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1.
A series of monoclonal antibodies against a developmentally regulated protein of Dictyostelium discoideum, the contact site A glycoprotein, were used in immunoblots to label proteins of cells harvested at three stages of development: during the growth phase, at the aggregation competent stage, and at the slug stage. The antibodies fell into two groups according to their reactivity with partially or fully deglycosylated forms of the 80 kDa glycoprotein. Group A antibodies reacted not only with a 66 kDa, but also with a 53 kDa product of tunicamycin-treated wild-type cells, and they reacted with a 68 kDa component produced by HL220, a mutant that carries a specific defect in glycosylation. The 68 kDa product of the mutant was not completely unglycosylated. Like the 80 kDa glycoprotein of the wild type, which carried sulfate at carbohydrate residues, the mutant product was sulfated. In the presence of tunicamycin, the mutant produced a 53 kDa component indistinguishable from that of the wild type, which represents, most likely, the non-N-glycosylated protein portion of the contact site A glycoprotein. The group A antibodies showed almost no cross-reactivity with other proteins of the developmental stages tested, in accord with their postulated specificity for the protein moiety of the contact site A molecule. Group B antibodies did not react with the 53 kDa product of tunicamycin-treated cells, nor with the 68 kDa component of mutant HL220. These antibodies were of varying specificity. Some of them were almost as specific as group A antibodies, others cross-reacted with many proteins, particularly of the slug stage. Competition or non-competition between various group B antibodies for binding to the contact site A glycoprotein allowed sub-classification of these antibodies. According to two criteria, group B antibodies were characterized as anti-carbohydrate antibodies: (1) some of these antibodies were blocked by N-acetylglucosamine; (2) none of them reacted with the 68 kDa product or any other protein of mutant HL220. These results indicate that the 80 kDa glycoprotein carries two types of carbohydrate: type 1 carbohydrate that is sulfated and present on the 68 kDa product of mutant HL220, and type 2 carbohydrate that reacts with group B antibodies and is present on the 66 kDa product of tunicamycin-treated wild-type cells. Type 2 carbohydrate moieties are also present on many glycoproteins that are enriched in the prespore area of the slugs.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

2.
The three major spore coat proteins of Dictyostelium discoideum are developmentally regulated, cell-type-specific proteins. They are packaged in prespore vesicles and then secreted to form the outer layer of spore coats. We have isolated a cDNA clone from the gene coding for one of these proteins, SP96, a glycoprotein of 96,000 daltons. We screened the cDNA bank by the method of hybrid select translation followed by immunoprecipitation of the translation products with SP96-specific polyclonal antiserum. We found that the gene was first transcribed into stable mRNA a few hours before the time of detection of SP96 synthesis and that the mRNA, like the protein, accumulated specifically in prespore cells and spores. SP96 constituted the same proportion of newly synthesized protein as the proportion of its message in polyadenylated RNA. SP96 appeared to be encoded by a single gene as judged by Southern blot analysis of digested genomic DNA hybridized to the cDNA clone.  相似文献   

3.
We have analyzed a developmentally and spatially regulated prestalk-specific gene and a prespore-specific gene from Dictyostelium. The prestalk gene, pst-cathepsin, encodes a protein highly homologous to the lysosomal cysteine proteinases cathepsin H and cathepsin B. The prespore gene encodes a protein with some homology to the anti-bacterial toxin crambin and has been designated beejin. Using the lambda gtll system, we have made polyclonal antibodies directed against a portion of the protein encoded by pst-cathepsin and other antibodies directed against the beejin protein. Both antibodies stain single bands on Western blots. By immunofluorescence and Western blots, pst-cathepsin is not present in vegetative cells or developing cells during the first approximately 10 h of development. It then appears with a punctate distribution in a subset of developing cells. Beejin is detected only after approximately 15 h of development, also in a subset of cells. Pst-cathepsin is distributed in the anterior approximately 1/10 of migrating slugs and on the peripheral posterior surfaces of slugs. Beejin is distributed in the posterior region of slugs. Expression of both pst-cathepsin and beejin can be induced in subsets of isolated cultured cells by a combination of conditioned medium and extracellular cAMP in agreement with the regulation of the mRNAs encoding these proteins. We have used the antibodies as markers for cell type to examine the ontogeny and the spatial distribution of prestalk and prespore cells throughout multicellular development. Our findings suggest that prestalk cell differentiation is independent of position within the aggregate and that the spatial localization of prestalk cells within the multicellular aggregate arises from sorting of the prestalk cells after their induction. We have also found a class of cell in developing aggregates that contains neither the prestalk nor the prespore markers.  相似文献   

