NODs信号通路在RAW264.7细胞抗烟曲霉菌刺激中的作用

【目的】通过培养RAW264.7细胞,并运用siRNA沉默NOD2基因来研究NODs信号通路在体外抗烟曲霉中的作用。【方法】体外培养RAW264.7细胞,接种2×105个/孔细胞于六孔板中,分为正常对照组(N)和正常沉默组[NOD2(RNAi),正常+烟曲霉孢子刺激组(N+Af)和正常沉默+烟曲霉孢子刺激组[NOD2(RNAi)+Af],每组三复孔。通过RT-PCR法检测细胞中NOD1、NOD2、RIP2 mRNA表达;Western blot法检测细胞中分泌蛋白TNF-α表达。【结果】与N组比较,N+Af组NOD1、NOD2 mRNA和TNF-α蛋白表达显著上升。与阴性对照组(Nctrol)相比,NOD2(RNAi)组NOD2 mRNA表达明显受到抑制,沉默效果达到80%以上,说明RAW264.7细胞中NOD2基因被成功沉默。与NOD2(RNAi)组比较,NOD2(RNAi)+Af组NOD1、RIP2 mRNA和TNF-α蛋白表达小幅上升,但无显著性差异(P>0.05)。与NOD2基因沉默前比较发现:与N组比较,NOD2(RNAi)组,TNF-α蛋白表达显著性升高(P<0.05)。与N+Af组比较,NOD2(RNAi)+Af组,TNF-α蛋白显著性降低(P<0.05);NOD1、RIP2 mRNA在各组中表达均未见显著性差异。【结论】NODs信号通路在RAW264.7细胞抗烟曲霉中发挥作用,尤以NOD2的作用较突出。     

红景天苷对脂多糖诱导小鼠巨噬细胞炎性介质分泌的影响

本文旨在探讨红景天苷(salidroside,Sal)对脂多糖(lipopolysaccharide,LPS)诱导小鼠巨噬细胞系J774.1炎性活化的影响及其可能机制。J774.1细胞分为PBS对照组、LPS(0.5μg/m L)刺激组和不同剂量(5、25、125μg/m L)Sal预处理+LPS组。CCK-8比色法检测细胞活性,ELISA测定培养上清中TNF-α、MCP-1和MIP-2含量,硝酸还原酶法测定上清中NO含量,RT-PCR检测细胞i NOS m RNA表达,Western blot检测胞浆i NOS蛋白和胞浆与胞核NF-κB/p65蛋白表达,Trans AMTM NF-κB/p65活性检测试剂盒测定NF-κB/p65 DNA结合活性。结果显示,0.5μg/m L LPS以及不同剂量(5、25、125μg/m L)Sal处理细胞12 h对J774.1细胞活力无影响;与LPS刺激组比较,LPS刺激前Sal预处理J774.1细胞,培养上清中TNF-α、MCP-1、MIP-2和NO含量呈剂量依赖性降低(P0.05),细胞i NOS m RNA和蛋白表达水平下调(P0.05),胞核NF-κB/p65蛋白表达降低(P0.05)而胞浆NF-κB/p65蛋白相应增加(P0.05),且NF-κB/p65 DNA结合活性呈剂量依赖性降低(P0.05)。以上结果提示,Sal预处理能够降低LPS诱导的巨噬细胞炎性活化,其机制可能通过干扰LPS/TLR4/NF-κB信号通路,从而降低炎性介质及细胞因子的过度表达和分泌。     

