Evaluation of antidepressant activity of methanolic and hydroalcoholic extracts of Acorus calamus L.rhizome through tail suspension test and forced swimming test of mice

Objective:Acorus calamus(AC)L.(Araceae)is an annual semi-aquatic and aromatic plant found in Europe,North America and Asia.Its rhizomes are often used by Native Americans,Americans,and Chinese as well as by other cultures.Ethnobotanical studies and documents have shown their use in various disease treatments,such as insomnia,mental disorders,diabetes mellitus,epilepsy,inflammation,asthma,neuropathic pain,and diarrhea.In this study,the antidepressant activity of methanolic and hydroalcoholic extracts of the AC rhizome part in mice was investigated.Methods:Three doses of methanolic extract of AC rhizome(MEACR)(25,50 and 100 mg/kg b.wt),three doses of hydroalcoholic extract of AC rhizome(HAACR)(100,200 and 400 mg/kg b.wt),and standards(imipramine,15 mg/kg b.wt and fluoxetine,20 mg/kg b.wt)was daily oral administration to the mice for consecutive 14 days.The extract effect on the immobility time was monitored by a tail suspension test(TST)and a forced swimming test(FST).Monoamine oxidase(MAO)levels were also analyzed using standard methods.Results:The optimum antidepressant activity was viewed at 100 mg/kg b.wt of MEACR extract and400 mg/kg b.wt of HAACR extract with 23.82%and 20.59%immobility period reduction,respectively.Besides,the extracts weakened the FST-induced elevation of MAO activity significantly and returned to near-normal levels of neurotransmitters in the brain.100 mg/kg b.wt or above of MEACR extract significantly prevented the MAO-A and MAO-B activities in mice brain at a dose-dependent fashion.But,just 400 mg/kg b.wt of HAACR extract prevented the activity of MAO-A and MAO-B.Fluoxetine and imipramine showed a tendency to prevent the activity of MAO-A and MAO-B.Conclusion:This study suggests that AC rhizome extract mediated antidepressant activity by modulating the central neurochemical and hypothalamic-pituitary-adrenal(HPA)axis in response to FST and TSTinduced stress.Therefore,AC rhizome extract can be used as a valuable plant supplement to treat depressive disorders.

长期水淹条件下香根草(Vetiveria zizanioides)、菖蒲(Acorus calamus)和空心莲子草(Alternanthera philoxeroides)的存活及生长响应

人工构建三峡库区消落区植被是控制消落区水土流失、保护消落区生态环境的重要措施,选择能够耐受长时间完全水淹的植物物种是该措施实施的关键。为了验证香根草、菖蒲、空心莲子草能否用于消落区植被的构建,实验模拟消落区的长期完全水淹条件,设置30d、60d、90d、120d、150d和180d等6个完全水淹时间水平,研究了3种植物在完全水淹条件下生长、生物量积累及存活状况。结果发现:(1)3种植物在经受长时间的完全水淹后有较高的存活率,180d全淹处理后,香根草、菖蒲和空心莲子草的存活率分别为87.5%、100%和50%。(2)这3种植物有不同的水下生长能力。全淹条件下,香根草生长缓慢,几乎没有产生新的叶片,总叶长也没有显著变化;菖蒲能够持续产生较对照植株更为细长的叶片,空心莲子草只在水淹初期(30d内)能够快速伸长地上部分的枝条,并迅速产生新叶片,但随水淹时间的延长,总枝条长及总叶片数没有再显著增加。(3)与对照植株相比,全淹处理抑制了3种植物总生物量的增加,但对3种植物的地上、地下部分生物量抑制程度不同。全淹条件下,香根草的地上部分和地下部分生物量与水淹0d水平(水淹处理开始前一天,下同)相比无显著变化,根冠比高于对照植株;菖蒲的地上部分生物量随水淹时间延长而降低,但却高于对照植株,地下部分生物量始终低于水淹0d水平,根冠比低于对照植株;空心莲子草的地上部分生物量与水淹0d水平相比无显著差异,但地下部分生物量与水淹0d水平相比大幅降低,根冠比低于对照植株。结果表明,这3种植物都有很强的水淹耐受能力,可应用于三峡库区消落区植被的构建。同时,发现植物对长期完全水淹的耐受能力很大程度上与植株在水下的生长情况及植株的营养储备水平相关,剧烈的水下生长会消耗大量的营养储备,进而造成植株存活率降低。植株在全淹条件下有限的生长能力及丰富的营养储备可能是耐淹物种的重要特征。

