Differential palmitoylation of the endosomal SNAREs syntaxin 7 and syntaxin 8

Palmitoylation is a posttranslational modification that regulates protein trafficking and stability. In this study we investigated whether the endosomal soluble N-ethylmaleimide-sensitive factor attachment protein receptors (SNARE) proteins syntaxin 7 and syntaxin 8 are modified with palmitate. Using metabolic labeling and site-directed mutagenesis, we show that human syntaxins 7 and 8 are modified with palmitate through a thioester linkage. Palmitoylation is dependent upon cysteine 239 of human syntaxin 7 and cysteine 214 of syntaxin 8, residues that are located on the cytoplasmic face of the transmembrane domain (TMD). Palmitoylation of syntaxin 8 is minimally affected by the Golgi-disturbing agent brefeldin A (BFA), whereas BFA dramatically inhibits palmitoylation of syntaxin7. The differential effect of BFA suggests that palmitoylation of syntaxins 7 and 8 occurs in distinct subcellular compartments. Palmitoylation does not affect the rate of protein turnover of syntaxins 7 and 8 nor does it influence the steady-state localization of syntaxin 8 in late endosomes. Syntaxin 7 actively cycles between endosomes and the plasma membrane. Palmitoylation-defective syntaxin 7 is selectively retained on the plasma membrane, suggesting that palmitoylation is important for intercompartmental transport of syntaxin 7.     

The Golgi-associated hook3 protein is a member of a novel family of microtubule-binding proteins

Microtubules are central to the spatial organization of diverse membrane-trafficking systems. Here, we report that Hook proteins constitute a novel family of cytosolic coiled coil proteins that bind to organelles and to microtubules. The conserved NH(2)-terminal domains of Hook proteins mediate attachment to microtubules, whereas the more divergent COOH-terminal domains mediate the binding to organelles. Human Hook3 bound to Golgi membranes in vitro and was enriched in the cis-Golgi in vivo. Unlike other cis-Golgi-associated proteins, however, a large fraction of Hook3 maintained its juxtanuclear localization after Brefeldin A treatment, indicating a Golgi-independent mechanism for Hook3 localization. Because overexpression of Hook3 caused fragmentation of the Golgi complex, we propose that Hook3 participates in defining the architecture and localization of the mammalian Golgi complex.     

Uncoupling of brefeldin a-mediated coatomer protein complex-I dissociation from Golgi redistribution

The Golgi complex functions in transport of molecules from the endoplasmic reticulum (ER) to the plasma membrane and other distal organelles as well as in retrograde transport to the ER. The fungal metabolite brefeldin A (BFA) promotes dissociation of ADP-ribosylation-factor-1 (ARF1) and the coatomer protein complex-I (COP-I) from Golgi membranes, followed by Golgi tubulation and fusion with the ER. Here we demonstrate that the cationic ionophore monensin inhibited the BFA-mediated Golgi redistribution to the ER without interfering with ARF1 and COP-I dissociation. Preservation of a perinuclear Golgi despite COP-I and ARF1 dissociation enables addressing the involvement of these proteins in anterograde ER to Golgi transport. The thermo-reversible folding mutant of vesicular stomatitis virus G protein (VSVGtsO45) was retained in the ER in the presence of both monensin and BFA, thus supporting ARF1/COP-I participation in ER-exit processes. Live-cell imaging revealed that BFA-induced Golgi tubulation persisted longer in the presence of monensin, suggesting that monensin inhibits tubule fusion with the ER. Moreover, monensin also augmented Golgi-derived tubules that contained the ER-Golgi-intermediate compartment marker, p58, in the absence of BFA, signifying the generality of this effect. Taken together, we propose that monensin inhibits membrane fusion processes in the presence or absence of BFA.     

