Mipu1基因在内毒素血症小鼠组织中的表达研究

Mipu1是本研究室首次克隆的一个核转录因子,其在内毒素血症中的表达改变情况目前尚不清楚.本研究采用real-time PCR方法检测了Mipu1基因在内毒素血症(12 mg/kg,2 h)小鼠心、肝、肺、脾、脑、肠和骨骼肌7个器官组织中的表达改变.结果发现,LPS(12 mg/kg,2 h)处理可促进小鼠肺和脾组织中Mipu1基因表达增高;但可抑制小鼠心、肝、脑、肠和骨骼肌组织中Mipu1基因的表达.Mipu1基因在内毒素血症小鼠各器官中表达的改变可能与其在内毒素血症中的生物学功能密切相关.     

胆红素对急性肺损伤大鼠肺血管内皮细胞核因子κB,细胞间粘附分子1表达的影响

目的探讨胆红素对急性肺损伤(ALI)的对抗作用及其对肺血管内皮细胞核因子-κB和细胞间粘附分子1表达的影响.方法用雄性Wistar大鼠(200-250g)30只,随机分为正常对照组、ALI动物模型组(用内毒素制造模型)、胆红素干预组.采用原位杂交技术半定量法和免疫组织化学染色测定肺血管内皮细胞中细胞间粘附分子-1(ICAM-1)mRNA和核因子κB (NF-κB)蛋白的表达.结果 (1)ALI模型组肺血管内皮细胞ICAM-1mRNA表达和NF-κB核染色阳性细胞百分比与正常对照组比较显著升高,(P<0.001);(2)胆红素干预组ICAM-1mRNA表达和NF-κB染色阳性细胞百分比与模型组相比明显减低,(P<0.001、P<0.01),但与正常对照组比较仍较高(P<0.05).结论 ICAM-1和NF-κB在ALI显著增加,胆红素可以抑制ALI动物NF-κB和ICAM-1mRNA的表达,可能是其对抗急性肺损伤的作用机制之一.     

热休克因子1对内毒素所致G-CSF基因表达的影响

为探讨热休克因子1(heatshockfactor 1,HSF1)活化和过表达对内毒素(endotoxin ,ET)所致粒细胞集落刺激因子(granulocyte colonystimulatingfactor,G CSF)基因表达的影响,采用大肠杆菌内毒素即脂多糖(lipopolysaccharide ,LPS)处理RAW2 6 4 7巨噬细胞,并通过热休克预处理诱导HSF1活化,采用Western印迹检测HSP70的表达观察HSF1的活化情况,RT PCR检测热休克反应(heatshockresponse ,HSR)对G CSFmRNA表达的影响;构建HSF1的pcDNA3 1真核表达质粒,采用脂质体转染法建立HSF1过表达RAW 2 6 4 7巨噬细胞株,用免疫细胞化学和Western印迹观察HSF1的表达,RT- PCR及Northern印迹进一步研究HSF1对G CSF基因表达的可能影响.发现LPS诱导巨噬细胞中G- CSFmRNA表达增多,并随时间的延长,表达量逐渐增加;与单纯内毒素处理组相比,热休克预处理后,LPS诱导的巨噬细胞G- CSFmRNA的表达明显被抑制;建立的稳定表达HSF1的RAW 2 6 4 7细胞株中有HSF1蛋白的核移位;HSF1过表达可明显抑制LPS诱导的RAW2 6 4 7巨噬细胞G -CSFmRNA的表达.上述结果表明热休克预处理能抑制LPS诱导的巨噬细胞G- CSFmRNA的表达;HSF1过表达可抑制内毒素诱导的巨噬细胞G CSFmRNA的表达.     