高氮磷胁迫下菖蒲(Acorus calamus Linn.)通气组织和根系释氧的响应

以湿地植物菖蒲为研究对象,在水培条件下观察3个浓度梯度的氮磷污水(处理组1、2、3依次为N:40 mg/L、P:4 mg/L;N:80 mg/L、P:8 mg/L;N:120 mg/L、P:12 mg/L)对其胁迫后的根系释氧和通气组织的变化规律,研究发现高氮磷胁迫明显抑制菖蒲株高和根系长度的生长,减少植物根系数量;高氮磷胁迫还可以增加植物根系释氧量和促进根系通气组织形成,由于根系长度和数量的减少,处理组的根系释氧总量不及对照组;高氮磷胁迫不改变菖蒲根系释氧趋势,根尖最大,离根尖越远释氧越小.研究还发现,根尖释氧量大小和通气组织呈正相关,根基和根中部释氧量与通气组织关系不显著,说明植物通气组织的形式更有利于根尖释氧.

淹水对菖蒲(Acorus calamus)根际氧环境的影响

为研究淹水对湿地植物根际氧环境的影响,选择典型湿地植物菖蒲幼苗(株高约15 cm、根长约6 cm)和成株(株高约40cm、根长约11 cm)在沉积物中培养并完全淹没,利用微型电机控制氧气微光极对菖蒲根中部根际氧浓度及组织内部氧浓度原位测定3周.结果表明:短期(7 d)淹水,菖蒲幼苗及成株根际氧扩散层厚度及氧浓度比对照组均显著下降;在淹水第14天,在幼苗根际未检出氧扩散层;在淹水第21天,成株根际氧扩散层厚度及平均氧浓度仍分别为0.34 mm和11.18%,并保持至淹水试验结束.淹水组菖蒲的根际氧扩散层厚度、平均氧浓度均随根组织内部氧浓度的下降而降低,其中幼苗3个指标分别由初始的0.22 mm、1.4%和50.3%降至0 mm、0%和32.9%,成株分别由0.64 mm、19.3%和64.6%降至0.34 mm、11.2%和55.3%,表明前2个指标的下降程度显著超过后者;淹水组菖蒲幼苗、成株根组织内部氧浓度主要受植株光合作用的影响,而对照组则受光合作用及气体交换作用的共同影响,淹水能在短期(7 d)内促进菖蒲成株根通气组织的发育,使其孔隙率从28.45%升至32.44%,并有助于维持根组织内的氧浓度水平,根组织内部氧浓度淹水组(65.6%)与对照组(67.1%)无显著差异.研究表明,淹水胁迫下,根组织内部氧浓度水平是影响菖蒲根氧扩散的核心因素,其中幼苗根组织内部氧浓度显著下降并威胁到自身存活时,其已无氧扩散效应,而成株根组织内部较高的氧浓度使其仍能保持一定程度的氧扩散.

Isolation and characterization of insecticidal activity of （Z）- asarone from Acorus calamus L.