肺炎链球菌候选蛋白疫苗DnaJ-△A146Ply通过PI3K/Akt和NF-κB信号通路刺激巨噬细胞诱导免疫应答

本实验目的是研究肺炎链球菌r Dna J-△A146Ply融合蛋白引起小鼠巨噬细胞的免疫应答机制。原核表达r Dna J-△A146Ply重组蛋白,Ni+柱纯化后去除其内毒素。r Dna J-△A146Ply刺激小鼠来源腹腔巨噬细胞6 h后,提取细胞RNA,RT-PCR检测白细胞介素6(interleukin-6,IL-6)、肿瘤坏死因子(tumor necrosis factor-α,TNF-α)m RNA表达水平。24 h后取细胞培养上清,ELISA检测IL-6和TNF-α蛋白表达水平。信号通路抑制剂预处理腹腔巨噬细胞1 h后加蛋白刺激,ELISA检测上清中IL-6、TNF-α蛋白表达水平抑制情况。取不同时间点处理的细胞进行免疫印迹(Western Blot),检测p-Akt和p-NF-κB表达水平。制备获得纯度90%以上、内毒素含量小于0.1 EU/μg的r Dna J-△A146Ply融合蛋白;r Dna J-△A146Ply可刺激腹腔巨噬细胞IL-6、TNF-αm RNA及蛋白水平表达明显上调、增强Akt和NF-κB磷酸化;Akt和NF-κB抑制剂可显著减少IL-6和TNF-α表达。因此,r Dna J-△A146Ply融合蛋白通过Akt和NF-κB信号通路刺激巨噬细胞诱导免疫应答。     

姜黄素通过NF-κB/miR33a通路对ox-LDL刺激THP-1巨噬细胞分泌的影响及机制

为研究姜黄素对ox-LDL刺激的THP-1巨噬细胞炎症因子IL-6、TNF-α的分泌及相关机制。本实验分别予姜黄素、miR33a inhibitor、吡咯烷二硫代甲酸铵(ammonium pyrrolidinedithiocarbamate,PDTC)处理氧化型低密度脂蛋白(oxidized lowdensity lipoprotein,ox-LDL)刺激的人单核细胞白血病细胞(human acute monocytic leukemia cell line,THP-1)型巨噬细胞,RT-qPCR测定微型RNA33a(MicroRNA33a,miR33a)的表达,Western blot检测胞核内NF-κB p65的表达、IκBα和p-IκBα的表达,ELISA测定IL-6、TNF-α的浓度。结果显示与空白对照组相比,ox-LDL组miR33a、NF-κB p65、p-IκBα的表达及p-IκBα/IκBα的比值及IL-6、TNF-α的浓度增加(P 0. 05),IκBα的表达减少(P 0. 05);而与ox-LDL组相比,ox-LDL+姜黄素组miR33a、NF-κB p65、p-IκBα的表达及p-IκBα/IκBα的比值及IL-6、TNF-α的浓度减少(P 0. 05),IκBα的表达增加(P 0. 05)。姜黄素可能抑制ox-LDL刺激的THP-1巨噬细胞IL-6、TNF-α的分泌,其机制可能是通过下调NF-κB/miR33a信号通路。     

NF-κB介导哮喘过敏原刺激后支气管上皮细胞的凋亡

目的研究核转录因子κB(NF-κB)在哮喘过敏原刺激后支气管上皮细胞中的表达及对细胞凋亡的影响。方法以300U/L尘螨抗原提取物作为过敏原刺激支气管上皮细胞系16HBE细胞,应用RT-PCR和Western blot检测尘螨抗原提取物刺激对16HBE细胞NF-κB(p65)表达水平的影响;用NF-κB(p65)sh RNA沉默16HBE细胞内NF-κB表达后,应用流式细胞术和Western blot检测NF-κB(p65)在过敏原刺激诱导16HBE细胞凋亡中的作用。结果过敏原刺激后使16HBE细胞内NF-κB(p65)m RNA和蛋白水平明显上调,明显诱导16HBE细胞凋亡和活化型caspase-3水平上调,沉默NF-κB可使过敏原刺激诱导的16HBE细胞凋亡率降低和活化型caspase-3水平上调减少。结论 NF-κB可介导哮喘过敏原刺激后的支气管上皮细胞凋亡。     

