重组人白介素6受体功能区片段的功能鉴定

用生物素标记重组人白介素6受体功能区片段rIL6R-28及其二联体蛋白rIL6R-53．竞争ELISA表明重组蛋白可以与配基IL-6特异结合．流式细胞术检测结果表明IL-6与生物素标记的重组蛋白所形成的复合物能够与7TD1细胞表面的gp130结合．而7TD1细胞生长分析则表明,重组蛋白可以增强IL-6对7TD1．细胞的生长刺激作用．     

Apoptotic resistance exhibited by dexamethasone-resistant murine 7TD1 cells is controlled independently of interleukin-6 triggered signaling

Interleukin-6 (IL6)-mediated signaling is known to play a role in pathogenesis and resistance in several cancers like multiple myeloma (MM). In this report we used the IL6-dependent 7TD1 murine B-cell hybridoma as an in vitro model to study the interactions between IL6-signaling pathways and the development of dexamethasone resistance. Though in initial stages, 7TD1 cells grew IL6-dependent and were sensitive to dexamethasone-induced apoptosis, chronic exposure to dexamethasone led to a dexamethasone-resistant phenotype (7TD1-Dxm) that grew independent of exogenous IL6. While IL6-mediated JAK/STAT3 and PI3K/AKT signaling was important for proliferation of both cell lines, as shown in proliferation assays using the respective pathway inhibitors, AG490 and LY294002, the resistant cells were insensitive to induction of apoptosis using the same. STAT3 was constitutively phosphorylated in resistant cells and inhibition of its dimerization induced apoptosis but did not alter their insensitivity to dexamethasone. Our results suggest a role of entities downstream of IL6-mediated JAK/STAT3 signaling in development of dexamethasone resistance by 7TD1-Dxm cells.     

Fc epsilon RI-mediated association of 6-micron beads with RBL-2H3 mast cells results in exclusion of signaling proteins from the forming phagosome and abrogation of normal downstream signaling

Cells of the mucosal mast cell line, RBL-2H3, are normally stimulated to degranulate after aggregation of high affinity receptors for IgE (Fc epsilon RI) by soluble cross-linking ligands. This cellular degranulation process requires sustained elevation of cytoplasmic Ca2+. In this study, we investigated the response of RBL-2H3 cells to 6- micron beads coated with IgE-specific ligands. These ligand-coated beads cause only small, transient Ca2+ responses, even though the same ligands added in soluble form cause larger, more sustained Ca2+ responses. The ligand-coated 6-micron beads also fail to stimulate significant degranulation of RBL-2H3 cells, whereas much larger ligand- coated Sepharose beads stimulate ample degranulation. Confocal fluorescence microscopy shows that the 6-micron beads (but not the Sepharose beads) are phagocytosed by RBL-2H3 cells and that, beginning with the initial stages of bead engulfment, there is exclusion of many plasma membrane components from the 6-micron bead/cell interface, including p53/56lyn and several other markers for detergent-resistant membrane domains, as well as an integrin and unliganded IgE-Fc epsilon RI. The fluorescent lipid probe DiIC16 is a marker for the membrane domains that is excluded from the cell/bead interface, whereas a structural analogue, fast DiI, which differs from DiIC16 by the presence of unsaturated acyl chains, is not substantially excluded from the interface. None of these components are excluded from the interface of RBL-2H3 cells and the large Sepharose beads. Additional confocal microscopy analysis indicates that microfilaments are involved in the exclusion of plasma membrane components from the cell/bead interface. These results suggest that initiation of phagocytosis diverts normal signaling pathways in a cytoskeleton-driven membrane clearance process that alters the physiological response of the cells.     

Development of an IL-6 antagonist peptide that induces apoptosis in 7TD1 cells

Interleukin-6 (IL-6) is a pleiotropic cytokine involved in the regulation of proliferation and differentiation of hematopoietic cells and in the pathogenesis of many diseases, including multiple myeloma. This study pursues a way to interfere with IL-6 pathway in an attempt to modulate its biological activity. Here we describe the rational design and biological evaluation of peptides able to antagonize the murine IL-6 activity by interfering with IL-6 Receptor alpha in 7TD1 cells, a IL-6-dependent B-cell line. Of the peptide tested, only Guess 4a is capable of interfering with IL-6 transducing pathway, therefore inducing growth arrest and apoptosis of 7TD1 cells.     