Trafficking of plasmepsin II to the food vacuole of the malaria parasite Plasmodium falciparum

A family of aspartic proteases, the plasmepsins (PMs), plays a key role in the degradation of hemoglobin in the Plasmodium falciparum food vacuole. To study the trafficking of proPM II, we have modified the chromosomal PM II gene in P. falciparum to encode a proPM II-GFP chimera. By taking advantage of green fluorescent protein fluorescence in live parasites, the ultrastructural resolution of immunoelectron microscopy, and inhibitors of trafficking and PM maturation, we have investigated the biosynthetic path leading to mature PM II in the food vacuole. Our data support a model whereby proPM II is transported through the secretory system to cytostomal vacuoles and then is carried along with its substrate hemoglobin to the food vacuole where it is proteolytically processed to mature PM II.     

Macerating Activity of endo-Polygalacturonase Produced by Saccharomyces fragilis

The effect was examined of aqueous dialyzates from 16 kinds of vegetables and fruits on the mutagenicity of some mutagens toward Salmonella typhimurium TA 100. Each dialyzate inhibited the mutagenicity of Trp-P-2, and the antimutagenicity was retained even after heating at 100°C for 20 min. Dialyzates of burdock, eggplant, spinach and apple also inhibited the mutagenicity of Trp-P-l, benzo[a]pyrene, sterigmatocystin, aflatoxin Bl, 2-(2-furyl)-3-(5-nitro-2-furyl)-acrylamide and N-methyl-N′-nitroso-N-nitrosoguanidine. The dialyzates of apple reacted with S9 mix and Trp-P-2. A Sepharose CL 6B gel filtration study of the dialyzates of apple indicated that the antimutagenic activity of these dialyzates on Trp-P-2 and AF-2 was mainly detectable in the polyphenol-rich fractions.     

Characterization of Clofibrate-induced Retrograde Golgi Membrane Movement to the Endoplasmic Reticulum: Clofibrate Distinguishes the Golgi from the Trans Golgi Network

Clofibrate-induced retrograde Golgi membrane movement was blocked or retarded when NRK cells were treated with sodium azide/2-deoxyglucose, nocodazole, taxol, and destruxin B, indicating that it depends on energy, and the dynamic state of microtubules, and being acidic or vacuolar-type ATPase function. PDMP and phospholipase A₂ inhibitors also blocked it. These characteristics are similar to those of brefeldin A (BFA) and nordihydroguaiaretic acid (NDGA), inducers of retrograde Golgi membrane movement. However, clofibrate was distinguished from BFA in that BFA action was insensitive to phospholipase A₂ inhibitors and from NDGA in that NDGA stabilized microtubules against nocodazole and its action was almost insensitive to taxol. The trans Golgi network (TGN) was resistant to clofibrate, while BFA and NDGA dispersed it. To our knowledge, clofibrate is the first drug to show such different effects on the Golgi and TGN and, therefore, is expected to be a useful tool to distinguish their architecture and/or membrane dynamics.     

HIV-1 Nef mobilizes lipid rafts in macrophages through a pathway that competes with ABCA1-dependent cholesterol efflux

HIV infection, through the actions of viral accessory protein Nef, impairs activity of cholesterol transporter ABCA1, inhibiting cholesterol efflux from macrophages and elevating the risk of atherosclerosis. Nef also induces lipid raft formation. In this study, we demonstrate that these activities are tightly linked and affect macrophage function and HIV replication. Nef stimulated lipid raft formation in macrophage cell line RAW 264.7, and lipid rafts were also mobilized in HIV-1-infected human monocyte-derived macrophages. Nef-mediated transfer of cholesterol to lipid rafts competed with the ABCA1-dependent pathway of cholesterol efflux, and pharmacological inhibition of ABCA1 functionality or suppression of ABCA1 expression by RNAi increased Nef-dependent delivery of cholesterol to lipid rafts. Nef reduced cell-surface accessibility of ABCA1 and induced ABCA1 catabolism via the lysosomal pathway. Despite increasing the abundance of lipid rafts, expression of Nef impaired phagocytic functions of macrophages. The infectivity of the virus produced in natural target cells of HIV-1 negatively correlated with the level of ABCA1. These findings demonstrate that Nef-dependent inhibition of ABCA1 is an essential component of the viral replication strategy and underscore the role of ABCA1 as an innate anti-HIV factor.     

