Effect of drugs and temperature on biosynthesis and transport of glycosphingolipids in cultured neurotumor cells

Neuroblastoma and glioma cells were grown in the presence of [³H]galactose, and the incorporation of ³H into gangliosides and the transport of newly synthesized gangliosides to the cell surface were examined under different experimental conditions. A variety of drugs, including inhibitors of protein synthesis and energy metabolism, modulators of the cytoskeleton and the ionophore monensin, had no effect on the transport of newly synthesized GD1a in neuroblastoma cells. Only low temperature effectively blocked translocation to the plasma membrane. Monensin, however, had marked effects on the biosynthesis of gangliosides and neutral glycosphingolipids. Whereas incorporation of ³H into complex glycosphingolipids was reduced, labeling of glucosylceramide was increased in cells exposed to monensin. In addition, biosynthesis of the latter glycolipid was less susceptible to low temperatures than that of more complex ones. Previous studies have implicated the Golgi apparatus as the predominant site of glycosylation of gangliosides. As monensin has been reported to interfere with the Golgi apparatus, our results indicate that glucosylceramide may be synthesized at a site that is separate from the site where further glycosylation occurs. Once synthesis of a ganglioside is completed, transport of the molecule to the cell surface proceeds under conditions of cytoskeletal disruption, energy depletion and ionic inbalance, but not low temperature.     

A cell-free electrochemiluminescence assay for measuring beta1-integrin-ligand interactions

We have developed a cell-free assay for binding of solubilized beta1 integrins to their physiologically relevant ligands using an electrochemiluminescent detection method. The method utilizes ruthenium-conjugated monoclonal antibodies for detection of either purified integrins or, more conveniently, integrin-expressing cell lysates, which are captured on beads coated with extracellular matrix or vascular ligand proteins. For the interaction of alpha1beta1 integrin with collagen IV, a signal of 10-fold over background was generated with samples containing only 10 ng (0.05 pmol) of integrin. This interaction is cation-dependent and can be inhibited by blocking antibodies to the alpha1 subunit. The method was extended to studies of ligand binding by integrins alpha2beta1, alpha4beta1, alpha5beta1, and alpha6beta1. For each integrin-ligand pair, the specificity of the interaction was verified with neutralizing antibodies against the specific integrin. The specific binding signal correlated with the activating ability of the labeled antibody used for detection, although the ability of divalent cations (Mn2+, Mg2+, Ca2+) to support integrin-ligand binding varied dramatically among the various integrin-ligand pairs. The assay provides a simple method for investigating integrin-ligand interactions without avidity and/or signaling effects which can complicate conventional cell-based assay methods.     

Isolation and identification of a fucose-containing ganglioside from bovine thyroid gland

Bovine thyroid glands are known to contain a complex array of gangliosides. One of the predominant gangliosides was isolated and analyzed by gas-liquid chromatography and mass spectrometry. The carbohydrate composition was fucose, N-acetylneuraminic acid, galactose, N-acetylgalactosamine, and glucose in molar ratios of 1:1:2:1:1. The structure of the ganglioside was identified as:

     

High glucose down-regulates miR-29a to increase collagen IV production in HK-2 cells

Deposition of collagen IV in proximal tubule cells (PTCs) plays an important role during diabetic nephropathy, but the mechanism underlying excessive production of collagen IV remains poorly understood. In this study, we examined the miRNA profile of HK-2 cells and found that high glucose/TGF-β1 induced significant down-regulation of miR-29a. We then showed that miR-29a negatively regulated collagen IV by directly targeting the 3′UTRs of col4a1 and col4a2. These results suggest that miR-29a acts as a repressor to fine-tune collagen expression and that the reduction of miR-29a caused by high glucose may increase the risk of excess collagen deposition in PTCs.     

Dopamine release from nerve endings induced by polysialogangliosides

Polysialogangliosides but not monosialoganlioside or a neutral glycosphingolipid induce release of [³H] -dopamine from synaptosomes in presence of Ca⁺⁺, presumably by exocytosis. This effect is discussed in relation to the ability of polysialogangliosides to induce membrane fusion in chicken erythrocytes and to their behaviour in lipid monolayers. It is suggested that characteristic interactions with phosphatidylcholine involving decreases of surface potential are participating in the polysialoganglioside-induced neurotransmitter release.     

Binding of interleukin 2 to gangliosides

Exogenous gangliosides inhibit interleukin 2 (IL2)-dependent growth of a T cell line, AKIL -1.E8. IL2 activity is retained by columns of ganglioside covalently linked to poly(L-lysine)-agarose and is not eluted with ethylene glycol but is completely recovered by elution with 1% SDS. The ability of gangliosides to inhibit IL2 activity is directly related to the complexity of their carbohydrate portion, and related ceramide derivatives at similar concentrations do not inhibit IL2 activity. We conclude that IL2 bound to exogenous gangliosides is inactive and that the carbohydrate portion of the ganglioside is crucial to its interaction with IL2.     