The insecticidal activity of Acorus calamus L. rhizome-derived material against adults of Sitophilus zeamais Motschulsky was examined by using repellency method and contact toxicity. The biologically active constituent of the A. calamus rhizome was separated and identified. The results showed that the ethanol extract of A. calamus had strong repellency and contact effect to S. zeamais and the active constituent of the A. calamus was characterized as （Z）-asarone by spectroscopic analysis. Responses from the tests varied with exposure times and doses. In the repellency test, ethanol extract of A. calamus had 93.92% repellency at 629.08 μg/cm^2 but only 71.38% at 157.27 μg/cm^2 12 h after treatment. As a contrast, （Z）-asarone showed 84.50% repellency at 314.54μg/cm^2 and 77.02% at 78.63 μg/cm^2 12 h after treatment. In the filter paper diffusion test, ethanol extract of A. calamus caused 95.56% and 17.78% mortality to S. zeamais at 314.54 μg/cm^2 and 78.63 μg/ cm^2 4 days after treatment, while （Z）-asarone brought about 100.00% and 15.56% mortality at 40.89 μg/cm^2 and 15.73 μg/cm^2 respectively. These results indicate that the insecticidal activity of the A. calamus extract may be due to （Z）-asarone.

Protective effect of rhizome extracts of the herb, vacha (Acorus calamus) against oxidative damage: An in vivo and in vitro study

The rhizome of Acorus calamus,an herb widely used in Indian system of medicine for many ailments including epilepsy,mental illness and rheumatism,was subjected to soxhlet extraction to elucidate antioxidant property of different solvent extracts using in vitro assays.The benzene extract was most potent in scavenging hydroxyl and superoxide radicals and in reducing 1,1-diphenyl-2-picryl hydrazyl and ferric reducing antioxidant power.In addition the benzene extract prevented oxidative damage to DNA and mitochondria.It was also effective in preventing stress-induced decrease in total plasma anti-oxidant activity as determined in vivo using rat model wherein stress was induced by exposing to restraint and forced swimming.The minimum effective dose of the benzene extract was 5 mg/kg body weight(oral),and at this dose,its effect was similar to the same dose of a standard anti-oxidant,ascorbic acid.The study for the first time,clearly demonstrates a potent anti-oxidant activity of A.calamus combining in vitro and in vivo results.Hence,the therapeutic value of this herb maybe due to its anti-oxidant property.©2016 Beijing Academy of Food Sciences.Production and hosting by Elsevier B.V.All rights reserved.

Population genetic structure and diversity of high value vulnerable medicinal plant Acorus calamus in India using RAPD and chloroplast microsatellite markers

Acorus calamus is a highly valued medicinal plant with global distribution used in several drugs of health care systems. We evaluated the genetic diversity and population structure of 50 populations of A. calamus from different geographical regions in India through RAPD and chloroplast microsatellite markers. From the total screened 82 RAPD primers and 18 cpSSR primers, 10 RAPD and nine cpSSRs were found polymorphic. The selected 10 RAPD primers produced a total of 96 reproducible bands, out of which 65 were polymorphic （67.70%）. Whereas, the selected nine cpSSR markers produced 26 alleles and all of them were polymorphic. The mean genetic diversity （H T ） among populations using RAPD （H T = 0.263） and cpSSR （H T = 0.530） markers was higher in comparison to the mean genetic diversity within populations. Mean coefficient of gene differentiation （G ST ） between the populations was also high for both RAPD （G ST = 0.830） and cpSSR markers （G ST = 0.735）, whereas the estimated gene flow was very low for RAPD （Nm = 0.102） and for cpSSR （Nm = 0.179）. AMOVA analysis revealed that more genetic variation resided among the populations than within populations. Significant differences （p 0.001） were observed between the populations and individuals within the populations. Cluster analysis of RAPD and cpSSR data using UPGMA algorithm based on Nei’s genetic similarity matrix placed the 50 populations into two main clusters. The implication of the results of this study in devising strategy for conservation of A. calamus is discussed.