Identification of a Compound in Chamaecyparis taiwanensis Inhibiting the Ice-nucleating Activity of Pseudomonas fluorescens KUIN-1

Inactivation of the ice-nucleating activity of Pseudomonas fluorescens KUIN-1 by compounds in the leaves from coniferous trees were investigated, and the inactivated material was identified. Intact cells of the strain KUIN-1 and the acetone or methanol extracts of leaves of various coniferous trees were allowed to react for 30 min at 18°C. Antinucleation compounds were obtained from Chamaecyparis taiwanensis. When the acetone extract from the leaves of coniferous trees was added to the cell suspension (about 10⁶ cells/ml) in 50 mM potassium phosphate buffer (pH 7.0), the ice nucleating temperature, T₅₀, was significantly decreased (T₅₀<-5°C). This inhibitor was isolated by using TLC, then identified as hinokitiol based on UV-VIS, IR, and mass spectral data. When intact cells of the strain KUIN-1 were incubated with hinokitiol, limonene, and α-pinene of the principal constituent of the leaves of coniferous trees in 50 mM potassium phosphate buffer (pH 7.0), the ice-nucleating activity decreased, but not in α-terpinene. Furthermore, the ice-nucleating activities from other ice-nucleating bacteria also decreased in the presence of hinokitiol. This inhibition was proportional to the concentration of hinokitinol. The pH and thermal stabilities of the ice-nucleating activity of the cells were changed by the addition of hinokitiol (10 mM).     

Isolation of brefeldin a from Phyllosticta medicaginis

Cultivation of the fungus, Phyllosticta medicaginis, afforded good yields of brefeldin A, mannitol, and fatty-acid glycerides as the principle metabolites. The fatty-acid content of the glycerides was determined.     

Fusion of Semliki Forest virus with cholesterol-containing liposomes at low pH: a specific requirement for sphingolipids

Semliki Forest virus (SFV) utilizes a membrane fusion strategy to introduce its genome into the host cell. After binding to cell-surface receptors, virus particles are internalized through receptor-mediated endocytosis and directed to the endosomal cell compartment. Subsequently, triggered by the acid pH in the lumen of the endosomes, the viral envelope fuses with the endosomal membrane. As a result of this fusion reaction the viral RNA gains access to the cell cytosol. Low-pH-induced fusion of SFV, in model systems as well as in cells, has been demonstrated previously to be strictly dependent on the presence of cholesterol in the target membrane. In this paper, we show that fusion of SFV with cholesterol-containing liposomes depends on sphingomyelin (SM) or other sphingolipids in the target membrane, ceramide representing the sphingolipid minimally required for mediating the process. The action of the sphingolipid is confined to the actual fusion event, cholesterol being necessary and sufficient tor low-pH-dependent binding of the virus to target membranes. The 3-hydroxyl group on the sphingosine backbone plays a key role in the SFV fusion reaction, since 3-deoxy-sphingomyelin does not support the process. This, and the remarkably low levels of sphingolipid required for half-maximal fusion (1–2 mol%), suggest that the sphingolipid does not play a structural role in SFV fusion, but rather acts as a co-factor, possibly through activation of the viral fusion protein. Domain formation between cholesterol and sphingolipid, although it may facilitate SFV fusion, is unlikely to play a crucial role in the process.     

