基于差异蛋白组学对生态病因“内外合邪”中“寒邪”致病的发病机制研究
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摘要
目的:探讨外寒环境因素对正常及肺气虚大鼠一般情况、肺组织结构学、肺组织细胞蛋白差异表达的影响;探究寒邪致病的机理所在。
方法:1.选取40只SD大鼠随机分为正常组、寒邪组、肺气虚组、肺气虚加寒邪组,每组10只。肺气虚组模型复制采用气管注射脂多糖与烟熏的复合方法。造模28天后,肺气虚加寒邪组与寒邪组给予寒环境一周,于造模前、后观察记录各组大鼠精神活动、毛色、进食量、饮水量、体重、皮肤、关节及大便情况,连续观察7天。2.寒环境造模完成后各组大鼠于麻醉前12小时禁食、禁水,称量体重。麻醉后开胸取出左肺组织2±0.1g/只,放入10%甲醛溶液中固定,梯度脱水,石蜡切片,常规HE染色,光镜观察结果。3.寒环境造模完成后各组大鼠于麻醉前12小时禁食、禁水,称量体重。麻醉后开胸取出左肺组织10mg/只,每组取3只,进行双向电泳实验、双向凝胶电泳图象分析,肽质量指纹图谱与电喷雾串联质谱鉴定蛋白质。
结果:1.与正常组比较,肺气虚组大鼠进食量、饮水量均明显减少,体重增长明显减慢(P<0.05或P<0.01)。与寒邪组、肺气虚组比较,肺气虚加寒邪组大鼠进食量、饮水量明显减少,且体重都较给予外环境前减轻(P<0.05)。肺气虚组大鼠在精神状态、活动、毛色、皮肤、关节及大便等方面均有一定影响,而肺气虚加寒邪组表现尤为明显。
2.肺气虚组、寒邪组大鼠病理组织切片则显示肺部出现明显的损伤,肺泡内可见明显的水液潴留,毛细血管充血,炎症细胞浸润。而寒邪加肺气虚大鼠则见间质少量炎细胞侵润,肺泡腔内泡沫细胞聚集,并有肺脓肿形成。
3.正常组、寒邪组、肺气虚组与肺气虚加寒邪组每组选三个样本进行差异蛋白组学比较,共计六组,对六对差异蛋白图谱进行蛋白质组学分析,鉴定出65个蛋白,它们在大鼠肺组织蛋白中20个表达上调、45个表达下调。在四组2-DE凝胶上从表达差异蛋白质点中选取点清晰且表达水平改变明显的蛋白质点作为最终质谱鉴定的对象,利用PMF的方法鉴定了7个与肺气虚证可能相关的差异表达的蛋白质、10个与寒邪犯肺可能相关的差异表达的蛋白质。其中转胶蛋白、真核翻译起始因子与肺气虚证有相关性,而热休克蛋白70、血清蛋白前体、纤维蛋白原、苹果酸脱氢酶、柠檬酸合酶则和“内外合邪”大鼠(寒邪作用于肺气虚机体)可能有相关性。
结论:1.寒邪对正常组及肺气虚组大鼠的一般情况均有影响,对肺气虚模型大鼠影响更为明显。2.对正常组及肺气虚大鼠肺组织有不同的损害,且寒邪在一定程度上能明显加重肺气虚大鼠肺组织损害的程度。3.初步证实内外因素作用下差异蛋白质交集的存在;并且此种差异蛋白质的功能主要涉及机体激素调节、免疫应答、信号传导、细胞骨架、物质代谢等方面。该结果为研究寒邪伤肺的蛋白质学致病机制提供了科学研究基础资料,亦为今后进一步研究疾病的发生发展奠定了的蛋白组学理论基础,将来也有可能为临床上疾病特别是外感疾病的诊断提供分子生物学方面的诊断标准,具有理论创新和临床指导意义。
Objective:To observe effects of cold enviroment on the normal andthe general condition of the rats lung qi deficiency, lung tissuepathology, differnce of cell protein in lung tissue expression. Tostudy the research on the mechanism of cold diseases.
Methods:1.A total of40SD rats were randomly divided into controlgroup, cold pathogen group, lung qi deficiency group,lung qideficiency and cold pathogen group, with10rats in each roup. Lungqi deficiency group model replication using composite method byintratracheal injection of lipopolysaccaride and smoked. Deficienyof lung qi and pathogenic cold and cold evil group were given a coldenviroment for a week after28days modeling, and recoded each ratbefore and after modeling about mental activities, hair color, foodintake, water intake, body weight, skin, joints and stool, whichcontinuous observation for7days.2. All rats in each group beforeanesthesia12hours of fasting, water deprivation,weight after coldmolding completion. Thoracotomy to remove left lung tissue afteranesthesia was2±0.1g from each rat, fixed in10%formic acidsolution gradient dehydration, paraffin section, HE staining andthen use light microscope to observe resuls.3. All rats in eachgroup before anesthesia12hours of fasting, waterdeprivation,weight after cold molding completion. Thoracotomy to remove left lung tissue after anesthesia was10g from each rat,3rats from each group, using two-dimensional electrophorsisanalysis,two-dimensional gel electrophoresis image, peptide massfingerprinting and electrospray tandem by mass spectrometry toprotein identification.
Result1.Compared with control group, lung qi deficiency group weresignificantly reduced food intake, water intake, and weight gainsignificantly decreased(P<0.05or P<0.01). Compared with the coldpathogen group and lung qi deficiency group, lung qi deficiency andcold pathogen group in rats were significantly reduced food intake,water intake, and weight was reduced compaired which with externalenvironment (P<0.05). Lung qi deficiency rats were impacted inmental state, activity, fur, skin, jiont and stools, while lung qideficiency and cold pathogen group showed obviously.
2.The biopsy of lung qi deficiency group and cold pathogen groupconfirmed pulmonary appear obvopus unjury,with clear waterretention, capillary congestion, inflammatory cell infiltration inalveoli.But cold evil and lung qi deficiency group withinterstitial inflammatory cell infiltration,alveolar accumulationof foam cells and lung abscess.
3.Selected3samples from control group, cold pathogen group,lung qi deficiency group and lung qi deficiency with cold pathogengroup, a total of6sets of6differntial protin profiles forproteomics analysis, identified65protein in rat lung tissue,protein20expression, regulation45expression. On four groups of2-DE gel from the protein expression differences point selectionpoints clear and protein expression level change obvious point asthe final mass spectrometry identification object, by using the method of PMF identified seven with pulmonary qi deficiencysyndrome may be related to the differentially expressed proteins,10with cold evil lung may be related to the differentiallyexpressed proteins. Which turn gel protein and eukaryotictranslation initiation factor has correlation with lung qideficiency syndrome, and heat shock protein70, serum precursorprotein, fibrinogen, malic dehydrogenase, and citrate synthase,and "internal and external evil" rats (cold evil effects on lungdeficiency of the body) may have relevance.Conclusion:1.The effects of cold pathogen were obvious in normalgroup and lung qi deficiency group at general conditions, which wasmore obvious in lung qi deficiency group.
2.There were different damage to the lung tissue of normal groupand lung qi deficiency group, and cold evil in a certain extent canaggravate lung tissue damage degree in lung qi deficiency group.
3.The research preliminary confirmed that internal andexternal factors of differential protein intersection exists,
and the function of difference of protein mainly involved inhormone regulation, immune response, signal transduction,cytoskeleton, metabolism etc.
The results provide basic data for the study of scientificresearch of pathogenic cold injury lung proteomics pathogenicmechanism, protein for further study of the occurrence anddevelopment of disease laid the theoretical foundation, which mayalso provide molecular biology diagnosis of infection disease forclinical disease especially diagnostic criteria, which weretheoretical innovation and the clinical significance.