In Vitro Antioxidant and Free Radical Scavenging Activity of Curcuma longa, Acorus calamus and Camellia sinensis

The purpose of the current study was to determine the total phenolic and flavonoid content and total antioxidant activity of the Curcuma longa, Acorus calamus, and Camellia sinensis ethanolic extracts and their free radical scavenging activity. The study concluded that the Curcuma longa, Acorus calamus, and Camellia sinensis ethanolic extracts have a good source of phenolics, flavonoids, and antioxidant sources in turn which opens the high possibility of the extracts being used as food preservatives. The DPPH assay for scavenging free radicals showed that the IC50 value was above 123% of Curcuma longa ethanolic extract, 129.9% μg/ml of Acorus calamus ethanolic extract and 25% of Camellia sinensis ethanolic extracts shows very strong inhibition of the free radicals. Thus, comparing the DPPH assay for scavenging free radicals of Curcuma longa, Acorus calamus and Camellia sinensis ethanolic extracts with the positive control ascorbic acid, Curcuma longa and Camellia sinensis ethanolic extracts showed strong inhibition of the free radicals.

石菖蒲药材及饮片掺混藏菖蒲PCR-RFLP鉴别方法研究

目的通过聚合酶链反应-限制性片段长度多态性(PCR-RFLP)方法建立快速鉴别石菖蒲药材及饮片掺混藏菖蒲的方法。方法对石菖蒲和藏菖蒲的核糖体DNA内转录间隔区(ITS)序列酶切位点进行比对分析,选择藏菖蒲的特异性酶切位点AluI,设计PCR-RFLP反应引物,对影响PCR-RFLP反应的退火温度、引物浓度、循环数、酶切时间等条件进行优化,对该方法的准确性进行考察。利用建立的PCR-RFLP鉴别方法对不同产地的石菖蒲、藏菖蒲及掺混样品进行适用性考察。结果建立了石菖蒲药材及饮片掺混藏菖蒲的PCR-RFLP鉴别方法,在退火温度60℃、循环数为30时,藏菖蒲或掺有藏菖蒲的石菖蒲样品经过特异性引物扩增后,能被AluI酶酶切,在100~300 bp检出2条单一DNA条带,石菖蒲样品则无此条带。该方法能对石菖蒲药材及饮片中掺混的藏菖蒲进行准确鉴别,并对石菖蒲中掺入藏菖蒲的检出限为3%。结论建立的PCR-RFLP鉴别方法稳定性好、灵敏度高,可用于石菖蒲与藏菖蒲鉴别及石菖蒲中掺混藏菖蒲的检测,为石菖蒲与藏菖蒲药材的质量控制提供参考。

环境浓度微囊藻毒素-LR对菖蒲无机氮吸收特性的影响

富营养化水体中存在的微囊藻毒素(microcystins,MCs)会对水生植物的营养吸收产生潜在威胁。为探讨MCs对水生植物无机氮吸收的影响,分析不同浓度微囊藻毒素-LR(MC-LR)暴露15 d后挺水植物菖蒲对无机氮的吸收特性及其动力学特征。结果表明,0.001 mg·L^(-1) MC-LR暴露条件下,菖蒲根系活力、根系生物量及细胞质膜(PM)H+-ATP酶活性均显著增加,MC-LR暴露对菖蒲的NO-3-N和NH+4-N吸收均有促进作用;0.01 mg·L^(-1) MC-LR暴露条件下,菖蒲根系活力、根系生物量及PM H+-ATP酶活性均有一定程度上升,菖蒲对NO-3-N的亲和力和吸收潜能下降,但对NH+4-N的吸收速率上升;0.03 mg·L^(-1) MC-LR暴露条件下,菖蒲根系活力、根系生物量及PM H+-ATP酶活性均显著下降,MC-LR暴露通过降低菖蒲对NO-3-N和NH+4-N的亲和力和吸收潜能来抑制其对无机氮的吸收。与NH+4-N相比,0.03 mg·L^(-1) MC-LR对NO-3-N吸收的抑制作用更强。MC-LR(0.001~0.01 mg·L^(-1))暴露对菖蒲NH+4-N吸收有不同程度的促进作用,而0.03 mg·L^(-1) MC-LR暴露对菖蒲的NH+4-N和NO-3-N吸收均产生明显抑制,对菖蒲生长及其氮的去除能力产生不利影响。

