Characterization of a glycosyl-phosphatidylinositol degrading activity in Dictyostelium discoideum membranes

Antigen 117 is a glycolipid-anchored cell surface protein implicated in cell-cell cohesion of Dictyostelium discoideum amoebae. Previous studies have demonstrated that during cell aggregation some of the protein is released from the cell surface. Here we report the characterization of the enzymatic activity involved in the 117 antigen release. The data indicate that the releasing enzyme is a phosphatidylinositol phospholipase C. The data also indicate that structural features of glycolipid anchors are conserved in a variety of organisms.     

Interaction between SPARC and tubulin in <Emphasis Type="Italic">Xenopus</Emphasis>

Secreted protein, acidic, rich in cysteine (SPARC) is an ancient calcium-binding glycoprotein associated with the extracellular matrices of invertebrates and vertebrates. We have previously reported an intracellular association of SPARC with the 9+2 microtubule arrays of cilia on the surface ectoderm of Xenopus embryos. During early development in Xenopus, ciliated cell precursors are associated with the inner sensorial layer of the two-layered embryonic skin. The ciliated cell precursors migrate to the overlying surface ectoderm where they undergo ciliogenesis. Whole-mount immunohistochemical data indicate SPARC is associated with the ciliary tuffts until ciliated cells begin to disappear from the surface ectoderm during late tailbud development. We now report an association between SPARC and tubulin in Xenopus embryonic cell lysates by co-immunoprecipitation. Tubulin is not co-immunoprecipitated by anti-SPARC antibodies that show no cross-reactivity to Xenopus SPARC by whole-mount immunocytochemical analysis. An association of SPARC with tubulin has also been observed in pull-down assays with biotinylated SPARC as bait. These data indicate that SPARC may have intracellular and extracellular functions during development in Xenopus.     

Expression of galectins on microvessel endothelial cells and their involvement in tumour cell adhesion

Lactoside-binding lectins (galectins) with molecular weights of about 14.5 kDa (galectin-1) and 29–35 kDa (galectin-3) bind preferentially to polylactosaminoglycan-containing glycoconjugates and have been found on the surface of tumour cells and implicated in cell-cell and cell-extracellular matrix adhesion and metastasis. We have demonstrated by immunoblotting that both galectin-1 and galectin-3 are present in extracts of endothelial cells cultured from bovine aorta, rat lung, mouse lung and mouse brain microvessels, whereas mouse hepatic sinusoidal endothelial cells expressed primarily galectin-1. These galectins were also localized by indirect immunofluorescent labelling on the surface of the different endothelial cells in culture and by immunohistochemical staining in human tissuesin vivo. Anti-galectin-1 antibodies inhibited the adhesion of liver-preferring murine RAW117-H10 large-cell lymphoma cells to hepatic sinusoidal endothelial cells or lung microvessel endothelial cellsin vitro. The data indicate that galectin-1 is expressed on the extracellular surface of endothelial cells and can mediate in part the adhesion of RAW117-H10 cells to liver microvessel endothelial cells.     

烟芽夜蛾囊泡病毒3h株编码的3H-117蛋白能干扰AcMNPV的口服活性

[目的]囊泡病毒是一类体液传播的昆虫病毒,具有特殊的致病历程和良好的生防应用潜力.烟芽夜蛾囊泡病毒3h株(Heliothis virescens ascovirus 3h,HvAV-3h)是我国分离的第一株囊泡病毒,其编码的3H-117蛋白被报道为HvAV-3h病毒粒子的结构蛋白.[方法]为了进一步探究3h-117基因...     

PKC-Dependent Long-Term Effect of PMA on Protein Cell Surface Expression in Caco-2 Cells