布雷菲尔德菌素A高产菌的选育和发酵条件优化

研究了选育布雷菲尔德茵素A(BFA)高产茵和优化发酵条件.采用紫外线照射(UV)、亚硝基胍(NTG)和UV+NTG复合诱变处理BFA产生茵Eupenicillum sp.E-0506筛选突变株后进一步发酵选育;采用单因素筛选结合正交试验考察摇瓶装液量、转速等因素的影响.试验所确定的BFA产生茵的孢子诱变适宜条件为:孢子...     

Comparison of pathogenicity of Clavibacter michiganensis subsp. insidiosus and Pseudomonas viridiflava strains on alfalfa

Hamedan province of Iran is a suitable niche for alfalfa growth but many diseases including alfalfa bacterial wilt, bacterial crown and root rot diseases cause economic crop losses. Bacterial wilt is caused by Clavibacter michiganensis subsp. insidiosus, and bacterial crown and root rot diseases are caused by Pseudomonas viridiflava. In this study, we investigated the pathogenicity of C. michiganensis subsp. insidiosus and P. viridiflava strains collected from the main alfalfa growing areas of Hamedan province. Pathogenicity of the virulent strains was tested on alfalfa and the bacterial strains caused symptoms, and data were collected about stem length, root length, wet weight and dry weight of the infected plantlets. The data about the pathogenicity of C. michiganensis subsp. insidiosus and P. viridiflava on alfalfa were compared with each other and were analysed by SAS software and Dunkan's test. Resulted data showed more pathogenicity of C. michiganensis subsp. insidiosus than P. viridiflava on alfalfa. These data also showed that both of these bacteria produced the most losses on wet weight and dry weight of alfalfa plantlets.     

Caveolin-2 is targeted to lipid droplets, a new "membrane domain" in the cell

Caveolin-1 and -2 constitute a framework of caveolae in nonmuscle cells. In the present study, we showed that caveolin-2, especially its beta isoform, is targeted to the surface of lipid droplets (LD) by immunofluorescence and immunoelectron microscopy, and by subcellular fractionation. Brefeldin A treatment induced further accumulation of caveolin-2 along with caveolin-1 in LD. Analysis of mouse caveolin-2 deletion mutants revealed that the central hydrophobic domain (residues 87-119) and the NH(2)-terminal (residues 70-86) and COOH-terminal (residues 120-150) hydrophilic domains are all necessary for the localization in LD. The NH(2)- and COOH-terminal domains appeared to be related to membrane binding and exit from ER, respectively, implying that caveolin-2 is synthesized and transported to LD as a membrane protein. In conjunction with recent findings that LD contain unesterified cholesterol and raft proteins, the result implies that the LD surface may function as a membrane domain. It also suggests that LD is related to trafficking of lipid molecules mediated by caveolins.     

Blue light-induced association of phototropin 2 with the Golgi apparatus

Phototropins 1 and 2 (phot1 and phot2) function as blue light (BL) photoreceptors for phototropism, chloroplast relocation, stomatal opening and leaf flattening in Arabidopsis thaliana. Phototropin consists of two functional domains, the N-terminal photosensory domain and the C-terminal Ser/Thr kinase domain. However, little is known about the signal transduction pathway that links the photoreceptors and the physiological responses downstream of BL perception. To understand the mechanisms by which phot2 initiates these responses, we transformed the phot1phot2 double mutant of Arabidopsis with constructs encoding translationally fused phot2:green fluorescent protein (P2G). P2G was fully functional for the phot2-specific physiological responses in these transgenic plants. It localized strongly to the plasma membrane and weakly to the cytoplasm in the dark. Upon illumination with BL, punctate P2G staining was formed within a few minutes in addition to the constitutive plasma membrane staining. This punctate distribution pattern matched well with that of the Golgi-localized KAM1DeltaC:mRFP. Brefeldin A (BFA), an inhibitor of vesicle trafficking, induced accumulation of P2G around the perinuclear region even in darkness, but the punctate pattern was not observed. After treatment of these cells with BL, P2G exhibited the punctate distribution pattern that matched with that of the Golgi marker. Hence, the light-dependent association of P2G with the Golgi apparatus was BFA-insensitive. A structure/function analysis indicated that the kinase domain was essential for the Golgi localization of phot2. The BL-induced Golgi localization of phot2 may be one of important signaling steps in the phot2 signal transduction pathway.     