急性肺损伤大鼠肺组织高迁移率族蛋白1的表达及其意义

目的动态观察高迁移率族蛋白1（HGMB1）在失血性休克复合内毒素注射致急性肺损伤（ALl）大鼠肺组织的表达情况,初步探讨HMGB1在ALI发病机制中的作用。方法采取失血性休克复合内毒素注射手段建立ALl大鼠动物模型,采用RT-PCR方法,检测肺组织HMGB1mRNA的表达情况。结果正常大鼠肺组织有少量HMGBlmRNA表达,遭受失血性休克复合内毒素注射打击后,HMGB1mRNA表达迅速升高,至ALI24h达最高峰,随后有所下降,ALl各组大鼠表达水平与正常对照组比较差异均有统计学意义（P〈0．01）。结论正常大鼠肺组织有一定水平HMGBlmRNA的表达,遭受失血性休克及内毒素注射打击后,HMGBlmRNA表达异常增高,可引起过度炎症反应,从而促进ALI的发生与发展。     

HSF1基因剔除对HSR抗内毒素血症的影响

利用内毒素(LPS)血症小鼠模型,观察HSF1基因剔除对热休克反应(HSR)保护作用的影响.采用腹腔注射LPS建立内毒素血症小鼠模型,HSR采用肛温42℃维持15 min,室温恢复24 h,利用RT-PCR、苏木素-伊红(HE)染色、丙二醛测定以及死亡率,计算和分析重要脏器组织中炎症介质基因的表达、脏器损伤程度及小鼠存活率.注射LPS 15mg/kg 72 h后HSR LPS(HSF1 / )组存活率(7/15)显著高于LPS(HSF1 / )组(0/15)、LPS(HSF1-/-)组(0/14)和HSR LPS(HSF1-/-)组(0/14),而注射LPS 14 mg/kg 72 h后,LPS(HSF1 / )组存活率(5/15)显著高于LPS(HSF1-/-)组(0/13)和HSR LPS(HSF1-/-)组(0/13).在注射LPS 12 h后LPS(HSF1 / )组、LPS(HSF1-/-)组和HSR LPS(HSF1-/-)组的心、肺组织丙二醛含量显著升高,但HSR LPS(HSF1 / )组不升高.肺组织炎症介质基因IL-IB、IL-6、TNF-α、CCL-2、SOCS3、MCSF、GCSF、IL-15在LPS(HSF1-/-)组和LPS(HSF1 / )组表达上调,HSR LPS(HSF1-/-)组除IL-15较低外其他上调更甚,HSR LPS(HSF1 / )组除IL-1β和TNF-α较高外其他显著下调.注射LPS后LPS(HSF1 / )组和LPS(HSF1-/-)组的肺、肝、肾病理形态改变明显,HSR LPS(HSF1 / )组改变较轻,HSR LPS(HSF1-/-)组改变更加严重.HSF1基因剔除能显著消减HSR对内毒素血症小鼠的保护作用.     

甘草酸二铵脂质配位体抑制内毒素引起的急性肺损伤中炎性细胞浸润及细胞间连接蛋白的降解

目的探讨甘草有效成分甘草酸二铵脂质配位体(diammonium glycyrrhizinate lipid ligand,DGLL)对内毒素(lipopolysaccharide,LPS)诱发的肺损伤和肺水肿的改善作用及其机制。方法本研究利用腹腔给入LPS(10mg/kg)建立大鼠急性肺损伤(acute lung injury,ALI)模型,在LPS诱导前1小时灌胃给入DGLL(30、60、120mg/k g)。在LPS诱导6小时后,用HE组织学染色方法评价肺损伤,用肺湿干重比、肺泡灌洗液蛋白含量检测和肺组织伊文思蓝渗出法综合评价肺水肿,用ELISA方法检测肺组织中炎性因子和粘附分子含量,用免疫组织化学染色方法检测肺组织白细胞浸润标志物髓过氧化物酶(myeloperoxidase,MPO)的表达,用Western blot方法检测炎症相关蛋白以及肺微血管通透性相关蛋白水平。结果 DGLL前给药可以显著抑制LPS诱导的肺组织损伤,降低LPS诱导的MPO免疫反应性增强,降低肺组织中炎性因子TNF-α、IL-6和粘附分子ICAM-1的表达;同时,DGLL可以抑制LPS诱导的肺水肿、降低肺泡灌洗液中的蛋白含量以及肺组织伊文思蓝的渗出;抑制血管内皮钙黏蛋白(vascular endothelial cadherin,VE-cadherin)和ZO-1、Occludin、JAM-1等紧密连接蛋白的降解。结论 DGLL对LPS诱导的大鼠ALI具有明显的抑制作用,其作用机制与抑制炎性细胞的浸润以及细胞间连接蛋白的降解相关。该结果为D GLL在临床治疗ALI提供了新的理论依据。     

