大黄防治胃肠黏膜屏障损伤的研究进展

临床上许多疾病的发生、发展与预后都与胃肠黏膜屏障损伤有关,机体在应激状态下,胃肠黏膜屏障功能破坏,细菌、内毒素易位入血,形成肠源性感染,引起全身炎症反应(SIRS),最终引发多器官功能障碍综合症(MODS)。肠道黏膜屏障主要由四部分组成:即肠道黏膜的机械屏障、化学屏障、生物屏障和免疫屏障。中药大黄具有通里攻下、清热解毒、活血化瘀的功用,发挥着多环节、多靶点的作用。已有研究表明:大黄对胃肠黏膜屏障各层结构均有明显保护作用,本文现将胃肠黏膜屏障损伤发生机制和大黄防治机理作一综述。     

Gut-derived endotoxin translocation is the main aggravating mechanism of acute severe pancreatitis

Severe acute pancreatitis (SAP) is a serious systemic disease. It exacerbates when complicated with multiple organ dysfunction syndrome or failure (MODS or MOF). However, the aggravating mechanism of SAP is still unknown up to now. Study showed that maintaining integrity of intestinal mucosal barrier function by given effective antibiotics, selective digestive decontamination (SDD) and enteral nutrition therapy to the patients with SAP could significantly reduce infection of pancreatic necrotic tissue and improve the patient's outcome. Combining the findings of gut-derived bacteria in animals' pancreas, liver, spleen, mesenteric lymph nodes with increasing concentration of inflammatory cytokines and endotoxin in plasma with SAP, we hypothesize that gut-derived endotoxin translocation is the main aggravating mechanism of SAP. The hypothesis holds potential as a target for therapeutic intervention.     

An overview of cytokines and heat shock response in polytraumatized patients

Early after injury, local tissue damage induces a local and systemic inflammatory response that activates the immune system and leads to the development of systemic inflammatory response syndrome (SIRS). This post-traumatic response often results in uncontrolled release of inflammatory mediators and over-activation of the immune system, which occasionally results in multiple organ dysfunction syndrome (MODS). In parallel, a state of immunosuppression develops. This counter-regulating suppression of different cellular and humoral immune functions has been termed “compensatory anti-inflammatory response syndrome (CARS).” Both SIRS and CARS occur simultaneously even in the initial phase after injury. Pro- and anti-inflammatory cytokines have been suggested to play a major role in development of SIRS, although the degree of involvement of the different cytokines is quite disparate. While TNF-α and IL-1β are quite irrelevant for predicting organ dysfunction, IL-6 is the parameter that best predicts mortality. The hyperinflammatory state seems to be the cause of post-traumatic immunosuppression and heat shock proteins (HSPs), which have been proposed as one of the endogenous stimuli for the deterioration of the immune system acting as danger-associated molecular patterns (DAMPs). Extracellular HSPA1A released from injured tissues increase up to ten times immediately after trauma and even more in patients with MODS. It has powerful immune properties that could contribute to post-traumatic immunosuppression through several mechanisms that have been previously described, so HSPs could represent trauma-associated immunomodulatory mediators. For this reason, HSPA1A has been suggested to be a helpful early prognostic biomarker of trauma after severe injury: serial quantification of serum HSPA1A and anti-Hsp70 concentrations in the first hours after trauma is proposed to be used as a predictive biomarker of MODS and immunosuppression development in polytraumatized patients.     

大承气汤对MODS时肠道细菌微生态学影响的实验研究

目的探讨多器官功能不全综合征(MODS)大鼠肠道细菌微生态的变化及其与肠源性内毒素血症和细菌易位的关系,并观察大承气汤的影响。方法32只SD大鼠随机分成4组,对照组、模型组、大承气组和氨苄青霉素组。腹腔注射无菌酵母多糖A制备大鼠MODS模型。各组动物于造模后48 h无菌操作抽取外周静脉血和门静脉血进行内毒素含量测定;取肠系膜淋巴结进行细菌定量培养,取回肠和盲肠内容物进行肠腔内游离内毒素测定;取盲肠内容物进行肠道细菌微生态学分析。结果模型组外周血和门静脉血内毒素水平以及肠腔内游离内毒素含量均明显高于对照组(P<0.05);与对照组相比,模型组肠道菌群出现明显变化。肠球菌、肠杆菌数量明显增加,而双歧杆菌和乳酸杆菌数量出现显著下降,类杆菌数量亦出现明显下降(P<0.05)。模型组厌氧菌总数明显下降而需氧菌总数明显增加,同时厌氧菌总数/需氧菌总数的比值和B/E比值呈相应下降,发生倒置(P<0.05);正常对照组未发现肠道细菌向肠系膜淋巴结的易位,而模型组细菌易位阳性率是83.33%(P<0.05)。与模型组相比,大承气汤组上述各指标均出现明显变化(P<0.05);抗生素组作用不明显(P>0.05)。结论MODS时大鼠肠道细菌微生态出现明显变化,发生肠源性内毒素血症和细菌易位。大承气汤可以调整肠道菌群,恢复肠道微生态平衡,增加机体定植抗力,防治细菌易位和内毒素血症。     