Golgi inheritance under a block of anterograde and retrograde traffic

In mitosis, the Golgi complex is inherited following its dispersion, equal partitioning and reformation in each daughter cell. The state of Golgi membranes during mitosis is controversial, and the role of Golgi-intersecting traffic in Golgi inheritance is unclear. We have used brefeldin A (BFA) to perturb Golgi-intersecting membrane traffic at different stages of the cell cycle and followed by live cell imaging the fate of Golgi membranes in those conditions. We observed that addition of the drug on cells in prometaphase prevents mitotic Golgi dispersion. Under continuous treatment, Golgi fragments persist throughout mitosis and accumulate in a Golgi-like structure at the end of mitosis. This structure localizes at microtubule minus ends and contains all classes of Golgi markers, but is not accessible to cargo from the endoplasmic reticulum or the plasma membrane because of the continuous BFA traffic block. However, it contains preaccumulated cargo, and intermixes with the reforming Golgi upon BFA washout. This structure also forms when BFA is added during metaphase, when the Golgi is not discernible by light microscopy. Together the data indicate that independent Golgi fragments that contain all classes of Golgi markers (and that can be isolated from other organelles by blocking anterograde and retrograde Golgi-intersecting traffic) persist throughout mitosis.     

EZH2 靶向的shRNA 质粒的构建和有效靶序列的筛选*

目的:构建并筛选靶向zeste基因增强子人类同源物2(Enhancer of zeste homologue 2,EZH2)的短发卡RNA(short hairpinRNA,shRNA)的质粒表达载体。方法:设计并合成针对EZH2基因的带有小发夹结构的DNA片段并克隆至质粒pGPU6/GFP/Neo中,经酶切和测序分析后转染入胶质瘤U251细胞,分别应用实时荧光定量PCR和Western bloting在mRNA和蛋白质水平观察其对EZH2基因表达的沉默效果。结果:重组质粒构建成功,并成功转染入胶质瘤U251细胞,转染效率大约为70%。其中,以靶向hEZH2-715序列的质粒抑制效果最好,其对U251细胞EZH2 mRNA和protein抑制率分别为55%和89%。结论:成功构建了能高效抑制EZH2基因表达shRNA的重组质粒,为下一步探索EZH2在胶质瘤细胞中的生物学作用奠定了基础。     

Effect of reduced temperatures and brefeldin A on prolactin secretion and on subcellular distribution of the secretory product and membrane antigens in GH3 pituitary cells.

The effects of reduced temperatures (20, 15 or 10 degrees C) and brefeldin A (BFA) on prolactin (PRL) secretion in the GH3 rat pituitary cell line have been compared. Both treatments inhibit PRL release to different extents. Ultrastructural immunocytochemistry reveals that, depending on the treatment, PRL is blocked at different steps during its intracellular transit. The temperatures of 20 and 15 degrees C block the PRL transport at one face of the Golgi stacks whereas both the temperature of 10 degrees C and BFA treatment induce an arrest of PRL at the level of the rough endoplasmic reticulum (RER) cisternae. Moreover, exposure to 10 degrees C or BFA induces an accumulation of a specific Golgi membrane antigen in the dilated RER structures. However, although disorganized and no longer definable under BFA treatment, the Golgi apparatus remains visible at 10 degrees C. These two last treatments cause also an increase in the number of partly rough, partly smooth tubular structures tentatively called 'paired cisternae'.     