4.
SmdA is a Dictyostelium orthologue of the SET/MYND chromatin re-modelling proteins. In developing structures derived from a null mutant for smdA (a smdA- strain), prestalk patterning is normal, but using a prespore lacZ reporter fusion, there is ectopic accumulation of beta-galactosidase in the prestalk region. As wild type slugs migrate, there is continual forward movement and re-differentiation of prespore cells into prestalk cells. Thus, a potential explanation for the ectopic reporter localization in smdA null prestalk cells is an increased rate of re-differentiation and anterior movement of prespore cells. In support of this notion, analysis of an unstable lacZ reporter, driven by the prespore promoter, reveals a normal staining pattern in the smdA- strain. We suggest that one or more genes regulated by SmdA acts to repress prespore re-specification.  相似文献   

5.
Herpes simplex virus envelopment and maturation were investigated by thin-section fracture label. The distribution of glycoproteins B and D was analyzed by labeling with antibodies; the precursor and mature forms of the glycoproteins were differentiated by labeling with the lectins concanavalin A (ConA) and wheat germ agglutinin (WGA), respectively. We report that the two glycoproteins were readily detected in the intracellular virion, whether located between the inner and outer nuclear membranes or within cytoplasmic membrane-bound vesicles and in the inner and outer nuclear membranes themselves. The enveloped virion between the inner and outer nuclear membranes labeled with ConA but not with WGA. During the transit to the extracellular space the reactivity of the virion membranes with ConA decreased and that with WGA ensued. The results document that herpes simplex viruses acquire at the inner nuclear membrane an envelope carrying the immature forms of the glycoproteins and that during the transit to the extracellular space the envelope glycoproteins become of the fully processed type.  相似文献   

6.
In Dictyostelium discoideum, cell density is monitored by levels of a secreted protein, conditioned medium factor (CMF). CMFR1 is a putative CMF receptor necessary for CMF-induced G protein-independent accumulation of the SP70 prespore protein but not for CMF-induced G protein-dependent inositol 1,4,5-trisphosphate production. Using recombinant fragments of CMF, we find that stimulation of the inositol 1,4,5-trisphosphate pathway requires amino acids 170-180, whereas SP70 accumulation does not, corroborating a two-receptor model. Cells lacking CMFR1 do not aggregate, due to the lack of expression of several important early developmentally regulated genes, including gp80. Although many aspects of early developmental cAMP-stimulated signal transduction are mediated by CMF, CMFR1 is not essential for cAMP-stimulated cAMP and cGMP production or Ca(2+) uptake, suggesting the involvement of a second CMF receptor. Exogenous application of antibodies against either the region between a first and second or a second and third possible transmembrane domain of CMFR1 induces SP70 accumulation. Antibody- and CMF-induced gene expression can be inhibited by recombinant CMFR1 corresponding to the region between the first and third potential transmembrane domains, indicating that this region is extracellular and probably contains the CMF binding site. These observations support a model where a one- or two-transmembrane CMFR1 regulates gene expression and a G protein-coupled CMF receptor mediates cAR1 signal transduction.  相似文献   

7.
A mutant, PN6017, of the cellular slime mold Polysphondylium pallidum was selected by cell-surface labeling with a monoclonal antibody, mAb 293, and fluorescence-activated cell sorting. The antibody was directed against an L-fucose-containing epitope on glycoproteins, designated ep 293, and the mutant showed reduced and delayed expression of this epitope. PN6017 was distinguished from other mutants of this kind by extensive microcyst formation on agar plates under conditions where the wild type formed only sparse microcysts. In suspension cultures transformation of cells into microcysts was negligible in the wild type, and close to 100% in the mutant. Under these conditions microcyst formation in the mutant began at 5-7 h of starvation. At the same time expression of ep 293 and also of a developmentally regulated cytoplasmic protein, pallidin, became detectable. This coincidence in time suggests that microcyst formation in PN6017 is coupled to the same control mechanism as the two other developmentally regulated processes.  相似文献   

