Abstract
[Objective] To explore the anti -inflammatory active ingredients and mechanisms of action of Lycii fructus.[Methods] Network pharmacology and molecular docking techniques were used to screen the main components and targets of Lycii fructus with anti -inflammatory effects.Combined with cell experiments,the anti -inflammatory activity of Lycii fructus extract was evaluated using the RAW 264.7 inflammatory cell model.The Pearson correlation coefficient method was used to analyze the correlation between the main components and inflammatory factors.[Results]] A total of 34 main components and 123 common target genes of Lycii fructus were screened through online databases such as TCMSP,Uniprot,and OMIM.Core targets,including IL-6,TP53,JUN,TNF,AKT 1,and IL1B,were identified through the protein -protein interaction network.Key components such as quercetin,β-sitosterol,daidzein,stigmasterol,and atropine were obtained from "drug -component -target" network.KEGG pathway enrichment analysis revealed cancer signaling pathway,lipid signaling pathway,and atherosclerosis signaling pathway.Molecular docking results showed that β-sitosterol and stigmasterol exhibited relatively low binding energies and strong affinities with key targets.Cell experiments further confirmed a negative correlation between the concentrations of quercetin,β-sitosterol,and stigmasterol in Lycii fructus extract and the production of inflammatory factors TNF -α,IL-6,and IL -1β.[Conclusion] The potential anti -inflammatory active ingredients in Lycii fructus are quercetin,β-sitosterol,and stigmasterol,which may exert anti -inflammatory effects by regulating core targets such as AKT 1 and IL1B.
Publication Date
4-25-2025
First Page
151
Last Page
160
DOI
10.13652/j.spjx.1003.5788.2024.80952
Recommended Citation
Xiaofei, SHI
(2025)
"Anti-inflammatory active ingredients and mechanisms of action of Lycii fructus,"
Food and Machinery: Vol. 41:
Iss.
3, Article 22.
DOI: 10.13652/j.spjx.1003.5788.2024.80952
Available at:
https://www.ifoodmm.cn/journal/vol41/iss3/22
References
[1] 张天,徐慧,全吉淑,等.草苁蓉多糖抑制 J774A.1巨噬细胞炎症小体活化及细胞焦亡机制研究 [J].食品与机械,2024,40(5):137-145.ZHANG T,XU H,QUAN J S,et al.Study on the mechanism of ##表示与 CON组存在极显著差异 (P<0.05);**表示与 MOD组存在极显著差异 (P<0.01);+表示 1 μg/mL LPS|Boschniakia rossica polysaccharide inhibiting the activation of inflammasomes and pyroptosis in J 774A.1 macrophages [J].Food & Machinery,2024,40(5):137-145.
[2] 郑振霄,朱凯,戴志远.南极磷虾油对脂多糖诱导 RAW 264.7细胞炎症反应的抑制作用 [J].中国食品学报,2023,23(1):23-31.ZHENG Z X,ZHU K,DAI Z Y.Inhibitory effect of Antarctic krill oil on LPS induced inflammatory response in RAW 246.7 cells [J].Journal of Chinese Institute of Food Science and Technology,2023,23(1):23-31.
[3] 傅丽娟,邢路娟,张万刚.食源性抗炎活性肽的研究进展 [J].中国食品学报,2022,22(8):343-352.FU L J,XING L J,ZHANG W G.Research progress on food derived anti-inflammatory peptides [J].Journal of Chinese Institute of Food Science and Technology,2022,22(8):343-352.
[4] 付永平,刘如明,肖建辉.植物源天然产物抗炎活性研究进展[J].医药导报,2020,39(5):666-671.FU Y P,LIU R M,XIAO J H.Progress on anti-inflammatory activities of plant-derived natural products [J].Medical of Review,2020,39(5):666-671.
[5] 贾晓凤,高蝶,刘金旺,等.超声波辅助双水相法提取枸杞叶黄酮及其胰脂肪酶抑制活性 [J].食品与机械,2024,40(8):144-151.JIA X F,GAO D,LIU J W,et al.Extraction of flavonoids from Goji (Lycium barbarum L.) leaves by ultrasonic-assisted two-phase aqueous method and the inhibitory activity of the extract on pancreatic lipase [J].Food & Machinery,2024,40(8):144-151.
[6] 杨露,赵冉,吴镇槐,等.枸杞原浆抗氧化及增强免疫活性研究[J].食品与机械,2022,38(9):18-21,28.YANG L,ZHAO R,WU Z H,et al.Antioxidant capacity and immunoenhancing activity of Lycium barbarum protoplasm [J].Food & Machinery,2022,38(9):18-21,28
[7] 刘文倩,高耀,张立伟,等.基于网络药理学研究连翘抗炎作用机制 [J].山西大学学报 (自然科学版 ),2023,46(1):208-219.LIU W Q,GAO Y,ZHANG L W,et al.Study on anti-inflammatory mechanism of Forsythiae fructus based on network pharmacology [J].Journal of Shanxi University (Natural Science Edition ),2023,46(1):208-219.