Regulatory role of CD19 molecules in B-cell activation and differentiation

Cluster of differentiation ([CD]) 19 antigens are B-cell-specific molecules expressed on virtually all human cells of the B-lymphocyte lineage except plasma cells. We produced a new anti-CD19 monoclonal antibody (McAb), CLB-CD19, that was used to study the role of CD19 molecules in B-cell activation. Anti-CD19 McAb induced mobilization of free intracellular calcium ([Ca2+]i) in Daudi cells, but not in normal spleen or tonsillar B cells, for which crosslinking with a second anti-mouse Ig antibody was not required. Anti-CD19 McAb inhibited B-cell proliferation induced by anti-IgM coupled to Sepharose beads. This inhibitory effect was overcome by the addition of nonmitogenic concentrations of phorbol myristate acetate. Anti-CD19 McAb did not interfere with Staphylococcus aureus- or B-cell growth factor-induced B-cell proliferation. Anti-CD19 McAb inhibited T-cell-dependent polyclonal B-cell differentiation in pokeweed mitogen-, interleukin 2-, or anti-CD3-driven culture systems. Delayed addition studies showed that once differentiation of B cells was induced, CD19 molecules lost their regulating function. Taken together, our results indicate that CD19 molecules play a regulatory role in B-cell proliferation and differentiation.     

白细胞介素-6在工程菌分批培养中的高效表达及其纯化

在确定了培养基及pH值的基础上,进一步观察了升温诱导过程中有机酸的产生及其对工程菌E.coli DH5α(pHV-hIL-6)生长和rIL-6表达的影响。当有机酸浓度低于70mmol/L以下时,菌密度达到干重2～3.5g/L之间收菌,rIL-6的表达水平为25％～32％;当有机酸浓度达到70mmol/L以上时,工程菌的生长不受影响,而rIL-6的表达明显受抑制。产生的有机酸以乙酸为主。收集菌体后,经过破菌,分离提纯的包涵体,其rIL-6的纯度可达到70％。用GuHCl缓冲液溶解包涵体,样品稀释后经过Q Sepharose F F柱纯化,可得到纯度达95％以上的rIL-6。采用依赖IL-6的小鼠杂交瘤细胞系7TD1及MTT比色法测定生物活性,rIL-6的比活性为2×10~8U/mg。     

TLR ligands in the local treatment of established intracerebral murine gliomas

Local TLR stimulation is an attractive approach to induce antitumor immunity. In this study, we compared various TLR ligands for their ability to affect murine GL261 cells in vitro and to eradicate established intracerebral murine gliomas in vivo. Our data show that GL261 cells express TLR2, TLR3, and TLR4 and respond to the corresponding TLR ligands with increasing MHC class I expression and inducing IL-6 secretion in vitro, while TLR5, TLR7, and TLR9 are essentially absent. Remarkably, CpG-oligonucleotides (CpG-ODN, TLR9) appeared to inhibit GL261 cell proliferation in a cell-type specific, but CpG-motif and TLR9-independent manner. A single intratumoral injection of CpG-ODN most effectively inhibited glioma growth in vivo and cured 80% of glioma-bearing C57BL/6 mice. Intratumoral injection of Pam3Cys-SK4 (TLR1/2) or R848 (TLR7) also produced a significant survival benefit, whereas poly(I:C) (TLR3) or purified LPS (TLR4) stimulation alone was not effective. Additional studies using TLR9(+/+) wild-type and TLR9(-/-) knockout mice revealed that the efficacy of local CpG-ODN treatment in vivo required TLR9 expression on nontumor cells. Additional experiments demonstrated increased frequencies of tumor-infiltrating IFN-gamma producing CD4(+) and CD8(+) effector T cells and a marked increase in the ratio of CD4(+) effector T cells to CD4(+)FoxP3(+) regulatory T cells upon CpG-ODN treatment. Surviving CpG-ODN treated mice were also protected from a subsequent tumor challenge without further addition of CpG-ODN. In summary, this study underlines the potency of local TLR treatment in antiglioma therapy and demonstrates that local CpG-ODN treatment most effectively restores antitumor immunity in a therapeutic murine glioma model.     

Aptamer directly evolved from live cells recognizes membrane bound immunoglobin heavy mu chain in Burkitt's lymphoma cells

The identification of tumor related cell membrane protein targets is important in understanding tumor progression, the development of new diagnostic tools, and potentially for identifying new therapeutic targets. Here we present a novel strategy for identifying proteins that are altered in their expression levels in a diseased cell using cell specific aptamers. Using an intact viable B-cell Burkitt's lymphoma cell line (Ramos cells) as the target, we have selected aptamers that recognize cell membrane proteins with high affinity. Among the selected aptamers that showed different recognition patterns with different cell lines of leukemia, the aptamer TD05 showed binding with Ramos cells. By chemically modifying TD05 to covalently cross-link with its target on Ramos cells to capture and to enrich the target receptors using streptavidin coated magnetic beads followed by mass spectrometry, we were able to identify membrane bound immunoglobin heavy mu chain as the target for TD05 aptamer. Immunoglobin heavy mu chain is a major component of the B-cell antigen receptor, which is expressed in Burkitt's lymphoma cells. This study demonstrates that this two step strategy, the development of high quality aptamer probes and then the identification of their target proteins, can be used to discover new disease related potential markers and thus enhance tumor diagnosis and therapy. The aptamer based strategy will enable effective molecular elucidation of disease related biomarkers and other interesting molecules.     