8.
A mutant of Dictyostelium discoideum, strain HL260, was isolated based on its failure to bind d-41, a monoclonal antibody that blocks developmentally regulated cell-cell adhesion. The mutant fails to normally acquire cell-cell adhesion as assayed with cells shaken in 10 mM EDTA, but aggregates and and constructs fruiting bodies. Other mutant strains, HL216 and HL220, previously shown to have impaired cell-cell adhesion, also lack the determinant that binds d-41. The three strains all carry mutations in a gene designated mod B, which directs a post-translational modification of several developmentally regulated D. discoideum glycoproteins. Diploids formed between independent mod B mutant haploid strains also lack this determinant and show marked impairment of cell-cell adhesion in EDTA, indicating that mutations in mod B, rather than other mutations not shared by the haploid strains, are related to the adhesion defect. The results are consistent with other evidence that an oligosaccharide carried on several developmentally regulated glycoproteins plays an essential role in EDTA-resistant cell-cell adhesion in D. discoideum. However, this type of adhesion is not essential for morphogenesis in that the only defect detected thus far in mod B mutant strains is that they construct relatively smaller fruiting bodies that contain fewer spores.  相似文献   

9.
Six monoclonal antibodies were isolated which react with common antigens shared by multiple glycoconjugate species in the cellular slime mold Dictyostelium discoideum. Based on competition of antibody binding by glycopeptides and simple sugars, and inhibition of antibody binding by antigen pretreatment with Na periodate, it is argued that at least five of the six antibodies recognize epitopes which contain carbohydrate. These epitopes are consequently referred to as glycoantigens (GAs).Three of the GAs are expressed during growth and throughout the developmental cycle, but are eventually enriched in prestalk and stalk cells. The remaining three are expressed only during and/or after aggregation and are exclusively expressed or highly enriched in prespore cells and spores. These conclusions are derived from Western blot immunoanalysis of purified cell types, immunofluorescence, and EM immunocytochemistry.The two GAs found only in prespore cells appear to be exclusively enclosed within prespore vesicles. The third GA of this type, which is only enriched in prespore cells compared to prestalk cells, is also found in other vesicle types as well as on the cell surface.Two of the GAs enriched in prestalk cells are initially found in all cells of the slug. They are undetectable in spores and prominent in stalk cells. The third GA, though found in the interiors of both prestalk and prespore cells, is enriched on the cell surface of prestalk cells.The chief characteristics of expression of four of these GAs are conserved in the related species D. mucoroides. This species is characterized by continuous trans differentiation of prespore cells into prestalk cells. This shows that the prespore cells maintain specific mechanisms for turning over their cell type specific GAs and that prestalk cells express a specific mechanism for inducing at least one of their cell-type specific GAs.These observations identify specific carbohydrate structures (as GAs) whose synthesis, subsequent localization and turnover are developmentally regulated. The exclusive association of two GAs with prespore vesicles identifies these GAs as markers for this organelle and raises questions regarding the functional significance of this association. The restricted cell surface localization of the other four GAs, together with data from cell adhesion studies, suggest the possibility of a potential role for these GAs in intercellular recognition leading to cell sorting.This paper is dedicated to the memory of the late Daniel McMahon.  相似文献   

10.
Previously, 5' deletion analysis revealed three important upstream regions within the regulatory region of the cAMP-induced, prespore gene SP60 of D. discoidium, each of which contains a CA-rich sequence element (CAE: consensus CACACAYYYCACACAAA/T). In this study, we have made site-directed mutations within these CAEs and examined their effect on reporter gene activity (luciferase or lacZ). Point mutations within or deletion of the distal CAE (CAE-1), middle CAE (CAE-2) or proximal CAE (CAE-3) result in substantial decreases in promoter activity at 18 h of development or in response to cAMP. lacZ fusions made with the CAE mutant promoters produced novel beta-gal staining patterns that suggest the presence of one or more morphogen gradients within the prespore zone of the slug and indicate that the CAEs are also important in regulating the spatial patterning of SP60 expression in the multicellular aggregate. Gel mobility shift assays were used to identify activities from crude nuclear extracts that bind oligonucleotides containing the CAEs. One of the binding activities is not observed in extracts from vegetative cells or cells in early development and is induced during multicellular development with kinetics similar to those of SP60 gene expression. This activity is also induced in response to cAMP and specifically binds the wild-type CAE-1- and CAE-2-containing oligonucleotides. CAE-1 and CAE-2 oligonucleotides containing point mutations within the CAE core sequence neither bind to nor compete for the cAMP-induced, developmentally regulated factor(s) and result in substantial reductions in expression levels when substituted for the wild-type CAEs in vivo. The correlation between in vitro binding and in vivo function suggests that the CAE-1/CAE-2 binding activity may be involved in regulating cAMP and developmentally induced expression of SP60. A second, constitutive in vitro binding activity with high affinity to CAE-3 is also described. Models are proposed to relate the binding activities with the effects of the mutations on the spatial patterning of SP60-lacZ expression.  相似文献   