方法:1.选取40只SD大鼠随机分为正常组、寒邪组、肺气虚组、肺气虚加寒邪组,每组10只。肺气虚组模型复制采用气管注射脂多糖与烟熏的复合方法。造模28天后,肺气虚加寒邪组与寒邪组给予寒环境一周,于造模前、后观察记录各组大鼠精神活动、毛色、进食量、饮水量、体重、皮肤、关节及大便情况,连续观察7天。2.寒环境造模完成后各组大鼠于麻醉前12小时禁食、禁水,称量体重。麻醉后开胸取出左肺组织2±0.1g/只,放入10%甲醛溶液中固定,梯度脱水,石蜡切片,常规HE染色,光镜观察结果。3.寒环境造模完成后各组大鼠于麻醉前12小时禁食、禁水,称量体重。麻醉后开胸取出左肺组织10mg/只,每组取3只,进行双向电泳实验、双向凝胶电泳图象分析,肽质量指纹图谱与电喷雾串联质谱鉴定蛋白质。
结果:1.与正常组比较,肺气虚组大鼠进食量、饮水量均明显减少,体重增长明显减慢(P<0.05或P<0.01)。与寒邪组、肺气虚组比较,肺气虚加寒邪组大鼠进食量、饮水量明显减少,且体重都较给予外环境前减轻(P<0.05)。肺气虚组大鼠在精神状态、活动、毛色、皮肤、关节及大便等方面均有一定影响,而肺气虚加寒邪组表现尤为明显。
2.肺气虚组、寒邪组大鼠病理组织切片则显示肺部出现明显的损伤,肺泡内可见明显的水液潴留,毛细血管充血,炎症细胞浸润。而寒邪加肺气虚大鼠则见间质少量炎细胞侵润,肺泡腔内泡沫细胞聚集,并有肺脓肿形成。
3.正常组、寒邪组、肺气虚组与肺气虚加寒邪组每组选三个样本进行差异蛋白组学比较,共计六组,对六对差异蛋白图谱进行蛋白质组学分析,鉴定出65个蛋白,它们在大鼠肺组织蛋白中20个表达上调、45个表达下调。在四组2-DE凝胶上从表达差异蛋白质点中选取点清晰且表达水平改变明显的蛋白质点作为最终质谱鉴定的对象,利用PMF的方法鉴定了7个与肺气虚证可能相关的差异表达的蛋白质、10个与寒邪犯肺可能相关的差异表达的蛋白质。其中转胶蛋白、真核翻译起始因子与肺气虚证有相关性,而热休克蛋白70、血清蛋白前体、纤维蛋白原、苹果酸脱氢酶、柠檬酸合酶则和“内外合邪”大鼠(寒邪作用于肺气虚机体)可能有相关性。
结论:1.寒邪对正常组及肺气虚组大鼠的一般情况均有影响,对肺气虚模型大鼠影响更为明显。2.对正常组及肺气虚大鼠肺组织有不同的损害,且寒邪在一定程度上能明显加重肺气虚大鼠肺组织损害的程度。3.初步证实内外因素作用下差异蛋白质交集的存在;并且此种差异蛋白质的功能主要涉及机体激素调节、免疫应答、信号传导、细胞骨架、物质代谢等方面。该结果为研究寒邪伤肺的蛋白质学致病机制提供了科学研究基础资料,亦为今后进一步研究疾病的发生发展奠定了的蛋白组学理论基础,将来也有可能为临床上疾病特别是外感疾病的诊断提供分子生物学方面的诊断标准,具有理论创新和临床指导意义。
Objective:To observe effects of cold enviroment on the normal andthe general condition of the rats lung qi deficiency, lung tissuepathology, differnce of cell protein in lung tissue expression. Tostudy the research on the mechanism of cold diseases.
Methods:1.A total of40SD rats were randomly divided into controlgroup, cold pathogen group, lung qi deficiency group,lung qideficiency and cold pathogen group, with10rats in each roup. Lungqi deficiency group model replication using composite method byintratracheal injection of lipopolysaccaride and smoked. Deficienyof lung qi and pathogenic cold and cold evil group were given a coldenviroment for a week after28days modeling, and recoded each ratbefore and after modeling about mental activities, hair color, foodintake, water intake, body weight, skin, joints and stool, whichcontinuous observation for7days.2. All rats in each group beforeanesthesia12hours of fasting, water deprivation,weight after coldmolding completion. Thoracotomy to remove left lung tissue afteranesthesia was2±0.1g from each rat, fixed in10%formic acidsolution gradient dehydration, paraffin section, HE staining andthen use light microscope to observe resuls.3. All rats in eachgroup before anesthesia12hours of fasting, waterdeprivation,weight after cold molding completion. Thoracotomy to remove left lung tissue after anesthesia was10g from each rat,3rats from each group, using two-dimensional electrophorsisanalysis,two-dimensional gel electrophoresis image, peptide massfingerprinting and electrospray tandem by mass spectrometry toprotein identification.
Result1.Compared with control group, lung qi deficiency group weresignificantly reduced food intake, water intake, and weight gainsignificantly decreased(P<0.05or P<0.01). Compared with the coldpathogen group and lung qi deficiency group, lung qi deficiency andcold pathogen group in rats were significantly reduced food intake,water intake, and weight was reduced compaired which with externalenvironment (P<0.05). Lung qi deficiency rats were impacted inmental state, activity, fur, skin, jiont and stools, while lung qideficiency and cold pathogen group showed obviously.
2.The biopsy of lung qi deficiency group and cold pathogen groupconfirmed pulmonary appear obvopus unjury,with clear waterretention, capillary congestion, inflammatory cell infiltration inalveoli.But cold evil and lung qi deficiency group withinterstitial inflammatory cell infiltration,alveolar accumulationof foam cells and lung abscess.
3.Selected3samples from control group, cold pathogen group,lung qi deficiency group and lung qi deficiency with cold pathogengroup, a total of6sets of6differntial protin profiles forproteomics analysis, identified65protein in rat lung tissue,protein20expression, regulation45expression. On four groups of2-DE gel from the protein expression differences point selectionpoints clear and protein expression level change obvious point asthe final mass spectrometry identification object, by using the method of PMF identified seven with pulmonary qi deficiencysyndrome may be related to the differentially expressed proteins,10with cold evil lung may be related to the differentiallyexpressed proteins. Which turn gel protein and eukaryotictranslation initiation factor has correlation with lung qideficiency syndrome, and heat shock protein70, serum precursorprotein, fibrinogen, malic dehydrogenase, and citrate synthase,and "internal and external evil" rats (cold evil effects on lungdeficiency of the body) may have relevance.Conclusion:1.The effects of cold pathogen were obvious in normalgroup and lung qi deficiency group at general conditions, which wasmore obvious in lung qi deficiency group.
2.There were different damage to the lung tissue of normal groupand lung qi deficiency group, and cold evil in a certain extent canaggravate lung tissue damage degree in lung qi deficiency group.
3.The research preliminary confirmed that internal andexternal factors of differential protein intersection exists,
and the function of difference of protein mainly involved inhormone regulation, immune response, signal transduction,cytoskeleton, metabolism etc.
The results provide basic data for the study of scientificresearch of pathogenic cold injury lung proteomics pathogenicmechanism, protein for further study of the occurrence anddevelopment of disease laid the theoretical foundation, which mayalso provide molecular biology diagnosis of infection disease forclinical disease especially diagnostic criteria, which weretheoretical innovation and the clinical significance.
引文
[1]陶功定,冯前进,李俊莲等.从《黄帝内经》生态医学思想浅论生态病因学[J].世界中西医结合杂志,2011,6(8):649.
[2]陶功定.《黄帝内经》告诉了我们什么?[M].北京:中国中医药出版社,2004
[1]许慎.说文解字[M].北京:中华书局出版,1963:151
[2]张晨.中医病因之“寒”的概念分类与辨析学[J].中国中医基础医学杂志,2011,17(4):355.