TNF-α刺激大鼠骨髓间充质干细胞的机制研究

目的：研究肿瘤坏死因子-α（Tumor necrosis factor-α,TNF-α）刺激大鼠骨髓间充质干细胞（marrow-derived mesenchymalstem cells,MSCs）的作用机制。方法：采取大鼠骨髓,以密度梯度离心分离出单个核细胞（MNCs）,于体外培养并由牛垂体提取物（PEX）诱导扩增传代培养出骨髓间充质干细胞（MSCs）。经形态学和流式细胞仪检测MSCs表面标志物鉴定后,用TNF-α刺激骨髓间充质干细胞（MSCs）,通过酶联免疫吸附剂测定法（enzyme linked immunosorbent assay,ELISA）观察比较不同组别细胞的生长因子分泌和蛋白印迹法（western blot）来观察细胞中蛋白的变化。结果：①经形态学观察和流式细胞仪检测MSCs表面标志物鉴定,提示骨髓间充质干细胞的培养成功。②无TNF-α刺激组与TNF-α刺激组比较,TNF-α刺激组的生长因子分泌显著性增加,而通过磷酸化IκB的表达量显著性增加提示NF-κB被激活（P〈0.05）;同时TNF-α刺激组与TNF-α＋NF-κB抑制剂组比较,TNF-α＋NF-κB抑制剂组的生长因子分泌显著降低,而通过磷酸化IκB的表达量显著减少提示NF-κB的活性被抑制（P〈0.05）。结论：NF-κB对TNF-α刺激下的骨髓间充质干细胞分泌生长因子有关键性作用。     

银杏叶提取物对内毒素诱导巨噬细胞核因子-κB活化及炎性细胞因子表达的调节

探讨银杏叶提取物（EGb761）对内毒素（LPS）诱导RAW264．7细胞核因子-κB（NF-κB）活化及炎性细胞因子基因表达的调节,为银杏叶提取物的临床运用提供理论依据．分别用LPS或EGb761＋LPS处理体外培养的小鼠巨噬细胞系RAW264．7细胞,采用蛋白质印迹分析检测细胞中NF-κB活性,用逆转录-聚合酶链反应（RT-PCR）和酶联免疫吸附法（ELISA）检测细胞中TNF-α、IL-1β、IL-6 mRNA和蛋白的表达．研究结果表明LPS组NF-κB活性和TNF-α、IL-1β、IL-6含量在刺激后2～12h明显高于正常对照组,而EGb761＋LPS组NF-κB活性和TNF-α、IL-1β、IL-6含量均显著低于LPS组．结果提示LPS可诱导RAW264．7细胞NF-κB活化,导致TNF-α、IL-1β、IL-6基因表达增强,而EGb761能抑制NF-κB活化而调节TNF-α、IL-1β、IL-6基因的表达．     

PPARγ对结核分枝杆菌脂蛋白P19诱导的巨噬细胞炎症反应的影响

目的:探讨PPARγ对结核分枝杆菌细胞壁成分19 kDa脂蛋白(M.tb-P19)诱导的巨噬细胞免疫反应的影响。方法:以M.tb H37Rv和M.tb-P19刺激人源性巨噬细胞48 h,观察其对巨噬细胞PPARγ表达的影响。分别采用激动剂、拮抗剂干预PPARγ活性,观察PPARγ被激活或抑制后对M.tb-P19诱导的ERK磷酸化、NF-κB的表达以及炎症细胞因子IL-6、TNF-α的表达的影响。结果:M.tb-P19感染的人巨噬细胞中PPARγ的表达较正常对照细胞显著升高,且随作用时间的延长逐渐增加(P0.05),48h达高峰。M.tb-P19感染可显著增加人巨噬细胞中磷酸化ERK、NF-κB、TNF-α和IL-6的表达(P0.05),PPARγ激动剂预处理可显著抑制M.tb-P19感染所致的磷酸化ERK、NF-κB、TNF-α和IL-6的表达增加(P0.05),而PPARγ拮抗剂预处理可进一步提高磷酸化ERK、NF-κB、TNF-α和IL-6的表达(P0.05)。结论:PPARγ可能是通过激活ERK及NF-κB信号通路,抑制M.tb-P19所介导的巨噬细胞炎症反应。     