复方驱蚊精油化学成分分析及其驱避活性评价

[目的]分析由薄荷、浮萍、石菖蒲、迷迭香4种中药植物配伍而成的复方驱蚊精油的化学成分,并进行驱避活性评价。[方法]通过气质联用色谱技术(gas chromatography-mass spectrometer,GC-MS)分析复方驱蚊精油的化学成分,按照《空间驱避产品药效试验及评价(Y型管法)》,评价精油对白纹伊蚊成虫的驱避活性。[结果]鉴定出主要挥发性成分58种,占精油总成分的98.28%,萜类18种(44.99%)、烯烃类9种(20.27%)、酯类5种(14.07%)、芳香烃类8种(12.00%)、烷烃类7种(3.48%)、醇类9种(2.78%)、酮类2种(0.69%)。复方驱蚊精油对白纹伊蚊的驱避率(percent repellency,PR)平均达90%。[结论]复方驱蚊精油的化学成分较多,对白纹伊蚊起到驱避作用的可能有薄荷醇、薄荷酮、α-蒎烯等多种化学成分,平均驱避效果达到A级水平。

人参、石菖蒲及其药对防治阿尔茨海默症的药理作用研究进展

阿尔茨海默病(Alzheimer′s disease,AD)病因复杂,发病机制尚未完全阐明,现有药物仅能缓解其症状,亟待研发有效的治疗药物。作为补虚药及开窍药的代表药物,人参及石菖蒲均有提高记忆力、改善学习能力及减轻认知障碍的药理作用,是中医治疗痴呆症的常用药物。人参-石菖蒲药对联用可促进活性成分入脑发挥药效,并通过抗炎、抗氧化应激、调节神经元-突触可塑性等多途径延缓AD进程,具有多层次、多系统和多靶点的作用特点。该文尝试总结现有研究成果,为进一步探讨人参、石菖蒲的联用,实现协同增效的作用机制以及配伍的量效关系奠定基础,为研制防治AD的中药创新药物提供科学依据。

铜富集菖蒲生物炭对烟气汞去除性能及机制

以铜(Cu)污染修复植物石菖蒲生物质为原料,采用一步热解法制备了含铜位点的石菖蒲衍生生物碳(Cu-BC),用于去除烟气中的元素汞(Hg0).结果表明,500℃下热解的Cu-BC(Cu-BC500)在100℃反应温度下表现出良好的Hg0去除性能(约99%).通过比表面积测试法(BET)、X射线衍射(XRD)、扫描电镜(SEM)、X射线光谱(XPS)和傅里叶变换红外光谱(FT-IR)等表征分析表明,Cu-BC500具有相对较高的比表面积,丰富的含氧官能团和高度分散的Cu物种.XPS和汞程序升温脱附(Hg-TPD)分析表明,Cu-BC500所吸附的汞在生物炭样品的表面活性位点形成弱结合态汞Cu-O-Hg或铜汞合金.最后通过生命周期成本分析推算Cu-BC500的成本为3.50元/kg.与其他材料相比,Cu-BC500制备简单、成本较低,研究结果将为促进水体修复植物的资源化再利用以及燃煤电厂的汞减排提供新思路.

石菖蒲化学成分及抗抑郁机制研究进展

石菖蒲为临床常用芳香开窍药,因其具有丰富的化学成分和强大的药理作用而被广泛应用。石菖蒲化学成分复杂,主要包括挥发油、黄酮、生物碱、醌及有机酸等多种成分。本文对石菖蒲的有效成分及抗抑郁作用机制进行综述与归纳,以期为研究石菖蒲的化学成分及药用价值提供科学理论依据。