[3]巢元方.诸病源候论校释[M].北京:人民卫生出版社,1983:544
[4]程士德.内经理论体系纲要[M].北京:人民卫生出版社,1992:241.
[5]张介宾.类经[M].北京:人民卫生出版社,1992:241.
[6]肖香群,王宗殿.寒凝心脉型胸痹证治初探[J].辽宁中医药大学学报,2008,10(4):14-15.
[7]傅文录.阳虚肝寒证证治发挥[J].河南中医,2011,31(7):734-736
[8]雷丰.时病论[M].北京:人民卫生出版社,2005:9.
[12]孙思邈.备急干金要方[M].沈阳:辽宁科学技术出版,1997:288-289.
[1]王平,邱继云,陶功定等.肺气虚加寒湿外邪大鼠复合模型建立的实验研究[J].世界中西医结合杂志,2012,7(11):938-940.
[2]李泽庚,彭波,张杰根等.肺气虚证模型大鼠的建立[J].北京中医,2005,24(1):53-55.
[3]宋一平,崔德健,茅培英等.慢性阻塞性肺病大鼠模型的建立及药物干预的影响[J].中华内科杂志,2000,39(8):556-557.
[4]陈小野.实用中医证候动物模型学[M].北京:北京医科大学、中国协和医科大学联合出版社,1993:314
[5]施新猷.医学动物实验方法[M].北京:人民卫生出版社,1986:224
[6]Wright JL, Churg A. Cigrette smoke causes Physiologic andmorphologic changes of emphysema in the guinea Pig[M].Am Rev ResPir Dis,1990:1422-1428.
[7]章敏,陈刚,张六通等.六淫湿邪动物模型研究[J].湖北中医杂志,2007,29(9):5.
[8]丁建中,张六通,邱幸凡等.外燥对小鼠气管上皮纤毛运动与呼吸道液分泌的影响[J].中医杂志,2006,47(8):607-609.
[1]张程,陈平,蔡珊等.重组人Ⅱ型肿瘤坏死因子受体2抗体融合蛋白对慢性阻塞性肺疾病大鼠营养状态的影响[J].医学临床研究,2007,24(4):532-534.
[2]迟春花,何冰,汤秀英等.烟草雾吸入导致慢阻肺机制的实验研究-大鼠Clara细胞结构及其分泌蛋白的变化[J].心肺血管病杂志,2000,19(3):224-227.
[3]王常松,吴同玉,陈学习等.寒湿困脾证动物模型的建立和评[J].上海中医药大学学报,2011,25(5):75-77.
[4]周华妙,郭勇.寒凝血瘀证小鼠动物模型的建立及评价[J].中国中医药科技,2010,17(1):1-2.
[5]谷万里,张俏,史载祥等.寒凝血瘀证动物模型的研究述评[J].中国中医药信息杂志,2007,14(6):89-91.
[6]张庆祥,于少泓,孙广仁等.哮喘病寒饮蕴肺证大鼠病理模型的建立与评价[J].山东中医杂志,2006,12(2):50-52.
[7]孙广仁,王洪武,高博等.COPD寒饮蕴肺证大鼠病证结合模型的建立[J].山东中医药大学学报,2007,29(3):68-70.
[1]Law son,D.,Harris, M.,&Shap land,C.,Fibrob last transgelinand smooth muscle SM22a are the same protein, the expression ofwhich is dowm regulated in many cell lines [J].Cell Motil Cy-toskel,1997,38:250-257.
[2]Gimona,M,Kaverina I,Resch,G.P.,Vigna,E,&Burgstall er,G. Calponin repeats regulate actin filam ent stability and formation of podosomes in smooth muscle cells[J]. Mol B iol Cell,2003,14:2482-2491.
[3]Shislds.J.M.,Rogers-Graham K.,&Der,C J Loss of transgelinin breast and colon tumours and in RIE Cells by rasderegulationof gene expression through raf-ind ependent pathways[J]. Biol Chem,2002,277:9790-9799.
[4]Kaplan-Alberquerque,N.,Garat,C.,Van Putten, V.,&Ne m-enoff,R. A. Regulation of SM22a expression by argentinevasopressin and PDGF-BB in vascular sm ooth muscle cells[J]. Am.J.Physio.l Heart C irc. Physio,l2003,285:1444-1452.
[5]Yang Z,Chang Y-J, M iyamoto H,Ni J,Niu, Y. J, C hen,Z D.,etal Transgelin functions as a suppress or via inhibition ofARA54-enhanced androgen receptor transactivation and prosatate cancer cell growth[J].Mol Endocrinol,2007,21:343-358.
[6]张颖,王学春. Transgelin研究新进展[J].泰山医学院学报,2011,32(1):78-80.
[7]Nascimento RM,Otto PA,de Brouwer AP,Vianna-MorganteAM.UBE2A,which encodes a ubiquitin-conjugating enzyme,is mutatedin a novel X-linked mental retardation syndrome[J].AM J HUMGenet,2006,79(3):549-555.
[8]李锦师,白建文,林闽加等.肌球蛋白轻链激酶在急性肺损伤模型的表达及意义[J].上海交通大学学报(医学版),2007,27(12):1424-1427.
[9]陈芊伊,吕星,张志杰等.肝硬化患者血清苹果酸脱氢酶的活性检测[J].临床和实验医学杂志,2011,10(5):347-349.
[10]黄芸.不同热休克蛋白的比较及其与中医药的关系[J].中华中医药学刊,2010,28(4):718-720.
[11]陈秀莲,孙林,于培兰等.热休克蛋白70与缺血性脑损伤[J].中国临床康复,2006,10(24):137-139.
[12]许丽丽,石武祥,邬堂春.热休克蛋白70与心肌炎的关系研究进展[J].现代预防医学,2008,35(3):406-408.
[13]陈裕充,温海,李志刚等.新生隐球菌临床分离株热休克反应的差别及临床意义[J].第二军医大学学报,2002,23(4):433-436.
[14]孙莉.细胞角蛋白检测在皮肤上皮性肿瘤诊断中的应用[J].中国麻风皮肤病杂志,2005,21(7):543-545.
[15]冷梅.血清前清蛋白检测在肝病和感染性疾病中的应用[J].检验医学与临床,2008,5(7):433-433.
[16]Chute JP, Muramoto GG, Whitesides J, et al. Inhibition ofaldehyde dehydrogenase and retinoid signaling induces theexpansion of human hematopoietic stem cells[J]. Proc Natl Acad SciUSA,2006,103(31):11707-11712.
[17]Patel M, Lu L, Zander DS, et al. ALDH1A1and ALDH3A1expressionin lung cancers: correlation with histologic type and potentialprecursors[J].Lung Cancer,2008,59(3):340-349.
[18]刘莹.纤维蛋白原临床研究进展[J].华南国防医学杂志,2010,24(1):75-76.
[19]黄蔚国,王鸿利,张颖琪等.血浆D-二聚体检测及其临床应用[J].中华检验医学杂志,1995,18(2):71-74.
[20]王榕生.肺拴塞患者血浆D-二聚体检测结果分析[J].中国实用医药,2009,4(4):100-101.
[21]Hwang HH, Moon PG, Lee JE. Identification of the target proteinsof rosiglitazone in3T3-L1adipocytes through proteomic analysisof cytosolic and secreted proteins[J].Mol Cells.2011,31(3):239-246.
[22]Zhao P, Zhong W, Ying X. Comparative proteomic analysis ofanti-benzo(a)pyrene-7,8-dihydrodiol-9,10-epoxide-transformedand normal human bronchial epithelial G0/G1cells[J]. Chem BiolInteract.2010,186(2):166-173.