[8] KIM B S,SONG Y K,LIM H H,et al.The inhibitory effect of Lycii fructus on LPS-stimulated NF- κB Activation and iNOS expression in RAW 264.7 macrophages [J].The Journal of Korean Medicine,2008,29(1):47-59.
[9] WANG Y,SU H,YUAN J C,et al.Antiobesity effects of Lycii fructus in high-fat diet/fructose-induced obese rats [J].Pharmacognosy Magazine,2020,16(68):87.
[10] 张琪,常久,季巍巍,等.网络药理学在中医药领域的研究进展[J].中国中医药信息杂志,2024,31(11):186-190.ZHANG Q,CHANG J,JI W W,et al.Research progress of network pharmacology in the TCM field [J].Chinese Journal of Information on Traditional Chinese Medicine,2024,31(11):186-190.
[11] 崔艳艳,袁永旭,郭明坤,等.叉分蓼多糖结构表征及其对脂多糖诱导 RAW 264.7细胞炎症的抑制作用 [J].食品科学,2024,45(24):128-138.CUI Y Y,YUAN Y X,GUO M K,et al.Structural characterization of Polygonum divaricatum L.polysaccharide and its inhibitory effect on lipopolysaccharide-induced inflammation in RAW 264.7 cells [J].Food Science,2024,45 (24):128-138.
[12] 李 雪 珊,覃 癸 铭,石 慧 颖,等.岭 南 山 竹 子 提 取 物oblongifolins A 的体外抗炎作用及机制研究 [J].中国药房,2024,35(10):1 209-1 214.LI X S,QIN G M,SHI H Y,et al.Study on in vitro anti-inflammatory effects and mechanisms of oblongifolins A extracted from Garcinia oblongifolia [J].China Pharmacy,2024,35(10):1 209-1 214.
[13] 石敏,黄少军,郭静婕,等.HPLC法同时测定牛大力中豆甾醇和β-谷甾醇含量 [J].广西农学报,2024,39(1):72-81.SHI M,HUANG S J,GUO J J,et al.Simultaneous determination of stigmasterol and β-sitosterol in Millettia speciosa Champ.by HPLC [J].Journal of Guangxi Agriculture,2024,39(1):72-81.
[14] 陈丽萍,顾玲,聂珍琳,等.IL1B启动子区多态性与癌症风险的meta分析 [J].中国医疗设备,2012,27(11):31-36.CHEN L P,GU L,NIE Z L,et al.Meta analysis of IL 1B promoter region polymorphism and cancer risk [J].China Medical Devices,2012,27(11):31-36.
[15] 蒋红霞,陈婉君,许炜炜,等.基于网络药理学研究厚朴温中汤治疗脾胃虚寒型胃病的潜在靶点和机制 [J].中国药理学通报,2023,39(9):1 764-1 773.JIANG H X,CHEN W J,XU W W,et al.Potential targets and mechanism of Houpuwenzhongtang for the treatment of spleen and stomach deficiency cold stomach disease based on network pharmacology [J].Chinese Pharmacological Bulletin,2023,39(9):1 764-1 773.
[16] 陈中,张嘉玲,杨歆萍,等.抑癌基因 TP53及新家族成员TP63和TP73的研究新进展 [J].内蒙古医科大学学报,2013,35(1):57-62.CHEN Z,ZHANG J L,YANG X P,et al.The research progression of tumor suppressor TP 53 and the new family members TP 63 and TP 73[J].Journal of Inner Mongolia Medical University,2013,35(1):57-62.
[17] 杨益言,王卫东.p53动力学:从细胞命运到炎症免疫 [J].中华放射医学与防护杂志,2024,44(12):1 090-1 094.YANG Y Y,WANG W D.p53 dynamics:from determining cell fate to inflammation and immune regulation [J].Chinese Journal of Radiological Medicine and Protection,2024,44 (12):1 090-1 094.
[18] ZHU M,LI D,WU Y,et al.TREM- 2 promotes macrophage-mediated eradication of Pseudomonas aeruginosa via a PI 3K/Akt pathway [J].Scandinavian Journal of Immunology,2014,79(3):187-196.
[19] 宋超,管雪婷,袁巧云,等.密生波罗花中神经酰胺类成分的抗炎作用 [J].现代食品科技,2022,38(11):46-54.SONG C,GUAN X T,YUAN Q Y,et al.Anti-inflammatory effects of ceramides from Incarvillea compacta [J].Modern Food Science and Technology,2022,38(11):46-54.