Chronic Functional Bowel Syndrome Enhances Gut-Brain Axis Dysfunction,Neuroinflammation, Cognitive Impairment,and Vulnerability to Dementia

The irritable bowel syndrome (IBS) is a common chronic functional gastrointestinal disorder world wide that lasts for decades. The human gut harbors a diverse population of microbial organisms which is symbiotic and important for well being. However, studies on conventional, germ-free, and obese animals have shown that alteration in normal commensal gut microbiota and an increase in pathogenic microbiota—termed “dysbiosis”, impact gut function, homeostasis, and health. Diarrhea, constipation, visceral hypersensitivity, and abdominal pain arise in IBS from the gut-induced dysfunctional metabolic, immune, and neuro-immune communication. Dysbiosis in IBS is associated with gut inflammation. Gut-related inflammation is pivotal in promoting endotoxemia, systemic inflammation, and neuroinflammation. A significant proportion of IBS patients chronically consume alcohol, non-steroidal anti-inflammatories, and fatty diet; they may also suffer from co-morbid respiratory, neuromuscular, psychological, sleep, and neurological disorders. The above pathophysiological substrate is underpinned by dysbiosis, and dysfunctional bidirectional “Gut-Brain Axis” pathways. Pathogenic gut microbiota-related systemic inflammation (due to increased lipopolysaccharide and pro-inflammatory cytokines, and barrier dysfunction), may trigger neuroinflammation enhancing dysfunctional brain regions including hippocampus and cerebellum. These as well as dysfunctional vago-vagal gut-brain axis may promote cognitive impairment. Indeed, inflammation is characteristic of a broad spectrum of neurodegenerative diseases that manifest demntia. It is argued that an awareness of pathophysiological impact of IBS and implementation of appropriate therapeutic measures may prevent cognitive impairment and minimize vulnerability to dementia.     

Extracellular ATP drives systemic inflammation,tissue damage and mortality

Systemic inflammatory response syndromes (SIRS) may be caused by both infectious and sterile insults, such as trauma, ischemia-reperfusion or burns. They are characterized by early excessive inflammatory cytokine production and the endogenous release of several toxic and damaging molecules. These are necessary to fight and resolve the cause of SIRS, but often end up progressively damaging cells and tissues, leading to life-threatening multiple organ dysfunction syndrome (MODS). As inflammasome-dependent cytokines such as interleukin-1β are critically involved in the development of MODS and death in SIRS, and ATP is an essential activator of inflammasomes in vitro, we decided to analyze the ability of ATP removal to prevent excessive tissue damage and mortality in a murine LPS-induced inflammation model. Our results indeed indicate an important pro-inflammatory role for extracellular ATP. However, the effect of ATP is not restricted to inflammasome activation at all. Removing extracellular ATP with systemic apyrase treatment not only prevented IL-1β accumulation but also the production of inflammasome-independent cytokines such as TNF and IL-10. In addition, ATP removal also prevented systemic evidence of cellular disintegration, mitochondrial damage, apoptosis, intestinal barrier disruption and even mortality. Although blocking ATP receptors with the broad-spectrum P2 purinergic receptor antagonist suramin imitated certain beneficial effects of apyrase treatment, it could not prevent morbidity or mortality at all. We conclude that removal of systemic extracellular ATP could be a valuable strategy to dampen systemic inflammatory damage and toxicity in SIRS.     