Several recent data indicate that protein traffic is under the control of different phosphorylation pathways. In previous works, we have shown that cell surface expression of apical hydrolases and of a basolateral protein, “525” antigen, was impaired in Caco-2 cells treated with forskolin, a potent PKA activator (L. Baricaultet al.,1995,J. Cell Sci.,108, 2109–2121). Surprisingly, in these experiments forskolin did not seem to act through PKA activation. These cAMP-independent effects of FK may rely on cross-talk between intracellular phosphorylation pathways as described recently for PKA and PKC pathways. Therefore, we tested the hypothesis that PKC activation may induce effects comparable to those of FK on three brush border hydrolases as well as on 525 antigen cell surface expression in Caco-2 cells. Using enzymatic activity measurements and pulse–chase experiments combined with cell surface biotinylation assays, we show that long-term treatment with phorbol 12-myristate 13-acetate (PMA) impairs the overall expression of neither brush border hydrolases nor that of the 525 antigen but decreases total cell surface expression of these proteins. The apical and basolateral delivery pathways are equally affected. Using confocal laser scanning microscopy we show that the DPP IV and the 525 antigen that were not recovered from the cell surface were sequestrated in Lamp-1-positive lysosomal-related vesicles. PMA stimulates PKC translocation even after a 3-week treatment and induces PKC? redistribution to a vesicular- and membrane-associated compartment also labeled with cytokeratins. These results demonstrate that PMA-dependent PKC activation strongly impairs protein cell surface targeting. They also suggest that these PKC-dependent effects which are similar to those previously obtained with FK are relevant to the described cross-talk between PKA- and PKC-dependent phosphorylation pathways.     

Construction of a Novel <Emphasis Type="Italic">Pichia pastoris</Emphasis> Cell-Surface Display System Based on the Cell Wall Protein Pir1

A novel system based on Pir1 from Saccharomyces cerevisiae was developed for cell-surface display of heterologous proteins in Pichia pastoris with the alpha-factor secretion signal sequence. As a model protein, enhanced green fluorescence protein (EGFP) was fused to the N-terminal of the mature peptide of Pir1 (Pir1-a). The expression of fusion protein EGFP-Pir1-a was irregular throughout the P. pastoris cell surface per detection by confocal laser scanning microscopy. A truncated sequence containing only the internal repetitive sequences of Pir1-a (Pir1-b) was used as a new anchor protein in further study. The fusion protein EGFP-Pir1-b was expressed uniformly on the cell surface. The fluorescence intensity of the whole yeast was measured by spectrofluorometer. Western blot confirmed that the fusion proteins were released from cell walls after mild alkaline treatment. The results indicate that a Pir1-based system can express proteins on the surface of P. pastoris and that the fusion proteins do not affect the manner in which Pir1 attaches to the cell wall. The repetitive sequences of Pir1 are required for cell wall retention, and the C-terminal sequence contributes to the irregular distribution of fusion proteins in P. pastoris.     

Efficient and Direct Fermentation of Starch to Ethanol by Sake Yeast Strains Displaying Fungal Glucoamylases

Aspergillus oryzae glucoamylases encoded by glaA and glaB, and Rhizopus oryzae glucoamylase, were displayed on the cell surface of sake yeast Saccharomyces cerevisiae GRI-117-UK and laboratory yeast S. cerevisiae MT8-1. Among constructed transformants, GRI-117-UK/pUDGAA, displaying glaA glucoamylase, produced the most ethanol from liquefied starch, although MT8-1/pUDGAR, displaying R. oryzae glucoamylase, had the highest glucoamylase activity on its cell surface.     

The role of genomic location and flanking 3′UTR in the generation of functional levels of variant surface glycoprotein in Trypanosoma brucei

Trypanosoma brucei faces relentless immune attack in the mammalian bloodstream, where it is protected by an essential coat of Variant Surface Glycoprotein (VSG) comprising ～10% total protein. The active VSG gene is in a Pol I‐transcribed telomeric expression site (ES). We investigated factors mediating these extremely high levels of VSG expression by inserting ectopic VSG117 into VSG221 expressing T. brucei. Mutational analysis of the ectopic VSG 3′UTR demonstrated the essentiality of a conserved 16‐mer for mRNA stability. Expressing ectopic VSG117 from different genomic locations showed that functional VSG levels could be produced from a gene 60 kb upstream of its normal telomeric location. High, but very heterogeneous levels of VSG117 were obtained from the Pol I‐transcribed rDNA. Blocking VSG synthesis normally triggers a precise precytokinesis cell‐cycle checkpoint. VSG117 expression from the rDNA was not adequate for functional complementation, and the stalled cells arrested prior to cytokinesis. However, VSG levels were not consistently low enough to trigger a characteristic ‘VSG synthesis block’ cell‐cycle checkpoint, as some cells reinitiated S phase. This demonstrates the essentiality of a Pol I‐transcribed ES, as well as conserved VSG 3′UTR 16‐mer sequences for the generation of functional levels of VSG expression in bloodstream form T. brucei.     