挺水植物菖蒲根区沉积物细菌群落结构和功能特征分析

挺水植物根区是湖泊等淡水生态系统物质循环最为活跃的微生态区域之一.为了进一步明确挺水植物在不同生长阶段对根区沉积物微生物的影响,本论文以挺水植物菖蒲(Acorus calamus)为研究对象,构建室外盆栽实验系统,采集实验第35、105和175天时菖蒲根区及无植物对照系统沉积物样品,研究菖蒲生长发育对根区沉积物细菌群落及功能的影响.结果表明,菖蒲根区沉积物共检测OTUs数量11659个,无植物的沉积物样品获得OTUs数量为10337个.基于OTUs结果的分析发现,菖蒲根区沉积物Shannon、Sobs、ACE和Chao指数平均值表现为CA>CK;相比于对照组而言,菖蒲根区独有的OTUs数量略高,意味着菖蒲生长可能会丰富根区沉积物细菌的物种组成,尤其是对于细菌群落中相对丰度占比较小的物种产生显著影响;通过FAPROTAX对菖蒲根区及对照系统沉积物细菌代谢及生态功能进行注释,共得到67种细菌群落功能类型,以化能异养、需氧化能异养、发酵、固氮作用、光合自养、亚硝酸盐还原功能等类群为主,菖蒲的生长将提高氮循环功能类群的相对丰度从而对沉积物氮循环过程产生一定的影响,且这种影响将随菖蒲的不同生长阶段而有所变化.沉积物理化参数是驱动菖蒲根区细菌群落的关键因子.

植物配置对水体扑草净去除效果研究

采用温室水培模拟试验,研究不同浓度扑草净污染下,香根草、菖蒲及其2∶1配置于水体中第0、6、12、24、30天扑草净含量。结果表明:不同浓度扑草净污染水体中,培育植物条件下第30天扑草净去除率为58.60%~91.69%,CK扑草净去除率为45.86%~57.48%,培育植物组显著高于CK。当扑草净初始浓度<4 mg/L时,香根草对水体扑草净污染的去除效率最高,第30天达到88.4%;扑草净初始浓度≥4 mg/L时,香根草、菖蒲生物量2∶1组合对水体扑草净污染的去除效率最高,第30天达到91.69%。研究结果可为不同浓度扑草净污染水体植物修复提供参考。

藏菖蒲提取工艺优化及抑菌和抗氧化活性研究

目的优化藏菖蒲的提取工艺,并进行模型诊断和工艺验证,并对其醇提物和水提物进行抗菌和抗氧化活性测定。方法运用Design-Expert 12软件设计响应面法优化提取工艺,并进行模型诊断和工艺验证;利用平板扩散法和二倍稀释法测定抑菌效果;利用DPPH法、超氧阴离子法和总还原力的测定表达其抗氧化能力。结果藏菖蒲醇提物的最优提取工艺为乙醇浓度55.53%、料液比1∶40.04(g/mL)、提取时间58.39 min(实验调整为60 min)。藏菖蒲醇提物对大肠埃希菌、铜绿假单胞菌、金黄色葡萄球菌、石膏样小孢子菌、红色毛癣菌都有较好的抑菌效果,藏菖蒲水提物仅对金黄色葡萄球菌有较好的抑菌作用。藏菖蒲醇提物和水提物对DPPH·、超氧阴离子、总还原能力的半数清除浓度(IC50)值分别为0.25、2.72、0.30 mg·mL^(-1)和0.32、2.77、0.33 mg·mL^(-1),具有较好的抗氧化活性。结论该优化工艺有效可行,藏菖蒲醇提物具有抗菌作用和较强的抗氧化活性。本研究为藏菖蒲资源的开发利用提供了一定的理论依据。