热休克蛋白HSP70在LPS诱导急性肺损伤中的表达

目的检测内毒素诱导急性肺损伤中热休克蛋白70的表达状况,探讨HSP70在急性肺损伤中的作用机制。方法在LPS致Wistar大鼠急性肺损伤动物模型上,采用免疫组织化学(SABC法)和蛋白印迹实验研究各组动物肺组织中HSP70的表达情况。结果LPS处理后1h,大鼠的支气管粘膜上皮及肺泡上皮细胞HSP70的表达与正常对照组相比明显增多,2h的表达达到高峰,6h后与对照组水平一致。Western blot结果显示,LPS处理2h、4h时,HSP70的表达较对照组明显增强。结论LPS诱导的急性肺损伤中可引起支气管、细支气管和肺泡上皮细胞HSP70应激性表达,提示HSP70对肺损伤起保护作用。     

肠缺血/再灌注损伤后白介素1-β水平与磷脂酶A2激活的关系

为了探讨肠缺血/再灌注损伤后IL-1β基因表达和蛋白含量变化与磷脂酶A2抑制之间的关系,采用大鼠肠缺血/再灌注损伤模型,在对照组,损伤组和磷脂酶A2抑制剂处理组动物中收集血清,肺灌洗液,腹腔灌洗液及全身重要脏器组织样品,采用放射免疫法测定IL-1β含量,并且RT-PCR法测定肺组织中IL-1β和Ⅱ型PLA2基因表达,结果表明,损伤后6h血清中IL-1β含量明显高于对照组;损伤后1和3h,腹腔注保IL-1β也明显高于对照组;损伤后肝组织中IL-1β水平有明显增加,而肺,肾、肠组织中IL-1β没有明显变化。损伤后肺灌洗液中IL-1β也明显高于对照组水平,肺组织中IL-1βmRNA表达增加,而Ⅱ型PLA2mRNA在损伤后表达反而有所下降,采用磷脂酶A2抑制剂氯喹,环氧化物酶抑制剂消炎痛,血小板活化因子受体阻断剂SR27417后,IL-1β蛋白和基因表达有不同的改变,提示肠缺血/再灌注损伤后一定时间内,肝内IL-1βmRNA表达和血中IL-1β水平明显增高,但是否与磷脂酶A2激活或其代谢产物的释放有关尚需进一步证明。     

脂多糖和石墨粉诱导小鼠急性肺损伤病理形态学比较

目的通过比较脂多糖（LPS）和石墨粉颗粒分别诱导小鼠急性肺损伤的病理形态学差异,探讨不同来源细颗粒物成分导致急性肺损伤的可能机制。方法将140只SPF级18~20 g雄性KM小鼠随机分为7组,除正常对照组外其他组经气管内分别滴注LPS溶液及石墨粉混悬液制备急性肺损伤小鼠。记录各组动物死亡率,光镜和透射电镜下观察各组小鼠不同时间点肺组织病理变化。Western Blot检测肺组织中NE的蛋白表达,实时定量PCR法检测肺组织中MCP-1的mRNA表达。结果与正常对照组相比,G（石墨粉）组和L（LPS）组均有不同程度病理学改变,G组小鼠肺部有大量巨噬细胞渗出,L组小鼠肺部渗出物以中性粒细胞为主;肺组织中NE蛋白表达均高于正常对照组（P〈0.05）,且L组与G组之间差异有显著性（P〈0.05）;肺组织中MCP-1mRNA表达均高于正常对照组（P〈0.01）,且L组与G组之间也有显著差异（P〈0.01）。结论不同来源颗粒物引起肺部的病理损伤不同,可能引起炎症反应的机制也存在差异,即成分复杂的细颗粒物导致急性肺损伤的机制可能存在混合性。     