Comparative biochemical and ultrastructural studies of P-selectin in rabbit platelets

The role of platelets in thrombotic vascular disease has been widely studied in rabbits. Yet, in rabbit platelets, there is little known about the α-granules, which contain many of the key effector molecules for thrombosis. In this comparative study of rabbit platelets, we have characterized the structure and expression of P-selectin, an α-granule membrane protein that mediates leukocyte adhesion and thrombus propagation. The sequences of tryptic peptides of rabbit P-selectin show an overall sequence identity of 74% with human P-selectin, and 69–77% identity with cow, dog, mouse, rat and sheep P-selectins. The mean (±S.D.) apparent molecular mass of reduced rabbit P-selectin is 117±7 kDa which is 8 kDa larger than the unreduced protein (109±5 kDa). Rabbit P-selectin appears smaller than human P-selectin, but is comparable to other species P-selectins, that have fewer ‘complement regulatory protein’ repeat domains. Cell membrane labeling experiments and antibody binding studies indicate that rabbit P-selectin is nearly absent from the surface of resting platelets (290±30 molecules cell⁻¹). However, cellular activation with thrombin causes nearly a 30-fold increase in expression to 14 200±1100 molecules cell⁻¹. P-selectin is also be expressed on the surface of rabbit platelets activated by other agonists like ADP, A23817 and epinephrine. This selective expression is explained by immunoelectronmicroscopic studies, which show that rabbit P-selectin is sequestered in the intracellular granules of resting platelets. After cell activation by thrombin, P-selectin is found decorating the external membranes of platelet pseudopodia and the surface connected canalicular system. In summary, these studies of P-selectin in rabbit platelets indicate that it is similar in structure, cell localization and expression to human and other species P-selectins. This suggests that studies of P-selectin in thrombosis in rabbits are likely to provide useful insights into the role of this molecule in human thrombotic vascular disease and related conditions.     

Improved accuracy of cell surface shaving proteomics in Staphylococcus aureus using a false‐positive control

Proteolytic treatment of intact bacterial cells is an ideal means for identifying surface‐exposed peptide epitopes and has potential for the discovery of novel vaccine targets. Cell stability during such treatment, however, may become compromised and result in the release of intracellular proteins that complicate the final analysis. Staphylococcus aureus is a major human pathogen, causing community and hospital‐acquired infections, and is a serious healthcare concern due to the increasing prevalence of multiple antibiotic resistances amongst clinical isolates. We employed a cell surface “shaving” technique with either trypsin or proteinase‐K combined with LC‐MS/MS. Trypsin‐derived data were controlled using a “false‐positive” strategy where cells were incubated without protease, removed by centrifugation and the resulting supernatants digested. Peptides identified in this fraction most likely result from cell lysis and were removed from the trypsin‐shaved data set. We identified 42 predicted S. aureus COL surface proteins from 260 surface‐exposed peptides. Trypsin and proteinase‐K digests were highly complementary with ten proteins identified by both, 16 specific to proteinase‐K treatment, 13 specific to trypsin and three identified in the control. The use of a subtracted false‐positive strategy improved enrichment of surface‐exposed peptides in the trypsin data set to approximately 80% (124/155 peptides). Predominant surface proteins were those associated with methicillin resistance–surface protein SACOL0050 (pls) and penicillin‐binding protein 2′ (mecA), as well as bifunctional autolysin and the extracellular matrix‐binding protein Ebh. The cell shaving strategy is a rapid method for identifying surface‐exposed peptide epitopes that may be useful in the design of novel vaccines against S. aureus.     

Complete nucleotide sequence of complementary DNA coding for a variant surface glycoprotein from Trypanosoma brucei

The complete nucleotide sequence of complementary DNA coding for a variant surface glycoprotein (VSG 117) of Trypanosoma brucei has been determined and compared with amino acid sequence data for the mature protein. This has revealed several interesting and novel features about the synthesis and processing of VSG 117: (1) the primary translation product of the VSG 117 gene includes hydrophobic extensions at both the NH₂ and COOH termini that are not found on mature VSG 117; (2) the glycosylated residue at the mature COOH terminus is aspartate, a residue that is not known to be glycosylated in any other system; (3) the nucleotide sequence shows an unusual dinucleotide frequency and codon usage for the gene.     