西洋参-石菖蒲对糖尿病大鼠海马线粒体形态结构及GLUT-4蛋白表达的影响

目的探究西洋参-石菖蒲对糖尿病大鼠海马线粒体形态结构及GLUT-4蛋白表达的影响。方法以链脲佐菌素构建糖尿病大鼠模型,分为糖尿病组(DM Group)、二甲双胍组(Metformin Group)、西洋参-石菖蒲组(X-S Group);STZ注射9 d后给予西洋参-石菖蒲药液每日1次,连续75 d;血糖仪检测FBG;Morris水迷宫评价各组大鼠的学习记忆能力,筛选糖尿病认知障碍大鼠和非认知障碍大鼠;透射电镜观察海马线粒体形态结构;免疫组化法观察海马GLUT-4蛋白表达。结果与糖尿病组比较,西洋参-石菖蒲组大鼠空腹血糖及学习记忆能力均无显著变化(P>0.05),认知障碍发生率降低;与DACD组比较,西洋参-石菖蒲组大鼠海马神经元及神经毡线粒体肿胀或固缩现象减轻,但海马神经元胞膜GLUT-4蛋白表达无显著变化。结论西洋参-石菖蒲可能通过海马线粒体的保护作用,降低糖尿病大鼠认知障碍发生率,而与促进海马GLUT-4蛋白膜转位无关。

Tatarinan O通过SMAD信号通路抑制TGF-β1诱导的非小细胞肺癌A549细胞上皮间质转化的研究

目的:探讨石菖蒲中木脂素单体化合物Tatarinan O(TO)对转化生长因子β1(TGF-β1)诱导的非小细胞肺癌A459细胞上皮间质转化(EMT)及其迁移的影响。方法:通过TGF-β1诱导A549细胞EMT的发生。采用蛋白质印迹法、免疫荧光法检测E-钙黏蛋白(E-cadherin)、波形蛋白(Vimentin)、SMAD2蛋白和磷酸化SMAD2(p-SMAD2)蛋白的表达,以及SMAD2的核转位行为;采用划痕实验检测细胞迁移能力。结果:TO能够在A549细胞上抑制TGF-β1诱导的SMAD2的磷酸化,且呈剂量依赖性(P<0.05),并阻止其核转位。在25、50μmol/L的TO作用下,Vimentin表达明显降低,E-cadherin表达明显升高,与0μmol/L的TO相比,差异有统计学意义(P<0.05),并进一步抑制A549细胞迁移行为。结论:TO可通过SMAD2信号通路抑制TGF-β1诱导的非小细胞肺癌A549细胞的EMT,降低其迁移能力。

黄柏、石菖蒲合剂抗炎作用的网络药理学分析

【目的】分析确定黄柏、石菖蒲合剂抗炎作用的药效物质基础,并确定可能的作用靶点。【方法】通过小鼠耳廓肿胀试验检测黄柏、石菖蒲合剂的抗炎作用,通过网络药理学方法分析其与炎症相关蛋白的互作网络图,采用Cytoscape 3.6.1软件绘制药物-活性成分-疾病-共同靶点网络图,并进行GO功能和KEGG通路富集分析,应用AutoDock软件将主要活性成分与核心靶点进行分子对接。【结果】黄柏、石菖蒲合剂对二甲苯所致小鼠耳廓肿胀的抑制率为56.96%,与模型组差异显著(P<0.05)。通过网络药理学分析共获得30个黄柏、石菖蒲合剂性化合物,包括槲皮素、小檗碱、山柰酚等;获得25个黄柏、石菖蒲合剂与炎症交集靶点,包括白细胞介素-6(IL6)、IL1β、丝氨酸/苏氨酸蛋白激酶(AKT1)等;GO功能富集结果显示,生物过程、细胞组分和分子功能分别获得334、13和27个条目,其中生物过程涉及正调控一氧化氮生物合成过程、正调控凋亡过程、正调控平滑肌细胞增殖、炎症反应等;细胞组分涉及细胞外间隙、胞外区、分泌颗粒等;分子功能涉及细胞因子活性、酶结合、RNA聚合酶Ⅱ转录因子活性、配体激活序列特异性DNA结合等方面。KEGG结果分析得到82条通路,发现黄柏、石菖蒲合剂抗炎与TNF信号通路、IL17信号通路、脂质和动脉粥样硬化等可能有一定关系。【结论】黄柏、石菖蒲合剂具有较好的抗炎效果,其抗炎机制可能涉及多种活性成分对不同信号通路基因和蛋白表达的调节,说明黄柏、石菖蒲合剂是通过多成分、多通路、多靶点发挥抗炎作用。