糖皮质激素在脓毒症治疗中的研究进展

脓毒症是由致病微生物感染引发的全身炎症反应综合征（SIRS),合并血压降低且经快速液体复苏后血压仍不能恢复正常者 称为脓毒性休克（Septic shock),其中一部分患者发展为多器官功能障碍综合症(MODS)。脓毒症病死率居高不下。每10 万人口中 约50-300 人会发生严重脓毒症,其短期死亡率达20%-25%,当发展为脓毒性休克时其死亡率达50%。整合消灭致病微生物、阻断 炎症介质和处理MODS等措施的" 集束化"治疗并未显著降低脓毒症患者的病死率。糖皮质激素具有强大的抗炎作用,但诸多 的临床研究对糖皮质激素疗效的评价褒贬不一,糖皮质激素是否有利于脓毒症的转归一直饱受争议[3]。本文仅就糖皮质激素在 严重脓毒症及脓毒性休克中的治疗进展综述如下,并希望能进一步探讨发生严重脓毒症及脓毒性休克时,机体对糖皮质激素反 应复杂性的原因,以及在以后的研究中对相对肾上腺皮质功能不全的诊断标准及对糖皮质激素用药和停药时机的选择更加明确。     

肠道菌群及内毒素在多器官功能不全综合征时的变化

目的　探讨肠道菌群及内毒素在多器官功能不全综合征( MODS)时的变化。方法　取SD大鼠,腹腔注射无菌酵母多糖A制备MODS模型,检测大鼠肠道菌群、外周血和门静脉血中的内毒素以及肠道游离内毒素含量,并进行定量分析。结果　模型组大鼠肠道专性厌氧菌的数量明显减少,革兰阴性杆菌和双歧杆菌的比例倒置,内毒素含量明显增加,与对照组比差异有显著性( P<0 .0 5 )。结论　MODS时肠道细菌微生态发生明显改变,肠道内毒素池与肠道革兰阴性杆菌的变化密切相关     

多器官功能不全综合征时肠道细菌微生态学改变的实验研究

为研究多器官功能不全综合征（ＭＯＤＳ）时肠道细菌微生态的变化以及Ｇ＾－杆菌消长与肠道和血液中内毒素水平的关系,本实验选用ＳＤ大鼠,应用无菌Ｚｙｍｏｓａｎ腹腔注射制备大鼠ＭＯＤＳ模型,并对ＭＯＤＳ大鼠肠道菌群进行定量分析,对门静脉和外周静脉血中的内毒以及肠道游离内毒素含量进行定量测定。结果发现,ＭＯＤＳ状态下肠道细菌微生态发生明显变化,表现为肠杆菌和肠球菌等肠道内需氧菌的数量明显增多,双歧杆菌和乳酸     

微生态失调与感染

微生态失调与感染的关系极为密切。引起感染的微生物不一定是致病菌或病原体,微生态失调后,正常微生物群易位或易主也可以引起感染。从微生态的视角去审视感染的发生、发展和结局,将会为感染病的防治提供新的思路。     

脓毒症诊断的生物学标志物的研究进展

脓毒症是由致病微生物感染引发的全身炎症反应综合征(SIRS),合并血压降低且经快速液体复苏后血压仍不能恢复正常者称为脓毒性休克(Septic shock),其中一部分患者发展为多器官功能障碍综合症(MODS)。由于目前临床上仍缺乏早期敏感性诊断手段,脓毒症病死率居高不下。每10万人口中约50-300人会发生严重脓毒症,其短期死亡率达20%-25%,当发展为脓毒性休克时其死亡率达50%。随着分子生物学和现代生物技术的不断发展,人们发现多种生物标志物在脓毒症的早期诊断、病情及预后判断,疗效评估中发挥重要作用。因此深入了解脓毒症病理生理机制中不同生物标志物的意义及价值,对于脓毒症及其并发症的早期识别及干预,降低患者病死率及改善患者生活质量有积极意义。本文综述了近几年来对脓毒症的诊断和预后有一定价值的主要标志物及其应用。     

Western blot analysis of bile or intestinal fluid from patients with septic shock or systemic inflammatory response syndrome, using antibodies to TNF-alpha, IL-1 alpha and IL-1 beta