Surface-assisted delivery of fluorescent groups to hGST A1-1 and a lysine mutant

Human glutathione transferase (hGST) A1-1 and a lysine mutant (A216K) can both be rapidly and site-specifically acylated on Y9 and K216, respectively, using a range of thiolesters of glutathione (GS-thiolesters) as modifying reagents. The present investigation was aimed at developing a method with which to deliver a fluorescent acyl group from a solid support under conditions compatible with standard protein purification schemes. A number of fluorescent GS-thiolesters with modified peptide backbones were therefore prepared and tested for reactivity toward hGST A1-1 and the A216K mutant. Substitutions at the alpha-NH2 part of the glutathione backbone were not tolerated by the proteins. However, two fluorescent reagents that carry a biotin moiety at the C-terminal part of glutathione were found through MALDI-MS experiments to react in solution with Y9 of the wild-type protein and one reagent with K216 of A216K. The reaction can take place in the presence of glutathione and even in a crude E. coli lysate of cells expressing A216K. Delivery of the fluorescent group to Y9 or K216 was possible using NeutrAvidin (NA) beads that had been preincubated with biotinylated reagent. Alternatively, excess reagent can be removed by a brief incubation with NA beads. We have thus now developed a system for protein labeling with easy removal of excess and used up low-molecular weight reagent. This strategy can conceivably be utilized in future protein purification and labeling experiments.     

Cell surface interaction is sufficient for the biological activity of a bovine sialoglycopeptide inhibitor

A sialoglycopeptide inhibitor, isolated from bovine cerebral cortex cells, that reversibly inhibits protein and DNA synthesis, was coupled to either Sepharose or polyacrylamide beads. Whereas over 1 ng of the inhibitor was released from Sepharose beads after 30 min at 37 degrees C, less than 0.2 ng of the sialoglycopeptide was released from the polyacrylamide beads. When added to 3T3 cells, the immobilized sialoglycopeptide efficiently inhibited protein synthesis. No detectable sialoglycopeptide inhibitor was released into the assay medium in the presence or absence of 3T3 cells. Addition of [125I]sialoglycopeptide, coupled to acrylamide P100 beads, to 3T3 cells also demonstrated that the sialoglycopeptide was not internalized by the cells. Thus we conclude that an interaction of the sialoglycopeptide at the cell surface is sufficient for biological inhibitory activity.     

Antigen-mediated growth control of hybridoma cells via a human artificial chromosome

Human artificial chromosome (HAC) vectors possess several characteristics sufficient for the requirements of gene therapy vectors, including stable episomal maintenance and mediation of long-term transgene expression. In this study, we adopted an antigen-mediated genetically modified cell amplification (AMEGA) system employing an antibody/cytokine receptor chimera that triggers a growth signal in response to a cognate non-toxic antigen, and applied it to growth control of HAC-transferred cells by adding an antigen that differed from cytokines that may manifest pleiotropic effects. We previously constructed a novel HAC vector, 21 Delta qHAC, derived from human chromosome 21, housed in CHO cells. Here, we constructed an HAC vector harboring an ScFv-gp130 chimera responsive to fluorescein-conjugated BSA (BSA-FL) as well as a model transgene, enhanced green fluorescent protein (EGFP), in CHO cells. The modified HAC was transferred into interleukin (IL)-6-dependent hybridoma 7TD1 cells by microcell-mediated chromosome transfer, and the cells were subsequently found to show BSA-FL-dependent cell growth and sustained expression of EGFP in the absence of IL-6. The AMEGA system in combination with HAC technology will be useful for increasing the efficacy of gene therapy by conferring a growth advantage on the genetically modified cells.     

The initiation of mast cell degranulation: activation at the cell membrane.

The low molecular weight mast cell activator, polymyxin B, has been covalently bound to an insoluble matrix of Sepharose 4B. It has been demonstrated that mast cells in preparations of rat peritoneal cells bind to Sepharose 4B-polymyxin B beads but not to control beads. The bound cells are stimulated to degranulate by this interaction at the cell membrane with the resultant release of biogenic amines.     