Cell surface control of differentiation in acanthamoeba

Acanthamoeba castellanii (Neff) is a free-living soil amoeba with close relatives that are opportunistic pathogens. Trophozoites differentiatite into cysts when deprived of nutrients; cysts convert into trophozoites, leaving the well behind, in the presence of nutrients. The data presented here, which includes immunoaffinity purification of the receptor, indicate that cell surface molecular signals also control Acanthamoeba differentiation in both directions. Monoclonal antibodies that bind specifically to a 40 kD trophozoite protein initiate the encystment of trophozoites. When bound to cysts the same monoclonal antibodies prevent excystment. Washing away the antibody allows both trophozoites and cysts to resume normal activity. One of these monoclonal antibodies inhibits pinocytosis, while another has effect on pinocytosis.     

Host cell binding of the flagellar tip protein of Campylobacter jejuni

Flagella are nanofibers that drive bacterial movement. The filaments are generally composed of thousands of tightly packed flagellin subunits with a terminal cap protein, named FliD. Here, we report that the FliD protein of the bacterial pathogen Campylobacter jejuni binds to host cells. Live‐cell imaging and confocal microscopy showed initial contact of the bacteria with epithelial cells via the flagella tip. Recombinant FliD protein bound to the surface of intestinal epithelial cells in a dose‐dependent fashion. Search for the FliD binding site on the host cell using cells with defined glycosylation defects indicated glycosaminoglycans as a putative target. Heparinase treatment of wild type cells and an excess of soluble heparin abolished FliD binding. Binding assays showed direct and specific binding of FliD to heparin. Addition of an excess of purified FliD or heparin reduced the attachment of viable C. jejuni to the host cells. The host cell binding domain of FliD was mapped to the central region of the protein. Overall, our results indicate that the C. jejuni flagellar tip protein FliD acts as an attachment factor that interacts with cell surface heparan sulfate glycosaminoglycan receptors.     

Lipovitellin constitutes the protein backbone of glycoproteins involved in sperm-egg interaction in the amphibian Discoglossus pictus

Our knowledge of the molecules that interact with sperm at the egg membrane is restricted to a short list. In the eggs of Discoglossus pictus, fusion with sperm is limited to a differentiated structure, the dimple, offering several advantages for detecting molecules involved in fertilization. Previous studies have identified fucosylated glycoproteins of 200, 260, and 270 kDa located at the surface of the dimple that are able to bind sperm in vitro. Here, we show that dimple glycoproteins and a protein represented by a 120‐kDa band released following gel‐into‐gel SDS–PAGE of both glycoproteins share the same N‐terminal amino acid sequence, which itself is similar to the N‐termini of Xenopus liver‐synthesized vitellogenin (VTG) and the lipovitellin 1. MALDI/MS mass spectrometry indicated that the 120‐kDa band is part of both gps 200 and 270/260. A 117‐kDa major protein of the egg lysate exhibits the same MALDI/MS spectrum, and LC‐MSMS indicates that this is a lipovitellin 1 (DpLIV) that coincides with the 120‐kDa band and is responsible for the formation of the 200–270‐kDa dimers. Therefore, lipovitellin 1 constitutes the protein backbone of the dimple glycoconjugates. In vitro assays using polystyrene beads coated with DpLIV or with its dimers indicate that significant sperm binding occurs only with DpLIV dimers. In amphibians, VTG is taken up by the oocyte, where it releases lipovitellins destined to form yolk. In Discoglossus, our data suggest that yolk proteins are also synthesized by the oocyte. The dimple forms in the ovulated oocyte following the exocytosis of vesicles that likely expose DpLIVs at their membrane. Indeed, in whole mounts of immunostained eggs, anti‐vitellogenin antibodies label only the surface of the dimple. Mol. Reprod. Dev. 78:161–171, 2011. © 2011 Wiley‐Liss, Inc.     