Embryogenic staging of fugu, Takifugu rubripes, and expression profiles of aldh1a2, aldh1a3 and cyp26a1

Fugu (Takifugu rubripes) has contributed as an ideal model organism for understanding the structure and evolution of vertebrate genomes, but also has potential as a good model organism for developmental biology because of the availability of the genome information. However, there is no comprehensive report describing the developmental stages, which is fundamental data for developmental biology. Here we describe a series of stages of the embryonic development of fugu during the first 8 days after fertilization, i.e. from fertilization to hatching. We define seven periods of embryogenesis – the zygote, cleavage, blastula, gastrula, segmentation, pharyngula, and hatching periods. Stages subdividing these periods are defined based on morphological characteristics. In addition, as a model experiment of gene expression analysis using this staging series, we performed in situ hybridization of aldh1a2, aldh1a3 and cyp26a1 that play regulatory roles in retinoic acid (RA) metabolism essential for embryogenesis. This report provides fundamental information on fugu embryogenesis, which is anticipated to facilitate the use of fugu as a model organism for developmental studies.     

肝郁脾虚证模型大鼠血流变及TXB2、PGF1a的变化

目的:探查中医肝郁脾虚证模型的血流变及相关调节因子的状态。方法:采用慢性束缚应激 过度疲劳 饮食失节法建立大鼠肝郁脾虚证模型,测定大鼠造模三周、自然恢复一周时的血流变和血浆TXB2、PGF1a。结果:与正常组相比,模型组大鼠造模三周150/s、38/s、10/s、5/s切变率下的全血粘度和还原粘度均显著升高(P＜0．001),红细胞聚集指数显著降低(P＜0．001),红细胞压积显著升高(P＜0．01),红细胞变形指数无显著性差异(P＞0．05);血浆TXB2显著升高(P＜0．001),6-keto-PGF1a显著降低(P＜0．05), TXB2/PGF1a显著升高(P＜0．01);模型组大鼠第四周150/s、38/s、10/s、5/s切变率下的全血粘度和还原粘度仍显著升高(P＜0．001或P＜0．01);红细胞聚集指数显著降低(P＜0．001);红细胞压积与变形指数无显著性差异(P＞0．05);血浆TXB2和TXB2/PGF1a显著降低(P＜0．05),6-keto-PGF1a显著升高(P＜0．05)。结论:肝郁脾虚证大鼠存在血液高粘和血栓易形成状态,恢复期血液高粘同时伴有扩血管因素的加强。提示肝郁脾虚证有血流变的异常和血浆TXA2-PGI2的平衡失调,主要涉及到血小板和血浆因素的参与。     

P311 binds to the latency associated protein and downregulates the expression of TGF-beta1 and TGF-beta2

P311 is an 8-kDa protein originally found in neurons and muscle. We recently showed that expression of P311 in NIH 3T3 cells induced a myofibroblast phenotype with low TGF-beta1 expression. Here we demonstrate that P311 downregulates not only TGF-beta1, but also TGF-beta2, expression, with no effect on TGF-beta3. In addition, P311 interacts with TGF-beta2 in a yeast two-hybrid system through a sequence encompassing part of the TGF-beta latent associated protein (LAP) and part of mature TGF-beta2. Coimmunoprecipitations demonstrated interaction between P311 and TGF-beta1 and 2, but not TGF-beta3. Additional coimmunoprecipitations after introducing LAP or mature TGF-beta1 into cells demonstrated P311 binding to LAP, but not to mature TGF-beta. P311 has a conserved PEST domain, which generally serves as a rapid degradation signal. Deletion of the PEST domain reversed the effect of P311 on TGF-beta isoforms. Finally, Smad3 activity was decreased in P311-expressing cells, but was corrected by exogenous TGF-beta1 treatment, which also elevated TGF-beta1 mRNA level. This suggested that P311 downregulates TGF-beta1 and 2 in part by blocking TGF-beta autoinduction.     

Interaction of myelin basic protein, melittin and bovine serum albumin with gangliosides, sulphatide and neutral glycosphingolipids in mixed monolayers

Some parameters that may regulate the miscibility and stability of mixed lipid-protein monolayers at the air-145 mM NaCl interface were studied employing six glycosphingolipids (acidic or neutral), three different types of proteins (soluble, extrinsic or highly amphipathic) and some phospholipids. The results obtained show that the percentage of the total area occupied by the protein at the interface is an important parameter leading to lateral phase separations; the amount and area contribution of the protein accepted in the film before the components become immiscible increase with the complexity of the polar head group of the glycosphingolipids. The interactions occur with progressive reductions of the intermolecular packing as the polar head group of the glycosphingolipid becomes more complex and this is accompanied by more negative values of the excess free energy of mixing. The lipid component seems to be the major responsible for the reduction in mean molecular area.     