[23]M rbt N, M gel I,Kalkhof S. Proteome changes in humanbronchoalveolar cells following styrene exposure indicateinvolvement of oxidative stress in the molecular-responsemechanism[J]. Proteomics.2009,9(21):4920-4933.
[24]胡小琴,曾学文,岑卫健等.补阳还五汤与高血压病气虚血瘀证“方证相关”的蛋白质组学研究[J].科学技术与工程,2012,12(27):6883-6888
[25]Miyazaki I, Simizu S, Okumura H. A small-molecule inhibitorshows that pirin regulates migration of melanoma cells[J]. Nat ChemBiol.2010,6(9):667-673.
[26]Licciulli S, Luise C, Zanardi A,C. Pirin delocalization inmelanoma progression identified by high content immuno-detectionbased approaches[J]. BMC Cell Biol.2010,20(11):5-12.
[27]Meseroll RA, Occhipinti P, Gladfelter AS. Septinphosphorylation and coiled-coil domains function in cell and septinring morphology in the filamentous fungus ashbya gossypii[J].Eukaryot Cell.2013,12(2):182-193.
[28]Sidhaye VK, Chau E, Breysse PN. Septin-2mediates airwayepithelial barrier function in physiologic and pathologicconditions[J]. Am J Respir Cell Mol Biol.2011,45(1):120-126.
[29]Craven RA, Hanrahan S, Totty N. Proteomic identification of arole for the von Hippel Lindau tumour suppressor in changes in theexpression of mitochondrial proteins and septin2in renal cellcarcinoma[J]. Proteomics.2006,6(13):3880-3893.
[30]Delalle I, Pfleger CM, Buff E.Mutations in the Drosophilaorthologs of the F-actin capping protein alpha-and beta-subunitscause actin accumulation and subsequent retinal degeneration[J].Genetics.2005,171(4):1757-1765.
[31]McGregor E, Kempster L, Wait R. F-actin capping (CapZ) and othercontractile saphenous vein smooth muscle proteins are altered byhemodynamic stress: a proteonomic approach[J]. Mol Cell Proteomics.2004,3(2):115-124.
[32]葛亚东,潘蔚,汪劼等.柠檬酸合酶的分子生物学研究进展[J].生物学杂志,2010,(3):321-332
[33]Siriwardena K, Mackay N, Levandovskiy V, C. Mitochondrialcitrate synthase crystals: novel finding in Sengers syndrome causedby acylglycerol kinase (AGK) mutations[J]. Mol Genet Metab.2013Jan;108(1):40-50.
[34]Gimona,M.,Kaverina,1.,Reseh,G.P.CalPonin repeats regulateactin fllament stability and formation of Podosomes insmooth musclecells[J]. MolBiol Cell,2003,42482-2491.
[35]Nair,R.R.,Solway,J.andBoyd,D.D.ExPression cloning identifiestransgelin(SM22) as a novel rePressorof92-kDa type IVcollagenase(MMP-9)expression[J].JBiolChem,2006,(281):26424-26436.
[36]Lawson,D.,Harrison,M.,andShapland,C.Fibroblast transgelinand smooth musele SM22alPha are the same Protein,the expressionof Which is Down-regulated in many cell lines.CellMotilCytoskeleton,1997,8:250-257.
[37]Chen G,Gharib T G,Thomas D G, et al. Proteomic analysi-s ofeIF-5A in lung adenocarcinomas[J]. Proteomics,2003,3(4):496-502.
[38]Lepore DA, Hu rley JV, S t ew art AG, et al.Prior heat st-ressimproves survival of ischemi creperf used skeletal muscle in vivo[J].Muscle Nerve,2000,23:1847-1855.
[39]Kakey AH, Udono H, Ikun o N, et al. A77-kilo-dalt on prot-einof Crypt ococcus neoformans, a member of the heats hock protein70family, is a major antigen detected in the sera of mice withpulmonary crypt ococcosis[J].Infect Immun,1997,65(5):1653-1658.
[40]Brunham RC, Peeling R, Maclean I, et al. Postabortal Chlamydiatrachomat is salpingitis: correlating risk withantigen-specif icsero-logical responses and with neutralization[J]. J Infect Dis,1987,155(4):749-755.
[41]Bonorino C, Nardin B, Zhang X, et al. Charact eristics of thestrong antibody response tomy cobacterial Hsp70: a primary, T celldependent IgG response with no evidence of natural priming or-gammadelta T cell involvement [J]. J Immun ol,1998,161(10):5210-5216.
[42]Bu rleigh BA, Andrews. The mechanism of Tryp anosoma cruziinvasion of mammalian cells [J]. Annu Rev Microbiol,1995,49:175.
[43]Lisa AE, Elizabeth GI, Ju lie MC, et al. The adjuvanteffects of Mycobacterium tuberculosis heat shock protein70resultform the rapid and prolonged activation of an tigen-specific CD8+Tcells in vivo[J].J Immunol,2002,169:5622-5629.
[44]Mona Hashem Allam, Azza Farag Said,Ahmed Abd El SamieOmran.High sensitivity C-reactive protein:Its correlation withsputum cell counts in bronchial asthma Respiratory[J]. Medicine,2009,47(8):1878-1882
[45]Sean P. Heffron, Ioannis Parastatidis,Marina Cuchel, Inflammation induces fibrinogen nitration in experimental humanendotoxemia[J].Free Radical Biology and Medicine,2009,47(8):1140-1146
[46]J ohn D. Taylor,COPD and the response of the lung to tobaccosmoke exposure[J].Pulmonary Pharmacology&Therapeutics,2010,23(5):376-383
[47]吴洪海,谢虹,苏庆等.实验性心肌损伤对大鼠房室束LDH、SDH的影响[J].实用临床医药杂志,2004,8(2):54-59.
[1]陈德邦.浅谈“肺主一身之气”的理论在临床上的运用[J].上海中医药大学学报,2010,26(4):313-314.
[2]马淑然,苏薇,刘晓燕等.“肺主气”本质与机体自稳调节机制[J].南京中医药大学学报,2006,20(3):14-16.
[3]刘燕池.中医基础理论[M].贵阳:贵州科学技术出版社,1997:113.
[4]洪素兰,孙永红.从《内经》谈肺主气[J].河南中医药学刊,2000,15(1):1-2.
[5]王益平,郝葆华.肺主卫气新释——从肺的防御功能看中医肺的功能[J].陕西中医学院学报,2001,24(3):14-15.
[6]Thiyuvengardam KV.粉末所致职业肺病的免疫学[M].国外医学:卫生学分册:1987,14(5):201–254.
[7]遇铭,李玉田.大鼠肺泡巨噬细胞吞噬煤尘颗粒的实验研究[J].解剖学报.1988,19(2):206-209.
[8]龚治芳.大鼠肺泡巨噬细胞的更新时间[J].中国应用生理学杂志,1988,4(3):234-237.
[9]刘长恩.肺防御机能的损害[J].山西医药杂志,1985,14(6):321-323.
[10]赵海滨,沈承玲.从肺主气失司论中风病机[J].北京中医,2007,26(8):489-490.
[11]李德新,刘燕池.中医基础理论[M].北京:人民卫生出版社,2011:221.
[12]柯雪帆.宣发与肃降的病理及证治[J].中医药学刊,2001,19(4):295-296.
[13]李如辉.肺气的宣发与肃降的发生学诠释[J].上海中医药大学学报,2000,14(3):10-12.
[14]陈明.论“魄门亦为五脏湿”及其临床意义[J].中国医药学报,2001,16(6):18-21.
[15]张庆祥.论肺主宣降对水液代谢的调节及其临床意义[J].山东中医药大学学报,2002,26(2):97-99.
[16]严石林.论小便失调与肺失肃降的关系[J].成都中医药大学学报,1998,21(3):9-10.
