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          內(nèi)源性內(nèi)毒素移位在失血性休克中的作用及其分子機(jī)理研究

          作者:admin 來源:本站 發(fā)布時(shí)間: 2010-05-15 00:17  瀏覽次數(shù):
          購買進(jìn)口儀器、試劑和耗材——就在始于2001年的畢特博生物 m.kjhfd.cn

          蔣建新

          摘  要

              關(guān)于感染,尤其是內(nèi)源性感染的研究近年來在外科領(lǐng)域內(nèi)備受人們關(guān)注。目前研究表明,細(xì)菌內(nèi)毒素(ET)移位可能是臨床上感染發(fā)生率難以降低的主要原因。為了進(jìn)一步闡明內(nèi)源性ET移位在失血性休克中的作用地位及其機(jī)制,本課題從以下三方面進(jìn)行研究:1.探討休克后內(nèi)源性ET在組織內(nèi)的分布及其在休克中的作用,包括:⑴內(nèi)源性ET在肝、肺、腎組織以及循環(huán)內(nèi)的分布規(guī)律;⑵組織ET水平與器官功能損害的關(guān)系;⑶ET移位與休克時(shí)間的關(guān)系;⑷拮抗ET(殺菌/通透性增強(qiáng)蛋白,BPI)對(duì)失血性休克轉(zhuǎn)歸的影響。2. 探討休克時(shí)體內(nèi)細(xì)胞因子反應(yīng)及其與ET移位的關(guān)系,包括:⑴休克時(shí)肝、肺、腎、腸組織內(nèi)TNFα、IL-1(、IL-6 mRNA的表達(dá);⑵以TNFα為代表,探討休克對(duì)組織器官內(nèi)細(xì)胞因子釋放的影響,及其與ET移位的關(guān)系。3. 探討休克時(shí)低劑量?jī)?nèi)毒素能否發(fā)揮其損傷作用及其可能機(jī)制,包括:⑴休克家兔對(duì)低劑量LPS的反應(yīng);⑵休克時(shí)LBP/CD14 mRNA的表達(dá)及其意義。通過上述研究,以期進(jìn)一步揭示內(nèi)源性ET移位與失血性休克的內(nèi)在聯(lián)系。主要結(jié)果與結(jié)論如下:
              1、根據(jù)血漿鱟試劑測(cè)定法,首次建立了組織勻漿內(nèi)內(nèi)毒素水平的定量測(cè)定方法。
              2、本研究選用失血性休克動(dòng)物模型,首次較系統(tǒng)地觀察了休克后內(nèi)源性ET在組織器官內(nèi)的分布規(guī)律    及其與休克后相應(yīng)器官功能損害和休克預(yù)后的關(guān)系。結(jié)果表明,失血性休克能引起明顯的內(nèi)源性ET移位,且與休克持續(xù)時(shí)間密切相關(guān);容量復(fù)蘇,雖可恢復(fù)有效循環(huán)血量,改善組織灌流,但復(fù)蘇后ET移位仍持續(xù)存在,并較休克時(shí)明顯;休克時(shí)進(jìn)入體內(nèi)的ET主要分布于肝、肺、腎等組織內(nèi),其中肝臟是休克時(shí)ET最早、最主要的聚積場(chǎng)所,ET在組織內(nèi)能較長時(shí)間地保留其生物活性;休克后內(nèi)源性ET的移位與休克后器官功能損害及其預(yù)后有著一定的內(nèi)在聯(lián)系,其中分布于組織中的ET可能起著關(guān)鍵作用。
              3、本研究采用RT-PCR技術(shù),首次較系統(tǒng)地觀察了失血性休克后重要器官內(nèi)細(xì)胞因子的基因表達(dá)。結(jié)果表明,失血性休克后,肝、肺、腎、腸器官內(nèi)TNFα、IL-1?、IL-6 等細(xì)胞因子基因表達(dá)可相繼增加,其中,TNFα是休克后最先表達(dá)的細(xì)胞因子。
              4、本研究還較系統(tǒng)地探討了失血性休克后組織及循環(huán)內(nèi)TNFα水平的動(dòng)態(tài)變化。結(jié)果顯示,失血性休克后體內(nèi)產(chǎn)生的細(xì)胞因子主要分布在各組織器官內(nèi),并且在組織內(nèi)存在的時(shí)間要長于在循環(huán)中存在的時(shí)間,這說明與其內(nèi)分泌活性相比,細(xì)胞因子的旁分泌、自分泌活性在休克后器官功能損害中更具有重要的病理意義。休克后組織器官內(nèi)細(xì)胞因子的基因表達(dá)和釋放增加與休克后并發(fā)的ET移位有關(guān)。
              5、本研究進(jìn)一步在家兔失血性休克模型上證實(shí)失血性休克具有增敏門靜脈源性ET的作用。
              6、本研究采用RT-PCR和細(xì)胞原位雜交技術(shù),首次發(fā)現(xiàn)失血性休克及復(fù)蘇可上調(diào)LBP/CD14的基因表達(dá),并率先提出了休克增敏ET作用的可能機(jī)制。