Septic shock or systemic inflammatory response syndrome (SIRS) often develops in patients following burns, traumatic injury, surgery or biliary obstruction. Although the inflammatory cytokines TNF-alpha and IL-1 have been strongly implicated in the development of these syndromes, treatment of patients by the systemic administration of inhibitors of TNF-alpha or IL-1 has shown limited effectiveness. Recent reports suggest that septic shock may be perpetuated by inflammatory cytokines secreted by the liver in response to bacterial translocation resulting from cytokine-induced gastrointestinal damage. The present study sought to demonstrate the presence of high levels of inflammatory cytokines in the bile or small intestine of patients suffering from septic shock or SIRS, with a view to the development of strategies for the reduction of gastrointestinal damage through intraduodenal administration of cytokine inhibitors. Western blot analysis of human bile or intestinal fluid using anti-TNF-alpha antibodies resulted in the detection of a number of bands in samples from patients with septic shock or SIRS. However, these proteins differed antigenically from human recombinant TNF-alpha (rTNF-alpha) and showed no activity in a biological assay for TNF-alpha. Antibodies to IL-1 alpha and IL-1 beta detected several strong bands, some of which appeared to be identical to recombinant IL-1 alpha and IL-1 beta. It is concluded that proteins resembling several known inflammatory cytokines are present in the bile and intestine of septic shock patients, but it is suggested that further work is required to determine the nature and function of these molecules.     

Probiotics and the Gut Immune System: Indirect Regulation

The gastrointestinal tract (GIT) represents the largest interface between the human organism and the external environment. In the lumen and upper part of the mucus layer, this organ hosts an enormous number of microorganisms whose composition affects the functions of the epithelial barrier and the gut immune system. Consequentially, the microorganisms in the GIT influence the health status of the organism. Probiotics are living microorganisms which, in specific conditions, confer a health benefit to the host. Among others, probiotics have immunomodulatory properties that usually act directly by (a) increasing the activity of macrophages or natural killer cells, (b) modulating the secretion of immunoglobulins or cytokines, or indirectly by (c) enhancing the gut epithelial barrier, (d) altering the mucus secretion, and (e) competitive exclusion of other (pathogenic) bacteria. This review focuses on specific bacteria strains with indirect immunomodulatory properties. Particularly, we describe here the mechanisms through which specific probiotics enhance the gut epithelial barrier and modulate mucus production. Moreover, we describe the antimicrobial properties of specific bacteria strains. Recent data suggest that multiple pathologies are associated with an unbalanced gut microflora (dysbiosis). Although the cause-effect relationship between pathology and gut microflora is not yet well established, consumption of specific probiotics may represent a powerful tool to re-establish gut homeostasis and promote gut health.     

口腔微生态与干燥综合征相关性研究进展

干燥综合征是一种炎性细胞侵犯外分泌腺体的慢性自身免疫疾病,口干是其最常见的症状。伴随着干燥综合征患者口腔内微环境的改变,口腔各种微生物之间及微生物与宿主之间的平衡被打破,进而出现口腔微生态失调。口腔微生态失调与自身免疫疾病关系密切,其不仅是疾病所导致的结果,也可能是疾病进一步发展的原因。目前研究认为干燥综合征患者口腔微生态失调与唾液微环境的改变及口腔黏膜免疫受损存在密切的关系,本文对口腔微生态与干燥综合征关系的新近研究进展进行综述。     

纳米党参合剂调整肠道微生态失衡防治多器官功能障碍综合征的研究

目的研究纳米党参合剂通过调整菌群失调,修复肠屏障功能,控制细菌、内毒素易位,对多器官功能障碍大鼠肠源性感染及内毒素血症(IETM)进行防治。方法采用肠缺血再灌注的方法制造多器官功能障碍综合征(MODS)模型,分别以纳米中药、常态中药对动物进行灌胃治疗。取肠内容物做无菌培养,内毒素、sIgA的测定,CD4+、CD8+T细胞计数。结果各治疗组通过扶植肠道有益菌、抑制有害菌的生长繁殖并促进其排泄,保护肠黏膜屏障,明显降低细菌易位,控制内毒素血症,改善相关免疫指标。结论党参合剂从调整微生态失调的角度来防治MODS取得较好效果,纳米中药效果更佳。     

Differential calcium response in HeLa and HeLa-Fas cells by cytotoxic T lymphocytes

We constructed a CD95 overexpressing HeLa cell line which was extremely sensitive towards CD95 mediated apoptosis. In these CD95 overexpressing cells, CD95 blocks the nuclear calcium signal induced by perforin positive and CD95 ligand positive killer cells. This phenomenon is highly relevant in states of inflammatory syndromes such as systemic inflammatory response syndrome (SIRS) and sepsis which are associated with a high probability to reactivate latent viruses due to a functional deficiency of cytotoxic effectors.     