[17]古继红,区永欣.肺失宣发与外感表证的相关性探讨[J].浙江中医杂志,2004,21(11):465-466.
[18]胡世平.论肺气宣发与肃降[J].四川中医,2001,19(2):12-13.
[19]张小虎,区永欣.肺主肃降的理论研究集要[J].中医药学刊,2003,21(10):1668-1670.
[20]张小虎,古继红,区永欣等.肺主肃降与“肺与大肠相表里”相关性的实验研究及其应用探讨[J].中华中医药学刊,2008,26(9):2059-2062.
[21]赵娴.哮喘状态(肺失肃降)下豚鼠水液代谢发生的变化及其机制[J].陕西中医,2005,26(10):1115-1117.
[22]郭教礼,张西相,王宗仁.类经评注[M].西安:陕西科学技术出版社,1996:63.
[23]清·陈梦雷.医部全录(一)·医经注释上[M].北京:人民卫生出版社,1959:144.
[24]沈承玲,孙塑伦,高颖等.论肺阳在肺主行水中的作用[J].中医药学报,2005,33(2):68-69.
[25]孙广仁等.肺主行水理论的研究思路[J].山东中医药大学学报,1999,23(6):406-407.
[26]张小军.慢性肠炎从肺论治[J].陕西中医,1996,17(7):336.
[27]孔小云,黄穗平.从机体水液代谢角度看“肺与大肠相表里”[J].中国中医基础医学杂志,2011,17(4):359-360.
[28]王哲,孙宏伟,王浩等.肺气虚证模型大鼠肾组织水通道蛋白2表达的变化[J].中国中医药信息杂志,2009,16(6):29-30.
[29]王玉兴,阴斌.“治节”含义再识[J].中国中医基础医学杂志,1996,2(1):55.
[30]梁超,谭漪.从肺主治节治疗节律紊乱疾病探讨[J].四川中医,2000,18(12):9-10.
[31]朱龙.肺主治节原意探析[J].安徽中医学院学报,1999,19(2):33-34.
[32]王旭东.“肺主治节”及临证治疗[J].中医研究,1999,4(1):10-12.
[33]李亚莉.试论“肺主治节”[J].陕西中医函授,1994,(6):10-11.
[34]张喜德.论肺主治节及其意义[J].陕西中医学院学报,1999,22(4):15-16.
[35]叶发期.“治节”本义考[J].中医杂志,2010,51(6):61-62.
[36]孙广仁.论“气分阴阳”对中医学气学理论的影响[J].南京中医药大学学报,2001,(1):11-13.
[37]黄文华,屈榆生.谈谈中医药研究中动物模型的复制原则[J].现代中医药,2003,(2):15-16.
[38]李泽庚,彭波,张杰根等.肺气虚证动物模型的建立[J].北京中医,2005,24(1):53-55.
[39]杨作成.肺气虚证大鼠皮毛中微量元素的变化[J].中国中医基础医学杂志,1999,5(5):9-10.
[40]耿小照,雷明盛.嗽宝合剂对COPD“肺气虚证”大鼠血浆ET含量的影响[J].贵阳中医学院学报,2005,27(4):58-59.
[41]张葵,张樱,陈翌江等.参芪补肺汤对肺气虚证慢性阻塞性肺疾病大鼠气道重构中NF-kB和MMp-9,TMP-1表达的影响[J].中国中药杂志,2008,33(18):2129-2131.
[42]吴垦莉,张姗姗.寒凝血瘀证动物模型的研制[J].中国中医基础医学杂志,1996,2(2):49-50.
[43]王学江,丰平.寒凝血瘀证动物模型的实验观察[J].北京中医,2000,(5):44-46.
[44]倪瑾,张珊珊,夏友群等.寒凝血瘀证与血液流变学观察意义[J].辽宁中医杂志,1996,23(12):568-569.
[45]杨士友,孙备,裴月梅等.风寒表证和寒凝血瘀证动物模型的研究[J].中国中医基础医学杂志,1997,3(1):54-55.
[46]张伟,曹景涛,刘海瑜等.风湿之邪对寒邪犯肺证大鼠肺脏细胞因子的影响[J].中西医结合学报,2008,6(7):748-750.
[1] Simon Dawson,Hiroaki Higashitsuji,Anthony J,et al. a newoncoprotein and regulator of pRb and p53[J].TRENDS in Cell Biology,2006,3(1):1-5.
[2] Jiang HMan,Bing YL,Wei LiG,et al.Min Zhang.Proteomics AnalysisReveals Insight into the Mechanism of Ras-MediatedTransformation[J].Journal of Proteome Research,2006,5(10),2815-2823.
[3]Rai AJ,Chan DW.Cancer proteomics:Serum diagnostics for tumormarker discovery[J].Ann NY Acad Sci,2004,1022(6):286-294.
[4] Hong SH,Misek DE,Wang H,et al.An Autoantibody-Mediated ImmuneResponse to Calreticulin isoforms in Pancreatic Cancer[J].CancerRes,2004,64(15):5504-lO.
[5] Lichtenfels R,Kellner&Atkins Derek,et al.Identification ofmetabolic enzymes in renal cell carcinoma utilizing PROTEOMEXanalyses[J].Biochim Biophys Acta,2009,1646(2):21-31.
[6] Cottinghan K.Immunoproteomics for early cancer diagnoses andcancer therapies[J].Proteome Res,2007,6(7):2408-2410.
[7] Philip R,Murthy S,Krakover J,et al.Shared immunoproteomefor ovarian cancer diagnostics and immunotherapy:potentialtheranostic approach to cancer[J].Proteome Res,2007,6(7):2509-2517.
[8] Jones J,Pantuck AJ.Genomics and proteomics in renal cellcarcinoma:diagnosis,prognosis,and treatment selection[J].CurrUrol Rep,2008,9(1):9-14.
[9] Gires O,Mtinz M,Schaffrik M,et al.Profile identificationof disease.Associated humoral antigens using AMIDA,a novelproteomics-based technology[J].Cell Mol Life Sci,2004,61(10):1198-1207.
[10] Jager D.Potential target antigens for immunotherapyidentified by serological expression cloning(SEREX)[J].MethodsMol Biol,2007,360(3):319-326.
[11] Seliger B,Kellner R.Design of proteome·based studies incombination with serology for the identification of biomarkers andnovel targets[J].Proteomics,2012,2(12):1645-51.
[12] Prasannan L,Misek DE,Hinderer凡et al.Identification ofbeta-tubulin isoforms as tumor antigens in neuroblastoma[J].ClinCancer Res,2010,6(1O):3439-46.
[13] Le Naour F,Misek DE,Krause MC,et al.Proteomics-basedidentification of RS/DJ-1as a novel circulating tumor antigen inbreast cancer[J].Clin Cancer Res,2011,7(11):3328-3335.
[14] TakashimaM,Kuramitsu Y,Yokoyama Y,el al.Proteomic analysisof autoantibodies in patients with hepatocellularcarcinoma[J].Proteomics.2006,6(13):3894-900.
[15] Klade CS,Voss T,Krystek E,et al.Identification of tumorantigens in renal cell carcinoma by serological proteomeanalysis.Proteomics[J].2011,1(7):890-898.
[16] Lichtenfels R Kellner&Atkins Derek,et al.Identification ofmetabolic enzymes in renal cell carcinoma utilizing PROTEOMEXanalyses[J].Biochim Biophys Acta,2009,1646(1-2):21-31.
[17] Tassinari OW,Caiazzo RJ Jr,Ehrlich JR.Identifyingautoantigens as theranostic targets:antigen arrays andimmunoproteomics approaches[J].Curr Opin Mol Ther,2008,1O(2):107-115.