Expression and function of the Trypanosoma brucei major surface protease (GP63) genes

The genome of the African trypanosome Trypanosoma brucei (Tb) contains at least three gene families (TbMSP-A, -B, and -C) encoding homologues of the abundant major surface protease (MSP, previously called GP63), which is found in all Leishmania species. TbMSP-B mRNA occurs in both procyclic and bloodstream trypanosomes, whereas TbMSP-A and -C mRNAs are detected only in bloodstream organisms. RNA interference (RNAi)-mediated gene silencing was used to investigate the function of TbMSP-B protein. RNAi directed against TbMSP-B but not TbMSP-A ablated the steady state TbMSP-B mRNA levels in both procyclic and bloodstream cells but had no effect on the kinetics of cultured trypanosome growth in either stage. Procyclic trypanosomes have been shown previously to have an uncharacterized cell surface metalloprotease activity that can release ectopically expressed surface proteins. To determine whether TbMSP-B is responsible for this release, transgenic variant surface glycoprotein 117 (VSG117) was expressed constitutively in T. brucei procyclic TbMSP-RNAi cell lines, and the amount of surface VSG117 was determined using a surface biotinylation assay. Ablation of TbMSP-B but not TbMSP-A mRNA resulted in a marked decrease in VSG release with a concomitant increase in steady state cell-associated VSG117, indicating that TbMSP-B mediates the surface protease activity of procyclic trypanosomes. This finding is consistent with previous pharmacological studies showing that peptidomimetic collagenase inhibitors block release of transgenic VSG from procyclic trypanosomes and are toxic for bloodstream but not procyclic organisms.     

A stage-specific inhibitory effect of benzamil on Xenopus oocyte maturation located at the cell surface

Benzamil, a drug reported to block passive Na⁺ transport, also inhibits progesterone-induced maturation of Xenopus oocytes when given early in the maturation period. The localization of tritiated benzamil at the oocyte surface was verified by autoradiography using a method that prevents diffusion of substances. These data indicate that the primary site of action of benzamil is at the cell surface.     

DNA sequence analysis of the lamB gene from Klebsiella pneumoniae: implications for the topology and the pore functions in maltoporin.

Summary We have determined the sequence of the lamB gene from Klebsiella pneumoniae. It encodes the precursor to the LamB protein, a 429 amino acid polypeptide with maltoporin function. Comparison with the Escherichia coli LamB protein reveals a high degree of homology, with 325 residues strictly identical. The N-terminal third of the protein is the most conserved part of the molecule (1 change in the signal sequence, and 13 changes up to residue 146 of the mature protein). Differences between the two mature proteins are clustered mainly in six regions comprising residues 145–167, 173–187, 197–226, 237–300, 311–329, and 367–387 (K. pneumoniae LamB sequence). The most important changes were found in regions predicted by the two-dimensional model of LamB folding to form loops on the cell surface. In vivo maltose and maltodextrin transport properties of E. coli K 12 and K. pneumoniae strains were identical. However, none of the E. coli K12 LamB-specific phages was able to plaque onto K. pneumoniae. Native K. pneumoniae LamB protein forms highly stable trimers. The protein could be purified by affinity chromatography on starch-Sepharose as efficiently as the E. coli K12 LamB protein, indicating a conservation of the binding site for dextrins. However, none of the monoclonal antibodies directed against native E. coli K12 LamB protein recognized native purified K. pneumoniae LamB protein. These data indicate that most of the variability occurs within exposed regions of the protein and provide additional support for the proposed model of LamB folding. The fact that the N-terminal third of the protein is highly conserved is in agreement with the idea that it is part of, or constitutes, the pore domain located within the transmembranous channel and that it is not accessible from the cell surface.     

Evolutionary analysis ofα andβ hemoglobin genes by reh theory under the assumption of the equiprobability of genetic events

Summary It is shown how REH theory in conjunction with mRNA or gene sequence data can be used to obtain estimates of the fixation intensity, the number of varions, and the total mutations fixed between homologous pairs of nucleic acids. These estimates are more accurate than those that can be derived from amino acid sequence data. The method is illustrated for and hemoglobin genes and these improved estimates are compared with those made from the amino acid sequences for which those genes code. Significant differences are found between the estimates made by these two methods. For the hemoglobin gene sequences examined here, the fixation intensity is some-what less than the protein data had suggested, and the number of rations is considerably greater. Depending on the gene sequences examined, between 62 and 83% of the codons appear able to fix mutations during the divergences considered. This reflects the constraints of natural selection on acceptable mutations. The total number of base replacements separating the genes for human, mouse, and rabbit hemoglobin varies from 61 to 105 depending on the pair examined. Rabbit and hemoglobin are separated by at least 290 fixed mutations. For such distantly related sequences estimates made from protein and mRNA data differ less, reflecting the higher quality of information from the many observed changes in primary structure. The effects of nonrandom gene structure on these evolutionary estimates and the fact that various genetic events are not equiprobable are discussed.