黄芩苷对脂多糖诱导的巨噬细胞NF-κB活化和炎症因子表达的影响

目的:研究黄芩苷对脂多糖(LPS)诱导小鼠巨噬细胞核因子κB(NF-κB)及肿瘤坏死因子α(TNF-α)、白介素6(IL-6)表达的影响.方法:分别用LPS(终浓度1μgomL-1)和LPs+黄芩苷(终浓度10,50,100μmol moloL-1)处理生长良好的小鼠巨噬细胞RAW264.7,用RT-PCR法和Elisa法检测细胞及其上清液中TNF-α、IL-6 mRNA和蛋白的表达变化,用Western Blot法检测细胞核内NF-κB p65蛋白含量变化.结果:LPS刺激RAW264.7细胞可导致NF-κB激活,上调TNF-α、IL-6表达;黄芩苷预处理能降低LPS诱导的NF-κB出活化和TNF-α、IL-6表达.结论:黄芩苷可通过抑制NF-κB活化,下调LPS诱导的巨噬细胞TNF-α、IL-6的生成,发挥抗炎作用.这可能是其抗动脉粥样硬化的作用机制之一.     

DEC1 and MIC-1

Comment on: Qian Y, et al. Proc Natl Acad Sci USA 2012; 109:11300-5.     

LINE-1编码蛋白L1-ORF1的原核表达纯化和多克隆抗体制备

目的: 制备具有肿瘤组织特异性表达的L1-ORF1蛋白多克隆抗体并进行初步应用研究。方法:采取基因工程表达方法制备L1-ORF1蛋白,免疫家兔制备多克隆抗体,间接ELISA检测抗体效价,Western blot和细胞免疫荧光方法检测抗体特异性,免疫检测验证其识别肿瘤细胞内L1-ORF1蛋白的特异性。结果:制备的抗L1-ORF1蛋白多克隆抗体具有很高的敏感性与特异性,免疫学检测表明该抗体不仅能检测出正常细胞中瞬时表达的L1-ORF1蛋白,而且可检测出肿瘤细胞中天然表达的L1-ORF1蛋白。结论:制备的多克隆抗体具有较高的敏感性与特异性,为以后该抗体的进一步应用奠定了基础。     

Regulation of PCTAIRE1 protein stability by AKT1, LKB1 and BRCA1

PCTAIRE1, also known as CDK16, is a cyclin-dependent kinase that is regulated by cyclin Y. It is a member of the serine-threonine family of kinases and its functions have primarily been implicated in cellular processes like vesicular transport, neuronal growth and development, myogenesis, spermatogenesis and cell proliferation. However, as extensive studies on PCTAIRE1 have not yet been conducted, the signaling pathways for this kinase involved in governing many cellular processes are yet to be elucidated in detail. Here, we report the association of PCTAIRE1 with important cellular proteins involved in major cell signaling pathways, especially cell proliferation. In particular, here we show that PCTAIRE1 interacts with AKT1, a key player of the PI3K signaling pathway that is responsible for promoting cell survival and proliferation. Our studies show that PCTAIRE1 is a substrate of AKT1 that gets stabilized by it. Further, we show that PCTAIRE1 also interacts with and is degraded by LKB1, a kinase that is known to suppress cellular proliferation and also regulate cellular energy metabolism. Moreover, our results show that PCTAIRE1 is also degraded by BRCA1, a well-known tumor suppressor. Together, our studies highlight the regulation of PCTAIRE1 by key players of the major cell signaling pathways involved in regulating cell proliferation, and therefore, provide crucial links that could be explored further to elucidate the mechanistic role of PCTAIRE1 in cell proliferation and tumorigenesis.     