[2]陶功定.《黄帝内经》告诉了我们什么?[M].北京:中国中医药出版社,2004
[1]许慎.说文解字[M].北京:中华书局出版,1963:151
[2]张晨.中医病因之“寒”的概念分类与辨析学[J].中国中医基础医学杂志,2011,17(4):355.
[3]巢元方.诸病源候论校释[M].北京:人民卫生出版社,1983:544
[4]程士德.内经理论体系纲要[M].北京:人民卫生出版社,1992:241.
[5]张介宾.类经[M].北京:人民卫生出版社,1992:241.
[6]肖香群,王宗殿.寒凝心脉型胸痹证治初探[J].辽宁中医药大学学报,2008,10(4):14-15.
[7]傅文录.阳虚肝寒证证治发挥[J].河南中医,2011,31(7):734-736
[8]雷丰.时病论[M].北京:人民卫生出版社,2005:9.
[12]孙思邈.备急干金要方[M].沈阳:辽宁科学技术出版,1997:288-289.
[1]王平,邱继云,陶功定等.肺气虚加寒湿外邪大鼠复合模型建立的实验研究[J].世界中西医结合杂志,2012,7(11):938-940.
[2]李泽庚,彭波,张杰根等.肺气虚证模型大鼠的建立[J].北京中医,2005,24(1):53-55.
[3]宋一平,崔德健,茅培英等.慢性阻塞性肺病大鼠模型的建立及药物干预的影响[J].中华内科杂志,2000,39(8):556-557.
[4]陈小野.实用中医证候动物模型学[M].北京:北京医科大学、中国协和医科大学联合出版社,1993:314
[5]施新猷.医学动物实验方法[M].北京:人民卫生出版社,1986:224
[6]Wright JL, Churg A. Cigrette smoke causes Physiologic andmorphologic changes of emphysema in the guinea Pig[M].Am Rev ResPir Dis,1990:1422-1428.
[7]章敏,陈刚,张六通等.六淫湿邪动物模型研究[J].湖北中医杂志,2007,29(9):5.
[8]丁建中,张六通,邱幸凡等.外燥对小鼠气管上皮纤毛运动与呼吸道液分泌的影响[J].中医杂志,2006,47(8):607-609.
[1]张程,陈平,蔡珊等.重组人Ⅱ型肿瘤坏死因子受体2抗体融合蛋白对慢性阻塞性肺疾病大鼠营养状态的影响[J].医学临床研究,2007,24(4):532-534.
[2]迟春花,何冰,汤秀英等.烟草雾吸入导致慢阻肺机制的实验研究-大鼠Clara细胞结构及其分泌蛋白的变化[J].心肺血管病杂志,2000,19(3):224-227.
[3]王常松,吴同玉,陈学习等.寒湿困脾证动物模型的建立和评[J].上海中医药大学学报,2011,25(5):75-77.
[4]周华妙,郭勇.寒凝血瘀证小鼠动物模型的建立及评价[J].中国中医药科技,2010,17(1):1-2.
[5]谷万里,张俏,史载祥等.寒凝血瘀证动物模型的研究述评[J].中国中医药信息杂志,2007,14(6):89-91.
[6]张庆祥,于少泓,孙广仁等.哮喘病寒饮蕴肺证大鼠病理模型的建立与评价[J].山东中医杂志,2006,12(2):50-52.
[7]孙广仁,王洪武,高博等.COPD寒饮蕴肺证大鼠病证结合模型的建立[J].山东中医药大学学报,2007,29(3):68-70.
[1]Law son,D.,Harris, M.,&Shap land,C.,Fibrob last transgelinand smooth muscle SM22a are the same protein, the expression ofwhich is dowm regulated in many cell lines [J].Cell Motil Cy-toskel,1997,38:250-257.
[2]Gimona,M,Kaverina I,Resch,G.P.,Vigna,E,&Burgstall er,G. Calponin repeats regulate actin filam ent stability and formation of podosomes in smooth muscle cells[J]. Mol B iol Cell,2003,14:2482-2491.
[3]Shislds.J.M.,Rogers-Graham K.,&Der,C J Loss of transgelinin breast and colon tumours and in RIE Cells by rasderegulationof gene expression through raf-ind ependent pathways[J]. Biol Chem,2002,277:9790-9799.
[4]Kaplan-Alberquerque,N.,Garat,C.,Van Putten, V.,&Ne m-enoff,R. A. Regulation of SM22a expression by argentinevasopressin and PDGF-BB in vascular sm ooth muscle cells[J]. Am.J.Physio.l Heart C irc. Physio,l2003,285:1444-1452.
[5]Yang Z,Chang Y-J, M iyamoto H,Ni J,Niu, Y. J, C hen,Z D.,etal Transgelin functions as a suppress or via inhibition ofARA54-enhanced androgen receptor transactivation and prosatate cancer cell growth[J].Mol Endocrinol,2007,21:343-358.
[6]张颖,王学春. Transgelin研究新进展[J].泰山医学院学报,2011,32(1):78-80.
[7]Nascimento RM,Otto PA,de Brouwer AP,Vianna-MorganteAM.UBE2A,which encodes a ubiquitin-conjugating enzyme,is mutatedin a novel X-linked mental retardation syndrome[J].AM J HUMGenet,2006,79(3):549-555.
[8]李锦师,白建文,林闽加等.肌球蛋白轻链激酶在急性肺损伤模型的表达及意义[J].上海交通大学学报(医学版),2007,27(12):1424-1427.
[9]陈芊伊,吕星,张志杰等.肝硬化患者血清苹果酸脱氢酶的活性检测[J].临床和实验医学杂志,2011,10(5):347-349.
[10]黄芸.不同热休克蛋白的比较及其与中医药的关系[J].中华中医药学刊,2010,28(4):718-720.
[11]陈秀莲,孙林,于培兰等.热休克蛋白70与缺血性脑损伤[J].中国临床康复,2006,10(24):137-139.
[12]许丽丽,石武祥,邬堂春.热休克蛋白70与心肌炎的关系研究进展[J].现代预防医学,2008,35(3):406-408.
[13]陈裕充,温海,李志刚等.新生隐球菌临床分离株热休克反应的差别及临床意义[J].第二军医大学学报,2002,23(4):433-436.
[14]孙莉.细胞角蛋白检测在皮肤上皮性肿瘤诊断中的应用[J].中国麻风皮肤病杂志,2005,21(7):543-545.
[15]冷梅.血清前清蛋白检测在肝病和感染性疾病中的应用[J].检验医学与临床,2008,5(7):433-433.
[16]Chute JP, Muramoto GG, Whitesides J, et al. Inhibition ofaldehyde dehydrogenase and retinoid signaling induces theexpansion of human hematopoietic stem cells[J]. Proc Natl Acad SciUSA,2006,103(31):11707-11712.
[17]Patel M, Lu L, Zander DS, et al. ALDH1A1and ALDH3A1expressionin lung cancers: correlation with histologic type and potentialprecursors[J].Lung Cancer,2008,59(3):340-349.
[18]刘莹.纤维蛋白原临床研究进展[J].华南国防医学杂志,2010,24(1):75-76.
[19]黄蔚国,王鸿利,张颖琪等.血浆D-二聚体检测及其临床应用[J].中华检验医学杂志,1995,18(2):71-74.
[20]王榕生.肺拴塞患者血浆D-二聚体检测结果分析[J].中国实用医药,2009,4(4):100-101.
[21]Hwang HH, Moon PG, Lee JE. Identification of the target proteinsof rosiglitazone in3T3-L1adipocytes through proteomic analysisof cytosolic and secreted proteins[J].Mol Cells.2011,31(3):239-246.
[22]Zhao P, Zhong W, Ying X. Comparative proteomic analysis ofanti-benzo(a)pyrene-7,8-dihydrodiol-9,10-epoxide-transformedand normal human bronchial epithelial G0/G1cells[J]. Chem BiolInteract.2010,186(2):166-173.
