基于~1H-NMR代谢组学技术牛黄解毒片中人工牛黄、石膏、冰片对雄黄配伍减毒作用的研究

英文论文题名：~1H NMR-based metabonomics study on toxicity alleviation effect of Bovis Calculus Artificialis,Gypsum Fibrosum and Borneolum Synthcticum to realgar(As_2S_2) in Niuhuang Jiedu Tablet
论文作者：徐文峰 ; 裴月湖
英文论文作者：XU Wen-feng ; PEI Yue-hu ; Beijing Hospital ; National Center of Gerontology ; Key Laboratory of Structure-Based Drug Design and Discovery of Ministry of Education ; Shenyang Pharmaceutical University
年：2016
作者机构：北京医院国家老年医学中心;沈阳药科大学基于靶点的药物设计与研究教育部重点实验室;
论文关键词：代谢组学 ; 牛黄解毒片 ; 雄黄 ; 减毒作用
英文论文关键词：metabonomics ; Niuhuang Jiedu Tablet ; realgar ; toxicity alleviation
会议召开时间：2016-09-27
会议录名称：中国药学会第十三届青年药学科研成果交流会论文集
语种：中文
分类号：R285.5
学会代码：YYWS
会议名称：中国药学会第十三届青年药学科研成果交流会
会议地点：中国江西南昌
主办单位：中国药学会
学会名称：中国药学会
页数：7
文件大小：669k
原文格式：O
会议级别：全国

摘要

目的:利用~1H-NMR为基础的代谢组学研究牛黄解毒片中人工牛黄、石膏、冰片三味中药对雄黄的配伍减毒作用。方法:42只大鼠随机分成6组:空白组、B组(雄黄组)、C组(牛黄解毒片组)、D组(牛黄解毒片去人工牛黄组)、E组(牛黄解毒片去石膏组)、F组(牛黄解毒片去冰片组)。对各组大鼠尿液及血清样品~1H-NMR谱图进行模式识别分析。结果:雄黄组大鼠样品代谢轮廓和空白组差异明显,其他各组大鼠代谢轮廓同空白组相似,向空白组回归。结论:牛黄解毒片中人工牛黄、石膏、冰片三味中药对雄黄配伍减毒作用不明显。
Objective To study the toxicity alleviation effect of Bovis Calculus Artificialis,Gypsum Fibrosum and Borneolum Synthcticum to realgar in Niuhuang Jiedu Tablet based on ~1H NMR metabonomics.Methods Forty-two male Wistar rats were divided into seven groups:control group,group B(treated with realgar),group C(treated with Niuhuang Jiedu Tablet),group D(treated with Niuhuang Jiedu Tablet without Bovis Calculus Artificialis),group E(treated with Niuhuang Jiedu Tablet without Gypsum Fibrosum) and group F(treated with Niuhuang Jiedu Tablet without Borneolum Synthcticum).Based on 'H NMR spectra of urine and serum from rats,PLS-DA was performed to identify different metabolic profiles.Results The metabolic profiles of group B were different with control group,while the metabolic profiles of all the other groups were almost in line with those of control group.Conclusion The toxicity alleviation effect of Bovis Calculus Artificialis,Gypsum Fibrosum and Borneolum Synthcticum to realgar in Niuhuang Jiedu Tablet was not obvious.

引文

[1]Nicholson J K,Lindon J C,Holmes E.'Metabonomics':understanding the metabolic responses of living systems to pathophysiological stimuli via multivariate statistical analysis of biological NMR spectroscopic data[J].Xenobiotica,1999,29:1181-1189.
    [2]李春雨,王张,王平,等.基于代谢组学技术的中药效应物质基础及作用机制研究[J].中草药,2013,44(7):918-922.
    [3]王广基,查伟斌,郝海平,等.代谢组学技术在中医药关键科学问题研究中的应用前景分析[J].中国天然药物,2008,6(2):89-97.
    [4]Xu W F,Wang H F,Chen G,et al.A metabolic profiling analysis of the acute toxicological effects of the realgar(As_2S_2)combined with other herbs in Niuhuang Jiedu Tablet using~1HNMR spectroscopy[J].J Ethnopharmacol,2014,153:771-781.
    [5]Wei L,Liao P,Wu H,et al.Metabolic profiling studies on the toxicological effects of realgar in rats by'H NMR spectroscopy[J].Toxicol Appl Pharm,2009,234:314-325.
    [6]Jaeschke H,Gores G J,Cederbaum Al,et al.Mechanisms of hepatotoxicity[J].Toxicol Sci,2002,65:166-176.
    [7]Marty C,Posthuma C,Lolkema J S,et al.Proton motive force generation by citrolactic fermentation in Leuconostoc mesenteroides[J].J Bacterid,1996,178:2178-2185.
    [8]Liao P,Wei L,Zhang X,et al.Metabolic profiling of serum from gadolinium chloride treated rats by'H NMR spectroscopy[J].Anal Biochem,2007,364:112-121.
    [9]McGarry J D,Foster,D W.Regulation of hepatic fatty acid oxidation and ketone body production[J].Annu Rev Biochem,1980,49:395-420.
    [I0]Knowles S E,Jarrett I G,Filsell O H,et al.Production and utilization of acetate in mammals[J].Biochem J,1974,142:401-411.
    [11]Holmes E,Nicholson J K,Nicholls,A W,et al.The identification of novel biomarkers of renal toxicity using automatic data reduction techniques and PCA of proton NMR spectra of urine[J].Chemometr Intell Lab Syst,1998,44:245-255.
    [12]Patelli C,Kong S E,McCauley R,et al.Branched-chain amino acids[J].J Gastroen Hepatol,2000,15:706-717.
    [13]Feng J H,Li X J,Pei F K,et al.H-l NMR analysis for metabolites in serum and urine from rats administrated chronically with La(NO_3)_3[J].Anal Biochem,2002,301:1-7.
    [14]Zeisel S H,Wishnok J S,Blusztajn J K.Formation of methylamines from ingested choline and lecithin[J].J Pharmacol Exp Ther,1983,225:320-324.
    [15]Dellow W J,Chambers S T,Lever M,et al.Elevated glycine betaine excretion in diabetes mellitus patients is associated with proximal tubular dysfunction and hyperglycemia[J].Diabetes Res Clin Pr,1999,43:91-99.
    [16]Phipps AN,Stewart J,Wright B,et al.Effect of diet on the urinary excretion of hippuric acid and other dietary-derived aromatics in rat.A complex interaction between diet,gut microflora and substrate specificity[J].Xenobiotica,1998,28:527-537.
    [17]梁爱华,李春英,王金华,等.雄黄的毒性研究[J].中国中药杂志,2011,36(14):1889-1894.
    [18]高双荣,梁爱华,戴宝强,等.雄黄肝脏毒性的病理学特征[J].中国实验方剂学,2013,19(19):295-299.
    [19]高双荣,梁爱华,戴宝强,等.雄黄肾脏毒性的病理学特征[J].中国实验方剂学,2013,19(18):297-301.
    [20]Wei L,Liao P Q,Wu H F,et al.Toxicological effects of cinnabar in rats by NMR-based metabolic profiling of urine and serum[J].Toxicol Appl Pharm,2008,227:417-429.