Antagonism between Cry1Ac1 and Cyt1A1 Toxins of Bacillus thuringiensis

Most strains of the insecticidal bacterium Bacillus thuringiensis have a combination of different protoxins in their parasporal crystals. Some of the combinations clearly interact synergistically, like the toxins present in B. thuringiensis subsp. israelensis. In this paper we describe a novel joint activity of toxins from different strains of B. thuringiensis. In vitro bioassays in which we used pure, trypsin-activated Cry1Ac1 proteins from B. thuringiensis subsp. kurstaki, Cyt1A1 from B. thuringiensis subsp. israelensis, and Trichoplusia ni BTI-Tn5B1-4 cells revealed contrasting susceptibility characteristics. The 50% lethal concentrations (LC₅₀s) were estimated to be 4,967 of Cry1Ac1 per ml of medium and 11.69 ng of Cyt1A1 per ml of medium. When mixtures of these toxins in different proportions were assayed, eight different LC₅₀s were obtained. All of these LC₅₀s were significantly higher than the expected LC₅₀s of the mixtures. In addition, a series of bioassays were performed with late first-instar larvae of the cabbage looper and pure Cry1Ac1 and Cyt1A1 crystals, as well as two different combinations of the two toxins. The estimated mean LC₅₀ of Cry1Ac1 was 2.46 ng/cm² of diet, while Cyt1A1 crystals exhibited no toxicity, even at very high concentrations. The estimated mean LC₅₀s of Cry1Ac1 crystals were 15.69 and 19.05 ng per cm² of diet when these crystals were mixed with 100 and 1,000 ng of Cyt1A1 crystals per cm² of diet, respectively. These results indicate that there is clear antagonism between the two toxins both in vitro and in vivo. Other joint-action analyses corroborated these results. Although this is the second report of antagonism between B. thuringiensis toxins, our evidence is the first evidence of antagonism between toxins from different subspecies of B. thuringiensis (B. thuringiensis subsp. kurstaki and B. thuringiensis subsp. israelensis) detected both in vivo and in vitro. Some possible explanations for this relationship are discussed.     

Role of the ASK1-SEK1-JNK1-HIPK1 signal in Daxx trafficking and ASK1 oligomerization

Overexpression of JNK binding domain inhibited glucose deprivation-induced JNK1 activation, relocalization of Daxx from the nucleus to the cytoplasm, and apoptosis signal-regulating kinase 1 (ASK1) oligomerization in human prostate adenocarcinoma DU-145 cells. However, SB203580, a p38 inhibitor, did not prevent relocalization of Daxx and oligomerization of ASK1 during glucose deprivation. Studies from in vivo labeling and immune complex kinase assay demonstrated that phosphorylation of Daxx occurred during glucose deprivation, and its phosphorylation was mediated through the ASK1-SEK1-JNK1-HIPK1 signal transduction pathway. Data from immunofluorescence staining and protein interaction assay suggest that phosphorylated Daxx may be translocated to the cytoplasm, bind to ASK1, and subsequently lead to ASK1 oligomerization. Mutation of Daxx Ser667 to Ala results in suppression of Daxx relocalization during glucose deprivation, suggesting that Ser667 residue plays an important role in the relocalization of Daxx. Unlike wild-type Daxx, a Daxx deletion mutant (amino acids 501-625) mainly localized to the cytoplasm, where it associated with ASK1, activated JNK1, and induced ASK1 oligomerization without glucose deprivation. Taken together, these results show that glucose deprivation activates the ASK1-SEK1-JNK1-HIPK1 pathway, and the activated HIPK1 is probably involved in the relocalization of Daxx from the nucleus to the cytoplasm. The relocalized Daxx may play an important role in glucose deprivation-induced ASK1 oligomerization.     