牛乳源金黄色葡萄球菌EsxA蛋白的表达及免疫原性分析

为分析牛乳源金黄色葡萄球菌(Staphylococcus aureus)EsxA蛋白的免疫原性,构建EsxA-p ET-28a重组表达质粒,重组质粒经诱导表达后进行SDS-PAGE和Western blotting鉴定。用纯化后重组EsxA蛋白免疫小鼠,用间接ELISA检测免疫小鼠血清中的IgG、IgG1和IgG2a水平;免疫小鼠经S.aureus菌株攻击后,检测小鼠肝、脾、肾组织荷菌数和免疫保护率,观察S.aureus菌株攻击后小鼠肝、脾、肾病理组织学变化。结果表明,成功诱导表达了EsxA重组蛋白,该重组蛋白免疫小鼠后血清抗体效价可达1∶900,与对照相比,重组蛋白免疫后可减少小鼠肝、脾、肾组织的荷菌数,减轻这些脏器的病理损伤,对免疫小鼠保护率达75%。上述结果表明,该重组Esx A蛋白具有良好的免疫原性。     

Endotoxaemia in rats: role of leukocyte sequestration in rapid pulmonary nitric oxide synthase-2 expression.

Nitric oxide (NO), depending on the amount, time and source of generation may exert both, protective and deleterious actions during endotoxic acute lung injury (ALI). Evaluation of the expression and localization of NOS isoforms in the lung of lipopolysaccharide (LPS)-treated rats may contribute to understanding the role of NO in pathogenesis of ALI. Tissue samples (lung, heart, liver, kidney and spleen) as well as peripheral blood polymorphonuclear cells (PMNs) were collected from control male Wistar rats and LPS - treated animals, 15, 30, 60, 120 and 180 min after LPS injection (2 mg kg(-1) min(-1) for 10 minutes, i.v.). Levels of NOS-2 and NOS-3 mRNA and protein in tissues and PMNs were estimated by RT-PCR, Northern blotting and Western blotting. Additionally, myeloperoxidase (MPO) activity in tissue samples was assayed. NOS-3 mRNA as well as protein were detected in lungs of control animals; pulmonary NOS-3 expression was not influenced by LPS. The induction of NOS-2 mRNA in rat lungs and in PMNs isolated from peripheral blood was observed 15 minutes after LPS challenge. In contrast, increase of NOS-2 mRNA in the heart, kidneys, liver and spleen was observed 2-3 hours after LPS injection. In all tissues rise in NOS-2 mRNA was followed after 1-2 hours by increase of NOS-2 protein. Importantly, progressive leukocyte sequestration in the lung parenchyma that started as early as 15 min after LPS injection was revealed only in the lungs; in other organs no significant changes in MPO activity were detected up to 180 min after LPS injection. In conclusion, infusion of LPS caused much more rapid expression of NOS-2 in lungs as compared to the heart, kidneys, liver and spleen. Early induction of NOS-2 may depend on the LPS-stimulated rapid neutrophil sequestration within lung vasculature and fast induction of NOS-2 in sequestrated neutrophils.     

肝细胞生长因子mRNA在成年小鼠和人胎儿不同器官中的表达

本实验从成年小鼠和胎龄４－５月的人胎儿不同器官中分离总ＲＮＡ。经斑点印迹分析显示,肝细胞生长因子（ＨＧＦ）ｍＲＮＡ在成年ＫＭ小鼠多种器官中表达,其表达水平由高到低依次为：肺、肝、肾、卵巢、睾丸、大脑和胃;在脾、心、骨髓、小肠和骨骼肌组织中以ＨＧＦｍＲＮＡ。在胎龄４－５月的人胎儿中,ＨＧＦｍＲＮＡ表达水平由高到低依次为：大脑、肝、腮腺、胃、小肠、肾、心和骨骼肌;肺和脾组织为阴性。由此可见,ＨＧＦ在成     

Induction of Src-suppressed C kinase substrate (SSeCKS) in vascular endothelial cells by bacterial lipopolysaccharide.

We isolated cDNA of the mouse homologue of the src-suppressed C kinase substrate (SSeCKS) and analyzed the effects of lipopolysaccharide (LPS) injection on the tissue expression pattern of this protein. Northern blotting analysis showed that SSeCKS mRNA was expressed abundantly in the testis but at undetectable levels in other tissues of untreated control mice. Intraperitoneal administration of LPS strongly induced SSeCKS mRNA expression in the lung, heart, liver, spleen, kidney, lymph node, adrenal gland, and pituitary gland, as well as in the brain. In lung and spleen, the SSeCKS mRNA levels increased almost 10-fold at 1 hr after LPS injection and persisted at high levels until 4 hr. Both in situ hybridization and immunohistochemical studies revealed that LPS administration conspicuously elevated expression of SSeCKS mRNA and protein in vascular endothelial cells of several organs. Ectopic expression of SSeCKS caused loss of cytoplasmic F-actin fibers in the mouse endothelial cell line LEII. These results indicate that SSeCKS is one of the major LPS-responsive proteins and may participate in alteration of cytoskeletal architecture in endothelial cells during inflammation.     