党参合剂对多器官功能障碍综合征菌群失调及免疫功能的调整

目的研究党参合剂通过调整菌群失调,修复肠屏障功能,控制细菌、内毒素易位,提高机体免疫力,对多器官功能障碍大鼠肠源性感染及内毒素血症(IETM)进行防治。方法采用肠缺血再灌注的方法制造多器官功能障碍综合征(MODS)模型,分别以党参合剂、丽珠肠乐对动物进行灌胃治疗。取肠内容物、肝、脾、肠系膜淋巴结,门静脉血,分别做无菌培养,内毒素及sIgA的测定。结果各治疗组通过扶植肠道有益菌、抑制有害菌的生长繁殖并促进其排泄,保护肠黏膜屏障,明显降低了细菌易位,控制内毒素血症,改善了相关免疫指标。结论党参合剂从调整微生态失调的角度来防治MODS取得较好效果,优于丽珠肠乐。     

Cutting edge: an endogenous pathway to systemic inflammatory response syndrome (SIRS)-like reactions through Toll-like receptor 4

Systemic inflammatory response syndrome (SIRS) is typically associated with trauma, surgery, or acute pancreatitis. SIRS resembles sepsis, triggered by exogenous macromolecules such as LPS acting on Toll-like receptors. What triggers SIRS in the absence of infection, however, is unknown. In this study, we report that a SIRS-like response can be induced in mice by administration of soluble heparan sulfate, a glycosaminoglycan associated with nucleated cells and extracellular matrices, and by elastase, which cleaves and releases heparan sulfate proteoglycans. The ability of heparan sulfate and elastase to induce SIRS depends on functional Toll-like receptor 4, because mutant mice lacking that receptor or its function do not respond. These results provide a molecular explanation for the initiation of SIRS.     

Aging reverses the role of the transient receptor potential vanilloid-1 channel in systemic inflammation from anti-inflammatory to proinflammatory

Studies in young rodents have shown that the transient receptor potential vanilloid-1 (TRPV1) channel plays a suppressive role in the systemic inflammatory response syndrome (SIRS) by inhibiting production of tumor necrosis factor (TNF)α and possibly by other mechanisms. We asked whether the anti-inflammatory role of TRPV1 changes with age. First, we studied the effect of AMG517, a selective and potent TRPV1 antagonist, on aseptic, lipopolysaccharide (LPS)-induced SIRS in young (12 wk) mice. In agreement with previous studies, AMG517 increased LPS-induced mortality in the young. We then studied the effects of TRPV1 antagonism (AMG517 or genetic deletion of TRPV1) on SIRS in middle-aged (43–44 wk) mice. Both types of TRPV1 antagonism delayed and decreased LPS-induced mortality, indicating a reversal of the anti-inflammatory role of TRPV1 with aging. In addition, deletion of TRPV1 decreased the serum TNFα response to LPS, suggesting that the suppressive control of TRPV1 on TNFα production is also reversed with aging. In contrast to aseptic SIRS, polymicrobial sepsis (induced by cecal ligation and puncture) caused accelerated mortality in aged TRPV1-deficient mice as compared with wild-type littermates. The recovery of TRPV1-deficient mice from hypothermia associated with the cecal ligation and puncture procedure was delayed. Hence, the reversal of the anti-inflammatory role of TRPV1 found in the aged and their decreased systemic inflammatory response are coupled with suppressed defense against microbial infection. These results caution that TRPV1 antagonists, widely viewed as new-generation painkillers, may decrease the resistance of older patients to infection and sepsis.     

益生芽胞杆菌肠道微生态学研究进展

芽胞杆菌作为微生态制剂的一种重要来源细菌,在维护人和动物肠道健康、促进微生态平衡方面起着重要的作用。但是对于益生芽胞杆菌的作用机制却知之甚少。近年来,人们对芽胞杆菌在肠道微生物调控方面做了大量的基础研究,随着芽胞杆菌肠道分子微生态学研究的不断深入,人们发现芽胞杆菌的芽孢能够在体内迅速萌发增殖,从而起到免疫促进、改善肠道菌群以及相关的代谢酶活性等生理作用。本文从芽胞杆菌在胃肠道中的分布与定植、芽胞杆菌在胃肠道中的增殖以及芽胞杆菌与肠道菌群之间的关系等三个方面综述了益生芽胞杆菌对肠道微生态的调控作用的最新研究进展,为指导芽胞杆菌作为微生态制剂机制研究和应用提供一定的理论参考。