Antagonism between Cry1Ac1 and Cyt1A1 toxins of bacillus thuringiensis

Most strains of the insecticidal bacterium Bacillus thuringiensis have a combination of different protoxins in their parasporal crystals. Some of the combinations clearly interact synergistically, like the toxins present in B. thuringiensis subsp. israelensis. In this paper we describe a novel joint activity of toxins from different strains of B. thuringiensis. In vitro bioassays in which we used pure, trypsin-activated Cry1Ac1 proteins from B. thuringiensis subsp. kurstaki, Cyt1A1 from B. thuringiensis subsp. israelensis, and Trichoplusia ni BTI-Tn5B1-4 cells revealed contrasting susceptibility characteristics. The 50% lethal concentrations (LC50s) were estimated to be 4,967 of Cry1Ac1 per ml of medium and 11.69 ng of Cyt1A1 per ml of medium. When mixtures of these toxins in different proportions were assayed, eight different LC50s were obtained. All of these LC50s were significantly higher than the expected LC50s of the mixtures. In addition, a series of bioassays were performed with late first-instar larvae of the cabbage looper and pure Cry1Ac1 and Cyt1A1 crystals, as well as two different combinations of the two toxins. The estimated mean LC50 of Cry1Ac1 was 2.46 ng/cm2 of diet, while Cyt1A1 crystals exhibited no toxicity, even at very high concentrations. The estimated mean LC50s of Cry1Ac1 crystals were 15.69 and 19.05 ng per cm2 of diet when these crystals were mixed with 100 and 1,000 ng of Cyt1A1 crystals per cm2 of diet, respectively. These results indicate that there is clear antagonism between the two toxins both in vitro and in vivo. Other joint-action analyses corroborated these results. Although this is the second report of antagonism between B. thuringiensis toxins, our evidence is the first evidence of antagonism between toxins from different subspecies of B. thuringiensis (B. thuringiensis subsp. kurstaki and B. thuringiensis subsp. israelensis) detected both in vivo and in vitro. Some possible explanations for this relationship are discussed.     

Generation of 'humanized' hCYP1A1_1A2_Cyp1a1/1a2(-/-) mouse line

Human/rodent CYP1A1 and CYP1A2 orthologs are well known to exhibit species-specific differences in substrate preferences and rates of metabolism. This lab previously characterized a BAC-transgenic mouse carrying the human CYP1A1_CYP1A2 locus; in this line, human dioxin-inducible CYP1A1 and basal vs dioxin-inducible CYP1A2 have been shown to be expressed normally (with regard to mRNAs, proteins and three enzyme activities) in every one of nine mouse tissues studied. The mouse Cyp1a1 and Cyp1a2 genes are oriented head-to-head and share a bidirectional promoter region of 13,954 bp. Using Cre recombinase and loxP sites inserted 3' of the stop codons of both genes, we show here a successful interchromosomal excision of 26,173 bp that ablated both genes on the same allele. The Cyp1a1/1a2(-) double-knockout allele was bred with the "humanized" line; the final product is the hCYP1A1_1A2_Cyp1a1/1a2(-/-) line on a theoretically >99.8% C57BL/6J genetic background-having both human genes replacing the mouse orthologs. This line will be valuable for human risk assessment studies involving any environmental toxicant or drug that is a substrate for CYP1A1 or CYP1A2.     

Dial 9-1-1 for DNA damage: the Rad9-Hus1-Rad1 (9-1-1) clamp complex

Genotoxic stress activates checkpoint signaling pathways that block cell cycle progression, trigger apoptosis, and regulate DNA repair. Studies in yeast and humans have shown that Rad9, Hus1, Rad1, and Rad17 play key roles in checkpoint activation. Three of these proteins-Rad9, Hus1, and Rad1-interact in a heterotrimeric complex (dubbed the 9-1-1 complex), which resembles a PCNA-like sliding clamp, whereas Rad17 is part of a clamp-loading complex that is related to the PCNA clamp loader, replication factor-C (RFC). In response to genotoxic damage, the 9-1-1 complex is loaded around DNA by the Rad17-containing clamp loader. The DNA-bound 9-1-1 complex then facilitates ATR-mediated phosphorylation and activation of Chk1, a protein kinase that regulates S-phase progression, G2/M arrest, and replication fork stabilization. In addition to its role in checkpoint activation, accumulating evidence suggests that the 9-1-1 complex also participates in DNA repair. Taken together, these findings suggest that the 9-1-1 clamp is a multifunctional complex that is loaded onto DNA at sites of damage, where it coordinates checkpoint activation and DNA repair.