[23]M rbt N, M gel I,Kalkhof S. Proteome changes in humanbronchoalveolar cells following styrene exposure indicateinvolvement of oxidative stress in the molecular-responsemechanism[J]. Proteomics.2009,9(21):4920-4933.
[24]胡小琴,曾学文,岑卫健等.补阳还五汤与高血压病气虚血瘀证“方证相关”的蛋白质组学研究[J].科学技术与工程,2012,12(27):6883-6888
[25]Miyazaki I, Simizu S, Okumura H. A small-molecule inhibitorshows that pirin regulates migration of melanoma cells[J]. Nat ChemBiol.2010,6(9):667-673.
[26]Licciulli S, Luise C, Zanardi A,C. Pirin delocalization inmelanoma progression identified by high content immuno-detectionbased approaches[J]. BMC Cell Biol.2010,20(11):5-12.
[27]Meseroll RA, Occhipinti P, Gladfelter AS. Septinphosphorylation and coiled-coil domains function in cell and septinring morphology in the filamentous fungus ashbya gossypii[J].Eukaryot Cell.2013,12(2):182-193.
[28]Sidhaye VK, Chau E, Breysse PN. Septin-2mediates airwayepithelial barrier function in physiologic and pathologicconditions[J]. Am J Respir Cell Mol Biol.2011,45(1):120-126.
[29]Craven RA, Hanrahan S, Totty N. Proteomic identification of arole for the von Hippel Lindau tumour suppressor in changes in theexpression of mitochondrial proteins and septin2in renal cellcarcinoma[J]. Proteomics.2006,6(13):3880-3893.
[30]Delalle I, Pfleger CM, Buff E.Mutations in the Drosophilaorthologs of the F-actin capping protein alpha-and beta-subunitscause actin accumulation and subsequent retinal degeneration[J].Genetics.2005,171(4):1757-1765.
[31]McGregor E, Kempster L, Wait R. F-actin capping (CapZ) and othercontractile saphenous vein smooth muscle proteins are altered byhemodynamic stress: a proteonomic approach[J]. Mol Cell Proteomics.2004,3(2):115-124.
[32]葛亚东,潘蔚,汪劼等.柠檬酸合酶的分子生物学研究进展[J].生物学杂志,2010,(3):321-332
[33]Siriwardena K, Mackay N, Levandovskiy V, C. Mitochondrialcitrate synthase crystals: novel finding in Sengers syndrome causedby acylglycerol kinase (AGK) mutations[J]. Mol Genet Metab.2013Jan;108(1):40-50.
[34]Gimona,M.,Kaverina,1.,Reseh,G.P.CalPonin repeats regulateactin fllament stability and formation of Podosomes insmooth musclecells[J]. MolBiol Cell,2003,42482-2491.
[35]Nair,R.R.,Solway,J.andBoyd,D.D.ExPression cloning identifiestransgelin(SM22) as a novel rePressorof92-kDa type IVcollagenase(MMP-9)expression[J].JBiolChem,2006,(281):26424-26436.
[36]Lawson,D.,Harrison,M.,andShapland,C.Fibroblast transgelinand smooth musele SM22alPha are the same Protein,the expressionof Which is Down-regulated in many cell lines.CellMotilCytoskeleton,1997,8:250-257.
[37]Chen G,Gharib T G,Thomas D G, et al. Proteomic analysi-s ofeIF-5A in lung adenocarcinomas[J]. Proteomics,2003,3(4):496-502.
[38]Lepore DA, Hu rley JV, S t ew art AG, et al.Prior heat st-ressimproves survival of ischemi creperf used skeletal muscle in vivo[J].Muscle Nerve,2000,23:1847-1855.
[39]Kakey AH, Udono H, Ikun o N, et al. A77-kilo-dalt on prot-einof Crypt ococcus neoformans, a member of the heats hock protein70family, is a major antigen detected in the sera of mice withpulmonary crypt ococcosis[J].Infect Immun,1997,65(5):1653-1658.
[40]Brunham RC, Peeling R, Maclean I, et al. Postabortal Chlamydiatrachomat is salpingitis: correlating risk withantigen-specif icsero-logical responses and with neutralization[J]. J Infect Dis,1987,155(4):749-755.
[41]Bonorino C, Nardin B, Zhang X, et al. Charact eristics of thestrong antibody response tomy cobacterial Hsp70: a primary, T celldependent IgG response with no evidence of natural priming or-gammadelta T cell involvement [J]. J Immun ol,1998,161(10):5210-5216.
[42]Bu rleigh BA, Andrews. The mechanism of Tryp anosoma cruziinvasion of mammalian cells [J]. Annu Rev Microbiol,1995,49:175.
[43]Lisa AE, Elizabeth GI, Ju lie MC, et al. The adjuvanteffects of Mycobacterium tuberculosis heat shock protein70resultform the rapid and prolonged activation of an tigen-specific CD8+Tcells in vivo[J].J Immunol,2002,169:5622-5629.
[44]Mona Hashem Allam, Azza Farag Said,Ahmed Abd El SamieOmran.High sensitivity C-reactive protein:Its correlation withsputum cell counts in bronchial asthma Respiratory[J]. Medicine,2009,47(8):1878-1882
[45]Sean P. Heffron, Ioannis Parastatidis,Marina Cuchel, Inflammation induces fibrinogen nitration in experimental humanendotoxemia[J].Free Radical Biology and Medicine,2009,47(8):1140-1146
[46]J ohn D. Taylor,COPD and the response of the lung to tobaccosmoke exposure[J].Pulmonary Pharmacology&Therapeutics,2010,23(5):376-383
[47]吴洪海,谢虹,苏庆等.实验性心肌损伤对大鼠房室束LDH、SDH的影响[J].实用临床医药杂志,2004,8(2):54-59.
[1]陈德邦.浅谈“肺主一身之气”的理论在临床上的运用[J].上海中医药大学学报,2010,26(4):313-314.
[2]马淑然,苏薇,刘晓燕等.“肺主气”本质与机体自稳调节机制[J].南京中医药大学学报,2006,20(3):14-16.
[3]刘燕池.中医基础理论[M].贵阳:贵州科学技术出版社,1997:113.
[4]洪素兰,孙永红.从《内经》谈肺主气[J].河南中医药学刊,2000,15(1):1-2.
[5]王益平,郝葆华.肺主卫气新释——从肺的防御功能看中医肺的功能[J].陕西中医学院学报,2001,24(3):14-15.
[6]Thiyuvengardam KV.粉末所致职业肺病的免疫学[M].国外医学:卫生学分册:1987,14(5):201–254.
[7]遇铭,李玉田.大鼠肺泡巨噬细胞吞噬煤尘颗粒的实验研究[J].解剖学报.1988,19(2):206-209.
[8]龚治芳.大鼠肺泡巨噬细胞的更新时间[J].中国应用生理学杂志,1988,4(3):234-237.
[9]刘长恩.肺防御机能的损害[J].山西医药杂志,1985,14(6):321-323.
[10]赵海滨,沈承玲.从肺主气失司论中风病机[J].北京中医,2007,26(8):489-490.
[11]李德新,刘燕池.中医基础理论[M].北京:人民卫生出版社,2011:221.
[12]柯雪帆.宣发与肃降的病理及证治[J].中医药学刊,2001,19(4):295-296.
[13]李如辉.肺气的宣发与肃降的发生学诠释[J].上海中医药大学学报,2000,14(3):10-12.
[14]陈明.论“魄门亦为五脏湿”及其临床意义[J].中国医药学报,2001,16(6):18-21.
[15]张庆祥.论肺主宣降对水液代谢的调节及其临床意义[J].山东中医药大学学报,2002,26(2):97-99.