          關(guān)鍵詞:失血性休克,細(xì)菌內(nèi)毒素,RT-PCR, 細(xì)胞原位雜交,TNF, IL-1, IL-6,細(xì)胞因子 mRNA, CD14 mRNA, RT-PCR,細(xì)胞原位雜交


          Role of endogenous endotoxin translocation in hemorrhagic
          shock and its molecular mechanisms

          Abstract

          Much attention has been still focused on the studies in infection, especially endogenous infection in the field of surgery research. Recently bacterial endotoxin has been shown to be a major cause for the increasing morbidity of infection in human. In order to further elucidate the role of endogenous endotoxin(ET) translocation in hemorrhagic shock and its mechanisms, the present study was performed as the following three aspects: 1. To explore the distribution of endogenous ET into organ tissues and its role in shock, including: (1) the kinetics of endogenous ET distributed into the hepatic, pulmonary and renal tissues and into the circulation, (2) correlation of ET levels in tissues with organ damage, (3) relationship of ET translocation with shock duration, and (4) effect of ET neutralization (bactericidal/permeability-increasing protein, BPI) on the outcome of hemorrhagic shock. 2. To explore cytokine response and its relationship with ET translocation following hemorrhagic shock, including: (1) expression of TNFα,IL-1β,IL-6 mRNA in the liver, lungs, kidneys, and intestine after shock, (2) release of TNFα in hepatic, pulmonary, and renal tissues and its relationship with ET translocation. 3. To explore the effect of hemorrhagic shock on low-dose endotoxin and its possible mechanism, including: (1) response of shocked rabbits to low-dose lipopolysaccharide, (2) expression of lipopolysaccharide-binding protein(LBP) and CD14 mRNA following shock and their significance. The following main results and conclusins can be obtained from the present study:
          1. Assay of ET levels in tissue homogenates was firstly established according to limulus amebocyte lysate(LAL) chromogenic assay for plasma ET determination. The results showed that the modified LAL chromogenic assay can be used to accurately quantitize the content of ET in tissue homogenates.
          2. The present study, for the first time, examined the kinetics of endogenous ET distributed into tissue organs and its relationship with organ damage and outcome of shock in an animal model of hemorrhagic shock. It was found that hemorrhagic shock could cause marked ET translocation, which was closely related to the duration of shock. Although resuscitation could restore the effective circulating volume and improve the tissue perfusion, ET translocation still existed after resuscitation, which, to some extent, was more severe. The translocated ET following shock mainly distributed into the liver, lung, kidney and so on, in which the liver was the organ for ET to earliest and mainliest accumulate following shock. The ET bio-activity in tissues could remain for long time after shock. There was certain intrinsic relationship between ET translocation and post-shock organ damage and outcome of shock, in which ET accumulated in tissues might play a key role.
          3. The present study firstly systemically examined expression of cytokine mRNA in several vital organs following hemorrhagic shock with RT-PCR. It was found that the expression of TNFα, IL-1βand IL-6 mRNA in the liver, lung, kidney and intestine could successively increased following hemorrhagic shock, in which TNFα might be the first cytokine to be expressed after shock.
          4. The present study also systemically explored the kinetics of TNFαlevels both in tissues and circulation. The results indicated that the cytokines produced after shock were mainly distributed in the tissue organs, and that the duration for TNFα present in tissues was longer than that in the circulation. It suggests that paracrine and autocrine activities of cytokines were more important for organ damage after shock when compared with their endocrine ones. Increases in mRNA expression and release of cytokines following shock might be related to ET translocation.
          5. The present study further confirmed that hemorrhagic shock could sensitize the effects of portal-derived ET on a rabbit model of hemorrhagic shock.
          6. The present study firstly discovered that hemorrhagic shock and resuscitation could up-regulate the expression of LBP and CD14 mRNA with RT-PCR and cell in situ hybridization, which might be an important mechanism for hemorrhagic shock to sensitize the effects of ET.
          Keywords: Hemorrhagic shock, RT-PCR, Cell in situ hybridization, Bacterial endotoxin, TNF , IL-1, IL-6, Cytokine mRNA, LBP, CD14

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