Polymer support for exonucleolytic sequencing

Different kinds of particles were investigated for their potential use as supports for exonucleolytic sequence analysis. Composite beads composed of an unreactive polystyrene "core" and a "shell" of functionalized silica nanoparticles were found to best fulfill the various prerequisites. The biotin/streptavidin system was used for attachment of DNA to composite beads of 6 microm diameter. Applying M13 ssDNA in extremely high dilution (approximately 1 molecule versus 100 beads) with internal fluorescent labels, only a small fraction of beads was found to be associated with fluorescent entities, which likely correspond to a very small number of bound DNA molecules per particle. For better selection and transfer of DNA-containing beads into microstructures for exonuclease degradation the loading experiments were repeated with composite beads of 2.3 microm diameter. In this case a covalent bond was formed between carboxylate-functionalized beads and amino-terminated oligonucleotides, which were detected through external labelling with fluorescent nanoparticles interacting with biotinylated segments of the complementary strand.     

Studies of the in vitro activation and differentiation of human B lymphocytes. II. Optimization of activation by anti-immunoglobulin antibody bound to beads: analysis of the role of autocrine effects on B-cell proliferation and of T-cell help in B-cell differentiation

We report experiments attempting to optimize the proliferative response of human B cells to rabbit anti-immunoglobulin antibody (RAHIg)-linked beads (anti-Ig beads). By choosing polyacrylamide beads of small size (3 micron) and coupling anti-Ig to them at high concentrations, beads were obtained which were both B-cell specific and more highly mitogenic than other than anti-Ig reagents and B-cell mitogens (SAC, protein A). Using these beads to activate B cells, the augmentation of the anti-Ig-induced proliferative response by added T-cell-derived growth factors was largely eliminated at high cell densities although the effect of these factors was still evident at low cell densities. However, when cultures were performed in round-bottom vessels which crowded the B cells together, the response to anti-Ig beads was independent of T-cell factors even at low B-cell densities, suggesting that normal B cells triggered by anti-Ig beads are able to maintain their own proliferation. In contrast to the proliferative response, even with the most potent anti-Ig bead preparations, no differentiation (Ig production or expression of terminal differentiation markers) was evident unless T-cell help was provided.     

Tolerance induction via a B-cell delivered gene therapy-based protocol: optimization and role of the Ig scaffold

Our previous studies indicated that antigen-specific tolerance could be achieved by the injection of LPS-activated B-cell blasts that were retrovirally gene-transferred with an IgG-antigen fusion construct. This system was shown to be effective for tolerance induction with a variety of inserted antigens ranging in size from a single peptide to a large multi-epitope protein in a variety of mouse strains. Moreover, it was shown to be effective in four animal models for human disease. To optimize the existing protocol, establish the role of the IgG H chain scaffold, and provide baseline for potential clinical applications, we examined the effects of different B-cell activators, including lipopolysaccharide (LPS), anti-CD40, CpG oligodeoxynucleotide (CpG-ODN), and anti-IgM plus IL-4, on B-cell proliferation, GFP transduction efficiency, and tolerance induction in vivo. The results show that all activators except CpG-ODN have similar effects on retroviral gene transfer and peptide-IgG-induced tolerance. Furthermore, dose-response analyses showed that T-cell tolerance could be induced with 10(5) peptide-IgG LPS B-cell blasts, but that 10(6) transduced B-cells were needed for humoral unresponsiveness. Transduced anti-IgM-induced blasts were tolerogenic at 10(6) cells, but no dose of transduced CpG blasts was tolerogenic. Finally, to examine the role of IgG scaffold, a retroviral construct encoding lambda repressor p1-102 and signal peptide of murine IgG heavy chain was engineered to allow secretion of the p1-102 domain in the same manner as that of p1-102-IgG fusion protein. The results demonstrate that not only is IgG scaffold important in tolerance induction and maintenance of the long-lasting immune hyporesponsiveness, but assembly of the IgG heterodimer may be required for the efficacy of this system.     

Binding of stimulated human peripheral blood lymphocytes to Sepharose-concanavalin A is not reversed by methyl-α-mannoside

Concanavalin A (con A) bound to Sepharose beads stimulates human peripheral blood lymphocytes and as with soluble con A, DNA synthesis can be prevented by the addition of methyl-α-mannoside (MAM) 1 hr after exposure to mitogen. In contrast to the response of cells stimulated with soluble con A, addition of MAM 24 hr after the start of incubation with Sepharose bound mitogen does not prevent a second round of DNA replication as determined in bromodeoxyuridine density transfer experiments indicating that MAM does not dissociate the Sepharose-con A responding cell complex. We infer that within 24 hr, lymphocytes develop associations with con A-Sepharose beads at non MAM dissociable sites.     

