，2018，48（4）：119-123.
[6]	Zeng L，Yang K.Exploring the pharmacological mechanism of Yanghe Decoction on HER2-positive breast cancer by a network pharmacology approach[J].J Ethnopharmacol，2017，199：68-85.
[7]	杨凯麟，曾柳庭，葛安琪，等.基于网络药理学探讨桃仁-红花药对活血化瘀的分子机制[J].世界科学技术-中医药现代化，2018，20（12）：2208-2216.
[8]	杨挡，姜梦华，李陈子，等.基于网络药理学技术挖掘蒲地蓝消炎口服液的活性组分与作用机制[J].中国中药杂志，2020，45（18）：4291-4298.
[9]	黄友，杨莎莎，林夏，等.基于网络药理-分子对接研究附子理中丸治疗溃疡性结肠炎的作用机制[J].药学学报，2020，55（8）：1812-1822.
[13]	Lester SN，Li K.Toll-like receptors in antiviral innate immunity[J].J Mol Biol，2014，426（6）：1246-1264.
[16]	Mcgarry T，Biniecka M，Veale DJ，et al.Hypoxia，oxidative stress and inflammation[J].Free Radic Biol Med，2018，125：15-24.
[20]	马素丽，张蕾，杨芳.支气管哮喘患儿外周血单个核细胞中STAT3、STAT4 的表达及其意义[J].现代医学，2019，47（7）：765-768.
[10]	Ganesan S，Faris AN，Comstock AT，et al.Quercetin prevents progression of disease in elastase/LPS-exposed mice by negatively regulating MMP expression[J].Respir Res，2010，11（1）：131.
[11]	Byun EB，Yang MS，Choi HG，et al.Quercetin negatively regulates TLR4 signaling induced by lipopolysaccharide through Tollip expression[J].Biochem Biophys Res Commun，2013，431（4）：698-705.
[12]	Wang H，Bi C，Wang Y，et al.Selenium ameliorates Staphylococcus aureus-induced inflammation in bovine mammary epithelial cells by inhibiting activation of TLR2，NF-κB and MAPK signaling pathways[J].BMC Vet Res，2018，14（1）：197.
[14]	Guo H，Lei H，Zhang BG，et al.c-Jun NH2-terminal kinase（JNK）/stress-activated protein kinase-associated protein 1 is a critical regulator for arthritis progression by meditating inflammation in mice model[J].Int Immunopharmacol，2020，81：106272.
[15]	Gong JH，Shin D，Han SY，et al.Blockade of airway inflammation by kaempferol via disturbing Tyk-STAT signaling in airway epithelial cells and in asthmatic mice[J].Evid Based Complement Alternat Med，2013，2013：250725.
[17]	Xiong J，Wang K，Yuan C，et al.Luteolin protects mice from severe acute pancreatitis by exerting HO-1-mediated anti-inflammatory and antioxidant effects[J].Int J Mol Med，2017，39（1）：113-125.
[18]	Li YC，Yeh CH，Yang ML，et al.Luteolin suppresses inflammatory mediator expression by blocking the Akt/NFkappaB pathway in acute lung injury induced by lipopolysaccharide in Mice[J].Evid Based Complement Alternat Med，2012，2012：383608.
[19]	Seelinger G，Merfort I，Schempp CM.Anti-oxidant，anti-inflammatory and anti-allergic activities of luteolin[J].Planta Med，2008，74（14）：1667-1677.
[21]	Mrozek-Wilczkiewicz A，Kuczak M，Malarz K，et al.The synthesis and anticancer activity of 2-styrylquinoline derivatives.A p53 independent mechanism of action[J].Eur J Med Chem，2019，177：338-349.
[22]	Iwashita J，Ito Y，Yokoo M，et al.Akt induces down regulation of MUC5AC production in NCI-H292 human airway epithelial cells cultured on extracellular matrix[J].Biosci Biotechnol Biochem，2014，78（2）：212-221.
[25]	Simpson JL，Phipps S，Gibson PG.Inflammatory mechanisms and treatment of obstructive airway diseases with neutrophilic bronchitis[J].Pharmacol Ther，2009，124（1）：86-95.
[27]	Arthur JC，Perez-Chanona E，Muhlbauer M，et al.Intestinal inflammation targets cancer-inducing activity of the microbiota[J].Science，2012，338（6103）：120-123.