气道内微量雾化机对质粒DNA完整性和基因转染效率的影响

目的:探索新型气道内微量雾化机对质粒DNA(pDNA)完整性和整体动物基因转染效率的影响。方法:首先,研究新型气道内微量雾化机对pDNA破坏程度。分别向新型气道内微量雾化机和目前临床普遍使用的机械喷射式雾化机的加药池内加入2ml pDNA(20μg/ml),在开始雾化后第1min、3min、5min分别收集两种雾化机嘴处的雾化液滴,用琼脂糖凝胶电泳观察比较质粒的完整性。其次,研究整新型气道内微量雾化机在整体动物上对基因转染效率的影响。分别用新型气道内微量雾化机和目前临床普遍使用的机械喷射式雾化机,给大鼠雾化经多聚乙烯亚胺(polyethylenimine,PEI)修饰的相同量的绿色荧光蛋白质粒(plasmid DNA of green fluorescent protein gene, pEGFP)3.3μg(PEI/pEGFP),24h后提取动物肺组织进行反转录,用real time PCR及琼脂糖凝胶电泳观察分析绿色荧光蛋白(green fluorescent protein, GFP)的mRNA表达情况。结果:新型气道内微量雾化机在雾化第1min、第3min、第5min后完整的质粒比例分别为(99.6±0.7)%、(100±1.2)%、(99.6±0.7)%,与未雾化对照相比(P>0.05,n=3),无统计学差异,新型雾化机对质粒破坏性可以忽略。临床常用的喷射式雾化机在相同时间段内完整的质粒比例分别为(70.3±1.5)%、(49.3±1.5)%、(32.7±0.6)%。与未雾化对照相比(P<0.05,n=3)有统计学差异,并且随雾化时间增加临床常用的喷射式雾化机对质粒的完整性破坏程度逐渐增加;新型气道内微量雾化机的基因转染效率高于临床普遍使用的机械喷射式雾化机转染效率的(382.1±101.1)倍(P<0.01,n=3)。结论:新型气道内微量雾化机对质粒没有破坏性,能显著增加雾化吸入基因转染效率。为雾化基因治疗提供了一种合适的工具。     

新型非病毒三元复合DNA载体的研究

基因治疗是未来临床医学最具潜力的治疗方式,目前阻碍临床基因治疗发展的主要因素是缺乏安全和高效的基因载体,因此研究理想的非病毒转基因载体具有重要的意义.构建了由质粒DNA(D)-抗DNA抗体(A)-阳离子脂质体(C)组成的三元复合纳米基因载体(DAC),研究表明,三组分在磷酸缓冲液中可通过分子组装形成复合纳米胶束,DAC在细胞培养中表现出显著高效的基因表达,DAC在血管平滑肌细胞中的基因转染效率比不含抗DNA抗体的二元组合(DC)高4倍,比不含阳离子脂质体的二元组合(DA)约高11倍.激光共聚焦荧光显微观察证明,DAC细胞摄取量和DNA进入细胞核的量均明显高于对照组,而DC二元组合(不含抗DNA抗体)的DNA很少进入细胞核,细胞在DAC存在下生长正常.未发现细胞毒性.研究结果提示,DAC的作用机理主要是三元复合胶束中DNA的装载量比二元载体大得多,抗DNA抗体与阳离子脂质体的协同作用明显有利于DNA被细胞摄取和胞吞,从而提高了基因的转染和表达.     

法夏内生菌株D126产细胞毒活性物质布雷菲德菌素A的研究(英文)

药用植物法夏内生真菌D126,当进行液体培养时能产细胞毒活性物质,经核磁共振氢谱、碳谱和快原子轰击质谱确定,该物质为布雷菲德菌素A(BFA).进一步研究表明,BFA对人Burkitt's 淋巴瘤细胞株Raji、人肝癌细胞株HepG2和人非小细胞肺腺癌细胞株A549具有较强的抑制活性,对植物病原真菌黑曲霉和杨桃炭疽菌等具有抑菌活性.最后,对植物内生真菌产细胞毒活性物质BFA的生态意义进行了探讨.