[16]严石林.论小便失调与肺失肃降的关系[J].成都中医药大学学报,1998,21(3):9-10.
[17]古继红,区永欣.肺失宣发与外感表证的相关性探讨[J].浙江中医杂志,2004,21(11):465-466.
[18]胡世平.论肺气宣发与肃降[J].四川中医,2001,19(2):12-13.
[19]张小虎,区永欣.肺主肃降的理论研究集要[J].中医药学刊,2003,21(10):1668-1670.
[20]张小虎,古继红,区永欣等.肺主肃降与“肺与大肠相表里”相关性的实验研究及其应用探讨[J].中华中医药学刊,2008,26(9):2059-2062.
[21]赵娴.哮喘状态(肺失肃降)下豚鼠水液代谢发生的变化及其机制[J].陕西中医,2005,26(10):1115-1117.
[22]郭教礼,张西相,王宗仁.类经评注[M].西安:陕西科学技术出版社,1996:63.
[23]清·陈梦雷.医部全录(一)·医经注释上[M].北京:人民卫生出版社,1959:144.
[24]沈承玲,孙塑伦,高颖等.论肺阳在肺主行水中的作用[J].中医药学报,2005,33(2):68-69.
[25]孙广仁等.肺主行水理论的研究思路[J].山东中医药大学学报,1999,23(6):406-407.
[26]张小军.慢性肠炎从肺论治[J].陕西中医,1996,17(7):336.
[27]孔小云,黄穗平.从机体水液代谢角度看“肺与大肠相表里”[J].中国中医基础医学杂志,2011,17(4):359-360.
[28]王哲,孙宏伟,王浩等.肺气虚证模型大鼠肾组织水通道蛋白2表达的变化[J].中国中医药信息杂志,2009,16(6):29-30.
[29]王玉兴,阴斌.“治节”含义再识[J].中国中医基础医学杂志,1996,2(1):55.
[30]梁超,谭漪.从肺主治节治疗节律紊乱疾病探讨[J].四川中医,2000,18(12):9-10.
[31]朱龙.肺主治节原意探析[J].安徽中医学院学报,1999,19(2):33-34.
[32]王旭东.“肺主治节”及临证治疗[J].中医研究,1999,4(1):10-12.
[33]李亚莉.试论“肺主治节”[J].陕西中医函授,1994,(6):10-11.
[34]张喜德.论肺主治节及其意义[J].陕西中医学院学报,1999,22(4):15-16.
[35]叶发期.“治节”本义考[J].中医杂志,2010,51(6):61-62.
[36]孙广仁.论“气分阴阳”对中医学气学理论的影响[J].南京中医药大学学报,2001,(1):11-13.
[37]黄文华,屈榆生.谈谈中医药研究中动物模型的复制原则[J].现代中医药,2003,(2):15-16.
[38]李泽庚,彭波,张杰根等.肺气虚证动物模型的建立[J].北京中医,2005,24(1):53-55.
[39]杨作成.肺气虚证大鼠皮毛中微量元素的变化[J].中国中医基础医学杂志,1999,5(5):9-10.
[40]耿小照,雷明盛.嗽宝合剂对COPD“肺气虚证”大鼠血浆ET含量的影响[J].贵阳中医学院学报,2005,27(4):58-59.
[41]张葵,张樱,陈翌江等.参芪补肺汤对肺气虚证慢性阻塞性肺疾病大鼠气道重构中NF-kB和MMp-9,TMP-1表达的影响[J].中国中药杂志,2008,33(18):2129-2131.
[42]吴垦莉,张姗姗.寒凝血瘀证动物模型的研制[J].中国中医基础医学杂志,1996,2(2):49-50.
[43]王学江,丰平.寒凝血瘀证动物模型的实验观察[J].北京中医,2000,(5):44-46.
[44]倪瑾,张珊珊,夏友群等.寒凝血瘀证与血液流变学观察意义[J].辽宁中医杂志,1996,23(12):568-569.
[45]杨士友,孙备,裴月梅等.风寒表证和寒凝血瘀证动物模型的研究[J].中国中医基础医学杂志,1997,3(1):54-55.
[46]张伟,曹景涛,刘海瑜等.风湿之邪对寒邪犯肺证大鼠肺脏细胞因子的影响[J].中西医结合学报,2008,6(7):748-750.
[1] Simon Dawson,Hiroaki Higashitsuji,Anthony J,et al. a newoncoprotein and regulator of pRb and p53[J].TRENDS in Cell Biology,2006,3(1):1-5.
[2] Jiang HMan,Bing YL,Wei LiG,et al.Min Zhang.Proteomics AnalysisReveals Insight into the Mechanism of Ras-MediatedTransformation[J].Journal of Proteome Research,2006,5(10),2815-2823.
[3]Rai AJ,Chan DW.Cancer proteomics:Serum diagnostics for tumormarker discovery[J].Ann NY Acad Sci,2004,1022(6):286-294.
[4] Hong SH,Misek DE,Wang H,et al.An Autoantibody-Mediated ImmuneResponse to Calreticulin isoforms in Pancreatic Cancer[J].CancerRes,2004,64(15):5504-lO.
[5] Lichtenfels R,Kellner&Atkins Derek,et al.Identification ofmetabolic enzymes in renal cell carcinoma utilizing PROTEOMEXanalyses[J].Biochim Biophys Acta,2009,1646(2):21-31.
[6] Cottinghan K.Immunoproteomics for early cancer diagnoses andcancer therapies[J].Proteome Res,2007,6(7):2408-2410.
[7] Philip R,Murthy S,Krakover J,et al.Shared immunoproteomefor ovarian cancer diagnostics and immunotherapy:potentialtheranostic approach to cancer[J].Proteome Res,2007,6(7):2509-2517.
[8] Jones J,Pantuck AJ.Genomics and proteomics in renal cellcarcinoma:diagnosis,prognosis,and treatment selection[J].CurrUrol Rep,2008,9(1):9-14.
[9] Gires O,Mtinz M,Schaffrik M,et al.Profile identificationof disease.Associated humoral antigens using AMIDA,a novelproteomics-based technology[J].Cell Mol Life Sci,2004,61(10):1198-1207.
[10] Jager D.Potential target antigens for immunotherapyidentified by serological expression cloning(SEREX)[J].MethodsMol Biol,2007,360(3):319-326.
[11] Seliger B,Kellner R.Design of proteome·based studies incombination with serology for the identification of biomarkers andnovel targets[J].Proteomics,2012,2(12):1645-51.
[12] Prasannan L,Misek DE,Hinderer凡et al.Identification ofbeta-tubulin isoforms as tumor antigens in neuroblastoma[J].ClinCancer Res,2010,6(1O):3439-46.
[13] Le Naour F,Misek DE,Krause MC,et al.Proteomics-basedidentification of RS/DJ-1as a novel circulating tumor antigen inbreast cancer[J].Clin Cancer Res,2011,7(11):3328-3335.
[14] TakashimaM,Kuramitsu Y,Yokoyama Y,el al.Proteomic analysisof autoantibodies in patients with hepatocellularcarcinoma[J].Proteomics.2006,6(13):3894-900.
[15] Klade CS,Voss T,Krystek E,et al.Identification of tumorantigens in renal cell carcinoma by serological proteomeanalysis.Proteomics[J].2011,1(7):890-898.
[16] Lichtenfels R Kellner&Atkins Derek,et al.Identification ofmetabolic enzymes in renal cell carcinoma utilizing PROTEOMEXanalyses[J].Biochim Biophys Acta,2009,1646(1-2):21-31.
[17] Tassinari OW,Caiazzo RJ Jr,Ehrlich JR.Identifyingautoantigens as theranostic targets:antigen arrays andimmunoproteomics approaches[J].Curr Opin Mol Ther,2008,1O(2):107-115.