[20] 曹璐,王桃,陈艳,等.槲皮素对 LPS诱导小鼠乳腺上皮细胞炎症的保护机制 [J].农业生物技术学报,2023,31(6):1 218-1 228.CAO L,WANG T,CHEN Y,et al.Protective mechanism of quercetin against LPS-induced inflammation in mouse (Mus musculus ) mammary epithelial cells [J].Journal of Agricultural Biotechnology,2023,31(6):1 218-1 228.
[21] 刘雅谦,李琳,孙万成,等.植物甾醇的抗炎性研究进展 [J].中国油脂,2022,47(5):93-99.LIU Y Q,LI L,SUN W C,et al.Progress on anti-inflammatory properties of phytosterols [J].China Oils and Fats,2022,47(5):93-99.
[22] 冯思敏,宁可,邵平,等.β-谷甾醇和豆甾醇对小鼠急性结肠炎的治疗作用研究 [J].中国粮油学报,2018,33(12):80-86,94.FENG S M,NING K,SHAO P,et al..Research on the β-sitosterol and stigmasterol therapeutic effect of acute colitis in mice [J].Journal of the Chinese Cereals and Oils Association,2018,33(12):80-86,94.
[23] 吴力超,李俊峰,张婷婷,等.基于网络药理学和细胞实验探讨豆甾醇抗炎作用 [J].中成药,2022,44(2):609-615.WU L C,LI J F,ZHANG T T,et al.Discussion on anti-inflammatory effect of stigmasterol based on network pharmacology and cell experiment [J].Chinese Traditional Patent Medicine,2022,44(2):609-615.
[24] ANTWI A O,OBIRI D D,OSAFO N,et al.Stigmasterol alleviates cutaneous allergic responses in rodents [J].BioMed Research International,2018,2 018(1):3984068.
[25] 周巧,刘健,忻凌,等.基于网络药理学和分子对接探究新风胶囊“异病同治 ”类风湿关节炎和骨关节炎作用机制 [J].中医药临床杂志,2023,35(10):1 965-1 973.ZHOU Q,LIU J,XIN L,et al.Exploring the mechanism of action of Xinfeng capsules in rheumatoid arthritis and osteoarthritis by "treating different diseases with the same" based on network pharmacology and molecular docking [J].Clinical Journal of Traditional Chinese Medicine,2023,35 (10):1 965-1 973.
[26] 胡胜兰,肖昊,王丽,等.大豆异黄酮对体外氧化应激仔猪肠上皮细胞的影响及机制研究 [J].动物营养学报,2021,33(12):6 699-6 708.HU S L,XIAO H,WANG L,et al.Effects and mechanism research of soybean isoflavones on intestinal epithelial cells of piglets under oxidative stress in vitro [J].Chinese Journal of Animal Nutrition,2021,33(12):6 699-6 708.
[27] 李锡谦,康平,周玉.阿托品对形觉剥夺性近视模型大鼠的改善作用及作用机制 [J]. 河北医学,2023,29(1):76-81.LI X Q,KANG P,ZHOU Y.Ameliorative effects and mechanism of action of atropine in rats with form deprivation myopia model [J].Hebei Medicine,2023,29(1):76-81.
[28] 陈杰,祁天明,董晓光,等.长托宁联合阿托品对急性有机磷农药中毒患者炎症反应及心肌损伤的影响 [J].实用药物与临床,2019,22(2):151-154.CHEN J,QI T M,DONG X G,et al.Influence of penehyclidine hydrochlorid combined with atropine on myocardialdamage and inflammation in patients with acute organophosphorus intoxication [J].Practical Pharmacy and Clinical Remedies,2019,22(2):151-154.
[29] 刘华,杨春娟,吴高松,等.NF-κB信号介导的慢性炎症与癌症形成的关系 [J].实用药物与临床,2017,20(2):221-223.LIU H,YANG C J,WU G S,et al.Relationship between chronic inflammation and cancer intervened by NF- κB pathway [J].Practical Pharmacy and Clinical Remedies,2017,20(2):221-223.
[30] 陈珊,李波,葛正行,等.基于网络药理学及分子对接与实验验证苗药抑癌汤经 WNT/β-catenin信号通路抑制小细胞肺癌增殖的作用机制 [J].世界科学技术 -中医药现代化,2024,26(7):1 847-1 861.CHEN S,LI B,GE Z X,et al.Based on network pharmacology and molecular docking and experimental verification of the mechanism of Miao-Yi-Ai-Tang inhibiting the proliferation of small cell lung cancer through WNT/β-catenin signaling pathway [J].Modernization of Traditional Chinese Medicine and Materia Medica-World Science and Technology,2024,26(7):1 847-1 861.