The Rates of Postmortem Proteolysis of Glutamate Transporters Differ Dramatically between Cells and between Transporter Subtypes

Glutamate transporters (GLT-1, GLAST, EAAC1) limit the actions of excitatory amino acids. Because a disturbed transporter operation can cause or aggravate neurological diseases, transporters are of considerable neuropathological interest. Human samples, however, are seldom obtained fresh. Here, we used mice brains to study how fast glutamate transporters are degraded after death. Immunoblots showed that terminal GLT-1 epitopes (within residues 1–26 and 518–573) had mostly disappeared after 24 hr. GLAST termini (1–25 and 522–543) degraded slightly slower. In contrast, epitopes within central parts of GLT-1 (493–508) and the EAAC1 C-terminus (510–523) were readily detectable after 72 hr. The decline in immunoreactivity of the GLT-1 and GLAST termini was also seen in tissue sections, but proteolysis did not happen synchronously in all cells. At 24 hr, scattered cells remained strongly immunopositive, while the majority of cells were completely immunonegative. GLAST and GLT-1 co-localized in neocortical tissue, but at 12 hr, many GLAST-positive cells had lost the GLT-1 termini. The uneven disappearance of labeling was not observed with the antibodies to GLT-1 residues 493–508. The immunoreactivity to this epitope correlated better with the reported glutamate uptake activity. Thus, postmortem delay may affect epitopes differently, possibly causing erroneous conclusions about relative expression levels.     

Differential expression of the glutamate transporter GLT-1 in pancreas

The glutamate uptake transporter GLT-1 is best understood for its critical role in preventing brain seizures. Increasing evidence argues that GLT-1 also modulates, and is modulated by, metabolic processes that influence glucose homeostasis. To investigate further the potential role of GLT-1 in these regards, the authors examined GLT-1 expression in pancreas and found that mature multimeric GLT-1 protein is stably expressed in the pancreas of wild-type, but not GLT-1 knockout, mice. There are three primary functional carboxyl-terminus GLT-1 splice variants, called GLT-1a, b, and c. Brain and liver express all three variants; however, the pancreas expresses GLT-1a and GLT-1b but not GLT-1c. Quantitative real time-PCR further revealed that while GLT-1a is the predominant GLT-1 splice variant in brain and liver, GLT-1b is the most abundant splice variant expressed in pancreas. Confocal microscopy and immunohistochemistry showed that GLT-1a and GLT-1b are expressed in both islet β- and α-cells. GLT-1b was also expressed in exocrine ductal domains. Finally, glutamine synthetase was coexpressed with GLT-1 in islets, which suggests that, as with liver and brain, one possible role of GLT-1 in the pancreas is to support glutamine synthesis.     

Capacitance--voltage relationship in phospholipid bilayers containing gangliosides

Changes in the position of the minimum of the parabolic capacitance-voltage curve allow the measurement of the amount of ganglioside present in artificial bilayers made with phosphatidylcholine-ganglioside mixtures and asymmetrically shielded with Ca2+. The screening effect of the ionic solution must be considered. With ganglioside/phospholipid molar ratios of up to 15%, all glycolipids can be found at the membrane surfaces.     

Two Parallel Pathways Assign Opposing Odor Valences during Drosophila Memory Formation

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人源酪蛋白激酶Ⅱ催化亚基的构建及表达纯化

目的:构建人源CK2催化亚基pET-28a(+)-hcsnk2a1和pET-28a(+)-hcsnk2a2重组质粒,并进行原核表达纯化得到高纯度融合蛋白,为进一步开展CK2生理病理机制研究以及CK2作为肿瘤抑制靶点相关抑制剂的筛选和评价提供实验基础。方法:利用合成的人源csnk2a1和csnk2a2目的基因片段,将酶切连接得到的重组质粒经测序验证后,进行大肠杆菌感受态BL21 (DE3)/Transetta (DE3)转化。使用合适浓度IPTG诱导融合蛋白的表达以得到可溶性的融合蛋白,并应用AKTA avant蛋白纯化仪和Ni2+-NTA预装柱进行纯化,蛋白纯度最后经SDS-PAGE胶分离后考马斯亮蓝染色和Western Blot检测鉴定。结果:测序结果表明pET-28a(+)-hcsnk2a1和pET-28a(+)-hcsnk2a2质粒均成功被构建;经转化诱导表达后,成功纯化得到相对分子量为42KD的his-hcsnk2a1和38KD的his-hcsnk2a2目的融合蛋白。结论:首次成功构建得到pET-28a(+)-hcsnk2a1和pET-28a(+)-hcsnk2a2质粒;并表达纯化得到高浓度和高纯度的his-hcsnk2a1和his-hcsnk2a2融合蛋白,为后期的蛋白功能研究和抑制剂筛选评价提供了基础。