11.
The monoclonal antibody MUD50 recognizes a group of developmentally regulated proteins, which are almost exclusively expressed by prespore cells in developing aggregates of Dictyostelium discoideum. Some of these antigens are integrally associated with the cell membrane, as assessed by physical and detergent-fractionation procedures. The MUD50-reactive proteins are glycosylated and some are phosphorylated. Post-translational modification is the common antigenic feature that is recognized by the MUD50 antibody in these cell-type-specific proteins. A glycosylation-defective mutant, DL118, (modB) does not express the MUD50 epitope, but does express the MUD52 epitope, which is found on a different group of glycoproteins. Therefore, we conclude that MUD50 recognizes a particular carbohydrate epitope on a restricted group of proteins. These proteins are structurally diverse, but are apparently involved in the maintenance of structure and movement of the multicellular D. discoideum slug.  相似文献   

12.
13.
Since various neuromuscular diseases are associated with abnormal glycosylation, it was of interest to determine whether this key post-translational modification is also altered in aged skeletal muscle. Lectins represent highly versatile carbohydrate-binding proteins that are routinely employed for the characterization of glycoproteins. Here, we used the lectin wheat germ agglutinin (WGA) for the proteomic profiling of senescent fibers. WGA labeling of the soluble proteome from 3-month- versus 30-month-old rat gastrocnemius muscle, following two-dimensional gel electrophoretic separation, resulted in the identification of 13 distinct protein species. Analysis of WGA binding levels, in conjunction with mass spectrometric fingerprinting, revealed that one isoform of a major metabolic muscle protein exhibited a drastic alteration in the content of sialic acid and N-acetylglucosaminyl sugar residues. Pyruvate kinase isoform M1 with protein accession number gi|16757994|, exhibiting a pI of 6.6 and an apparent molecular mass of 57.8kDa, showed a six fold increase in N-glycosylation and a three fold decrease in protein expression. In contrast to comparable levels of N-glycosylated proteins in young adult versus senescent muscle, as judged by fluorescein-conjugated WGA labeling of transverse muscle cryosections, staining with antibodies to the M1 isoform of pyruvate kinase showed reduced expression of this cytosolic element. Furthermore, activity assays demonstrated a reduced activity of this glycolytic enzyme in senescent muscle. This agrees with the idea that abnormal post-translational modifications in key metabolic enzymes may be involved in the conversion of aged muscle to slower twitch patterns and a drastic shift to more aerobic-oxidative metabolism.  相似文献   

14.
Plant species from genus Lupinus are among the oldest known legumes, and various aspects of their biology are considerably different from those commonly observed within Leguminosae. To study this issue in more detail, a suspension culture of Lupinus albus cells was developed, and the glycosylation patterns of exocellular proteins analysed. N-linked oligosaccharide side-chains were detected with two lectins: concanavalin A (ConA) and wheat germ agglutinin (WGA) used with respective anti-lectin antibodies, while O-linked arabinosylated side-chains of (hydroxy)proline-rich glycoproteins were identified with anti-(42 kDa French bean chitin-binding protein) antibodies. The obtained data were compared with analogous ones for exocellular (glyco)proteins from suspension-cultured Phaseolus vulgaris cells and from various tissues of L. albus plants. Major species-specific differences between exocellular (glyco)proteins from lupin and bean cells were identified. Similarly, developmentally regulated glycosylation changes following transition from organised plant tissue to dedifferentiated suspension-cultured lupin cells were detected and analysed.  相似文献   