Heterotrimeric configuration is essential to the adhesive function of laminin.

Mouse PFHR9 laminin, B1B2-heterodimers, and free B1-chains were separated from one another by gel filtration on Superose 6. The cell attachment promoting activity of these species was measured after immunoprecipitation with monoclonal anti-laminin antibodies coupled to Sepharose 6MB beads. These antibodies, which did not react with the laminin E8 fragment, were directed against epitopes in the NH2-terminus of the laminin B1-chain and in the central region of laminin. After incubation with purified EHS laminin, the immunosorbents revealed efficient adhesion substrates for a rat rhabdomyosarcoma cell line which attached preferentially to the laminin E8 fragment. Although both were immunoprecipitated efficiently, B1B2-heterodimers and B1-chains, unlike PFHR9 laminin, did not support the attachment of RMS cells. On a molar basis B1B2-heterodimers were 24 times less efficient than PFHR9 laminin or EHS laminin in supporting cell attachment. These data suggest that heterotrimeric configuration is essential to the adhesive function of the laminin E8 fragment.     

Lactococcus lactis release from calcium alginate beads.

Cell release during milk fermentation by Lactococcus lactis immobilized in calcium alginate beads was examined. Numbers of free cells in the milk gradually increased from 1 x 10(6) to 3 x 10(7) CFU/ml upon successive reutilization of the beads. Rinsing the beads between fermentations did not influence the numbers of free cells in the milk. Cell release was not affected by initial cell density within the beads or by alginate concentration, although higher acidification rates were achieved with increased cell loading. Coating alginate beads with poly-L-lysine (PLL) did not significantly reduce the release of cells during five consecutive fermentations. A double coating of PLL and alginate reduced cell release by a factor of approximately 50. However, acidification of milk with beads having the PLL-alginate coating was slower than that with uncoated beads. Immersing the beads in ethanol to kill cells on the periphery reduced cell release, but acidification activity was maintained. Dipping the beads in aluminum nitrate or a hot CaCl2 solution was not as effective as dipping them in ethanol. Ethanol treatment or heating of the beads appears to be a promising method for maintaining acidification activity while minimizing viable cell release due to loosely entrapped cells near the surface of the alginate beads.     

Lactococcus lactis release from calcium alginate beads.

Cell release during milk fermentation by Lactococcus lactis immobilized in calcium alginate beads was examined. Numbers of free cells in the milk gradually increased from 1 x 10(6) to 3 x 10(7) CFU/ml upon successive reutilization of the beads. Rinsing the beads between fermentations did not influence the numbers of free cells in the milk. Cell release was not affected by initial cell density within the beads or by alginate concentration, although higher acidification rates were achieved with increased cell loading. Coating alginate beads with poly-L-lysine (PLL) did not significantly reduce the release of cells during five consecutive fermentations. A double coating of PLL and alginate reduced cell release by a factor of approximately 50. However, acidification of milk with beads having the PLL-alginate coating was slower than that with uncoated beads. Immersing the beads in ethanol to kill cells on the periphery reduced cell release, but acidification activity was maintained. Dipping the beads in aluminum nitrate or a hot CaCl2 solution was not as effective as dipping them in ethanol. Ethanol treatment or heating of the beads appears to be a promising method for maintaining acidification activity while minimizing viable cell release due to loosely entrapped cells near the surface of the alginate beads.     

High gradient magnetic cell separation with MACS.

A flexible, fast and simple magnetic cell sorting system for separation of large numbers of cells according to specific cell surface markers was developed and tested. Cells stained sequentially with biotinylated antibodies, fluorochrome-conjugated avidin, and superparamagnetic biotinylated-microparticles (about 100 nm diameter) are separated on high gradient magnetic (HGM) columns. Unlabelled cells pass through the column, while labelled cells are retained. The retained cells can be easily eluted. More than 10(9) cells can be processed in about 15 min. Enrichment rates of more than 100-fold and depletion rates of several 1,000-fold can be achieved. The simultaneous tagging of cells with fluorochromes and very small, invisible magnetic beads makes this system an ideal complement to flow cytometry. Light scatter and fluorescent parameters of the cells are not changed by the bound particles. Magnetically separated cells can be analysed by fluorescence microscopy or flow cytometry or sorted by fluorescence-activated cell sorting without further treatment. Magnetic tagging and separation does not affect cell viability and proliferation.