High expression of the mRNA of cytochrome P450 and phase II enzymes in the lung and kidney tissues of cattle

The objective of this study was to investigate the tissue-specific mRNA expression of different cytochrome P450 (CYP) isoforms, UDP glucuronsyl transferase 1A1 (UGT1A1) and glutathione-S-transferase (GSTA1) in the different tissues (liver, mammary gland, lungs, spleen, kidney cortex, heart, masseter muscle and tongue) of cattle, using quantitative real-time polymerase chain reaction (qPCR). CYP1A1-like mRNA was expressed in all of the tissues examined, including the liver, with the highest expression level in the kidney. CYP1A2-, 2E1- and 3A4-like mRNAs were only expressed hepatically. Interestingly, significant expression of CYP2B6-like mRNA was recorded in the lung tissue, while CYP2C9-like mRNA was expressed in the liver and kidney tissues of the cattle examined. UGT1A1- and GSTA1-like mRNAs were expressed in all of the examined tissues, except the mammary glands, and the highest expression levels were recorded in the kidney. The high expression of UGT1A1 in the lung tissue and GSTA1 in the liver tissue was unique to cattle; this has not been reported for rats or mice. The findings of this study strongly suggest that the liver, kidneys and lungs of cattle are the major organs contributing to xenobiotics metabolism.     

不同日龄大白猪视黄酸受体α基因组织表达

研究采用RT-PCR方法对大白猪的视黄酸受体α基因在1日龄、90日龄、180日龄、270日龄和360日龄的心、肝、胃、脾、肾、肺、大肠、小肠、肌肉、子宫、卵巢共11个组织的表达情况进行了研究。结果表明,RARαmRNA在肝、脾、肾、大肠、小肠、子宫和卵巢中持续表达,其中脾、大肠和小肠是持续高表达;180日龄时,所有组织的RARαmRNA的表达量普遍降低;360日龄时,所检的11个组织均高水平表达该基因。     

Modulation of the chemokines KC and MCP-1 by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) in mice

Activation of the aryl hydrocarbon receptor (AhR) by TCDD may lead to the induction of proinflammatory cytokines in various cell types and organs such as liver leading to active chronic inflammation. Here we studied the expression of the chemokines keratinocyte chemoattractant (KC) and monocyte chemoattractant protein 1 (MCP-1) in different organs of mice after exposure to TCDD. TCDD exposure led to an early and clear induction of KC in liver and spleen on day 1 which was sustained over a period of 10 days. The level of MCP-1 mRNA was induced by TCDD on day 1 in spleen, lung, kidney, and liver, which was further increased at day 7. Increase of KC and MCP-1 at day 7 in liver, thymus, kidney, adipose, and heart was associated with elevated levels of the macrophage marker F4/80, indicating the infiltration of macrophages in these organs. Induction of KC requires a functional AhR since mice with a mutation in the AhR nuclear localization domain (AhR(nls)) were found to be resistant to TCDD-induced expression of KC. These results are the first showing the induction of the chemokines KC and MCP-1 in multiple organs of mice associated with an increase of the macrophage marker F4/80 indicating the involvement in TCDD's inflammatory response like infiltration of macrophages.     

Effect of bacterial lipopolysaccharide on the content of lipid peroxidation products in lungs and other organs of mice