15.
The prestalk and prespore cells from the Dictyostelium discoideummulticellular slug stage of development differ in assembly ofglycoconjugates. Prespore cells are 2- to 3-fold more activethan prestalk cells in the assembly of N-linked glycans and20-fold more active in their fucosylation. Only prespore cellssynthesize an O-linked glycan consisting in part of Fuc -linkedto N-acetylglucosamine. Incorporation of fucose, glucosamine,mannose and galactose into large pronase-resistant glycoconjugateswas almost exclusively into prespore cells. Such glucosamine-labelledglycoconjugates resist fragmentation by ß-eliminationand include a glycoantigen dependent on the modB genetic locus.In contrast, large fucose-labelled glycoconjugates consistedof multiple, small, O-linked oligosaccharides on carrier peptides.The spore coat protein SP96 has several fucosylated O-linkedoligosaccharides, one of which correlates with a fucose epitopepreviously shown to localize in prespore vesicles and the outerlayer of the spore coat. Dictyostelium discoideum glycoconjugates glycoproteins prespore prestalk  相似文献   

16.
17.
Electrophoretic variants which arise from amino acid substitutions, leading to charge differences between proteins are ubiquitous and have been used extensively for genetic analysis. Less well documented are polymorphisms in the size of proteins. Here we report that a group of glycoproteins, which share a common carbohydrate epitope, vary in size in different isolates of the cellular slime mould, Dictyostelium discoideum. One of these proteins, PsA, a developmentally regulated prespore-specific surface glycoprotein, has previously been shown to exist in three size forms due to allelic variation at the pspA locus on linkage group I. In this report, a second glycoprotein, PsB, which is also prespore specific but found inside prespore cells, is studied. PsB maps to linkage group II and exhibits at least four different sizes in the isolates examined. We propose that the size polymorphisms are the product of allelic variation at the pspB locus, due to differences in the number of repeat units.  相似文献   

18.
19.
Wheat germ agglutinin (WGA), a lectin that primarily reacts with N-acetylglucosamine residues, specifically inhibits the EDTA-stable type of intercellular adhesion of aggregation competent Dictyostelium discoideum cells. The major WGA-binding protein of these cells is a developmentally-regulated glycolipoprotein of 80 kd apparent mol. wt., designated as contact site A. This glycoprotein is a target site of antibody fragments that block the EDTA-stable cell adhesion, and is characterized by sulfated carbohydrate residues. WGA does not significantly bind to glycoproteins of a mutant, HL220, which produces a 68-kd component in place of the 80-kd glycoprotein. Inhibition of N-glycosylation by tunicamycin causes wild-type cells to produce a WGA-binding but unsulfated 66-kd component and a non-binding 53-kd component. These results indicate that the 80-kd glycoprotein contains two classes of carbohydrate residues, a WGA-binding one that is defective in HL220, and another, sulfated, one that is absent from the 66-kd wild-type product; both are missing in the 53-kd protein. WGA and a monoclonal antibody that is blocked by N-acetylglucosamine were further used to probe for glycoproteins in the multicellular slug stage that share carbohydrate structures - and possibly functions - with the contact site A glycoprotein. Glycoproteins in the 95-kd range have previously been implicated in cell-to-cell adhesion during the slug stage. We distinguished a 95-kd glycoprotein that binds WGA from another one that binds antibody.  相似文献   

20.
Our previous studies on an inhibitor of O-glycosylation of glycoproteins, GalNAcalpha-O-bn, in the model of enterocytic HT-29 cells, have shown at the cellular level an alteration of the normal localization of apical glycoproteins, and at the biochemical level an in situ synthesis and storage of sialylated GalNAcalpha-O-bn oligosaccharides. The purpose of this study was to examine if a relation existed between these two events, using different cell lines. Intracellular storage of GalNAcalpha-O-bn metabolites occurred in HT-29 and CAPAN-1 cells but not in Caco-2 cells. On the other hand, an accumulation of endosomal/lysosomal compartments was observed in HT-29 and CAPAN-1 cells but not in Caco-2 cells. These data focused on a GalNAcalpha-O-bn-derived storage phenotype in HT-29 and CAPAN-1 cells. The apical membrane glycoproteins MUC1 and CEA showed an abnormal localization inside intracytoplasmic vesicles in HT-29 cells, whereas they kept their normal localization in Caco-2 and CAPAN-1 cells. Studies on the glycosylation of these apical glycoproteins showed that GalNAcalpha-O-bn inhibited the glycosylation in a cell-specific manner. The alteration in the apical targeting of glycoproteins, and the appearance of a GalNAcalpha-O-bn-derived storage phenotype are two independent and cell type-specific events. The former depends on the inhibition pattern of the glycosylation of endogenous glycoproteins, whereas the latter is connected to the intracellular accumulation of GalNAcalpha-O-bn metabolites.  相似文献   

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