The influence of lipopolysaccharide fromEscherichia coli (LPS, 17 mg/kg body weight) on the lipid peroxidation process in organs of mice was studied. The content of conjugated dienes (CD), lipid peroxides (LP), malondialdehyde (MDA) (all three lipid peroxidation by-products), peroxidase (PO) activity and wet-to-dry weight ratio in lungs, heart, spleen, kidneys and liver were determined 1.5 h after intravenous injection of LPS. Animals observed at this time-point had reduced activity and decreased body temperature by about 2°C, however, all analysed organs did not reveal any changes of wet-to-dry weight ratio comparing to organs from mice injected with sterile, pyrogen free 0,9% NaCl. Only extracts from heart and lungs showed significant increase in the tissue level of at least two lipid peroxidation products. The heart content of CD, MDA, and LP was about 1.5-, 1.3-, and 2.4-fold higher than in control group. In lungs CD and MDA increased 3.3- and 1.3-times but in spleen only content of LP was elevated. In these organs the suppression of PO activity was also observed. Liver and kidneys did not reveal any convincing enhancement of lipid peroxidation process and alterations of PO activity. Since free radical reactions are involved in lipid peroxidation process and inactivation of PO these results suggest that heart, lungs and spleen are the organs mostly exposed to oxidative stress during the first 1.5 h after single injection of LPS in mice.Abbreviations CD conjugated dienes - LP lipid peroxides - LPS lipopolysaccharide - MDA malondialdehyde - PMNL polymorphonuclear leukocytes - PO peroxidase - TBA thiobarbituric acid     

Expression profiles of Toll-like receptors 1, 2 and 5 in selected organs of commercial and indigenous chickens

Toll-like receptors (TLRs) are members of the cellular receptors that constitute a major component of the evolutionary conserved pattern recognition system (PRR). TLRs are expressed in a wide variety of tissues and cell types. In this study we compared the expression profiles of the chicken TLR1, TLR2 and TLR5 genes in a range of organs (lung, ovary, liver, thymus, duodenum, spleen and large intestine) in commercial Hy-Line (HL) and indigenous Green-legged Partridgelike (GP) chickens. The level of mRNA was determined with RT-qPCR using the TaqMan probes for target and reference (ACTB) genes. We determined that the tissue profiles differed with respect to each TLR and they were ranked as follows: spleen, lungs, large intestine (TLR1), large intestine, lungs, thymus/ovary (TLR2) and lungs, thymus, liver (TLR5). A differential expression between HL and GP chickens was determined for TLR1 and TLR5 genes in large intestine and thymus of HL (P?<?0.05) and GP (P?<?0.05) chickens. We conclude that the commercial chickens expressed higher levels of TLR1 mRNA in large intestine and TLR5 mRNA in thymus than indigenous chickens.     

Cadmium-induced mRNA expression of Hsp32 is augmented in metallothionein-I and -II knock-out mice

Cadmium is toxic and carcinogenic to humans and animals. The testis and lung are the target organs for cadmium carcinogenesis. Heat shock proteins (HSPs) as well as metallothionein (MT) and glutathione (GSH) play an important role in protection against its toxicity. HSP32, also known as heme oxygenase-1, is a 32-kDa protein induced by heme, heavy metals, oxidative stresses, and heat. We investigated expression of the Hsp32 gene of various organs (the liver, lung, heart, stomach, kidney, and testis) in transgenic mice deficient in the MT-I and -II genes (MT-KO) and in control mice (MT-W) after an injection of cadmium chloride (CdCl2). Survival of MT-W mice after a subcutaneously injection of CdCl2 was higher than that of MT-KO mice, while no significant difference was observed in the level of GSH in each organ between MT-W and MT-KO mice. Northern blot analysis showed that the MT-I mRNA was more extensively induced in the liver, kidney, and heart than other organs 6 h after an injection of CdCl2 (30 micromol/kg body wt, sc). There was little increase of the MT-I mRNA in the testis when induced by CdCl2. Expression of the Hsp32 gene in the liver and kidney in response to CdCl2 was more extensively augmented in MT-KO mice than in MT-W mice. In the lung and testis, there was little induction and no augmentation in expression of the Hsp32 gene induced by CdCl2 in both MT-W and MT-KO mice. In the stomach, there was little induction of the Hsp32 mRNA in MT-W mice, but was increased in MT-KO mice. Immunohistochemical staining revealed that the HSP32 protein was strongly expressed in the kidney and liver of MT-W mice 24 h after an injection of CdCl2 (20 micromol/kg body wt, sc), while the expression of HSP32 protein was not increased in the testis. In metabolically active organs such as the liver and kidney, expression of the Hsp32 gene as well as the MT-I gene was extensively induced by cadmium in MT-W mice, and more eminently induced in MT-KO mice. We suggest that organs of low stress response to cadmium such as the testis and lung may be vulnerable target sites for cadmium toxicity and carcinogenesis.