Effect of swainsonine, an inhibitor of glycoprotein processing, on cultured mammalian cells

Swainsonine is an indolizidine alkaloid that inhibits glycoprotein processing by inhibiting mannosidase II. Thus, cells grown in the presence of this alkaloid exhibit a decreased amount of complex types of oligosaccharides at their cell surface, and instead have hybrid types of structures. Since this compound could be useful for studying functional roles of glycoproteins, it was important to determine whether it affected the growth of mammalian cells in culture, and whether it was cytotoxic to these cells. At levels of up to 1 μg/ml, swainsonine did not affect the growth rate of Madin-Darby canine kidney (MDCK) cells, Chinese hamster ovary (CHO), simian virus-181 (SV-101), B-16 melanoma, or intestine 407 cells, as measured by the increase in cell numbers over a 5-day period. There was also no apparent change in cell size or cell shape in cells grown in the presence of this inhibitor. Swainsonine also did not appear to be cytotoxic, nor to cause alterations in cell morphology, as evidenced by comparison of thin sections of normal and swainsonine-grown cells in the electron microscope. Since alterations in the oligosaccharide chains of cell surface glycoproteins could greatly affect cell surface properties, we examined the binding of various lectins and bacteria to cells grown in swainsonine as a measure of changes in their cell surface carbohydrates. Thus, when MDCK cells, CHO cells, or B-16 melanoma cells were grown for several days in the presence of swainsonine (100–500 ng/ml), these cells showed a 50–100% increase in their ability to bind [³H]concanavalin A, and a substantial decrease in the binding of [³H]wheat germ agglutinin. These alterations suggested an increase in high-mannose (or hybrid) types of receptors and a decrease in the complex types. The adhesion of E. coli B-886, a bacterium that binds to high-mannose glycoproteins, was also increased 1.5-to twofold, in cells grown in swainsonine. However, the binding of E. coli SS-142, another bacterial strain that does not bind to high-mannose receptors, was not altered by growth in swainsonine. In addition to the decrease in wheat germ agglutinin binding, another indication of a decrease in complex chains was the finding that CHO cells grown in swainsonine were more resistant to the toxic effects of the lectin, ricin. This increased resistance could be measured microscopically by the decrease in the number of cells remaining attached to the plates, or by the inhibition of amino acid incorporation, at various ricin concentrations. The effect of swainsonine on the incorporation of amino acids and sugars into protein was also examined. When MDCK cells were grown overnight in swainsonine (1 μg/ml), or were incubated in the alkaloid for several hours before the start of the experiment, there was no alteration in the incorporation of [³H]leucine or [³H]proline into protein. There was, however, a significant inhibition in the incorporation of [³H]fucose, [³H]glucosamine, and [³H]galactose caused by this alkaloid. Fucose incorporation was decreased by about 40%, glucosamine by about 40 or 50%, and galactose by about 50%. In many cases (but not all), the incorporation of mannose was enhanced about 20–30% in cells grown in swainsonine.     

Modification of blood-borne arrest properties of lymphoma cells by inhibitors of protein glycosylation suggests the existence of endogenous lectins

The requirement for intact carbohydrates of glycoproteins at the cell surface was investigated after treatment of lymphoma cells with compounds which interfere at different steps in N-linked glycosylation: swainsonine and 1-deoxynojirimycin act at different levels during the processing, so that complex oligosaccharides cannot be formed; 2-deoxyglucose, beta-hydroxynorvaline, and tunicamycin completely prevent the formation of N-linked (high-mannose as well as complex) oligosaccharides. The role of sialic acid was investigated by treating the cells with neuraminidase. These treatments resulted in altered patterns of surface-labelled glycoproteins after SDS-polyacrylamide gel electrophoresis. Blood-borne arrest of lymphoma cells in the spleen was sensitive to neuraminidase and to treatments interfering with the processing of complex N-linked oligosaccharides. It is suggested that carbohydrates are signals for cellular interactions involved in the recirculation and homing behaviour of lymphoid cells and probably interact with endogenous lectins at their site of homing.     

Functional cooperation between the neural adhesion molecules L1 and N- CAM is carbohydrate dependent

The neural cell adhesion molecules L1 and N-CAM have been suggested to interact functionally by formation of a complex between the two molecules (Kadmon, G., A. Kowitz, P. Altevogt, and M. Schachner. 1990. J. Cell Biol. 110:193-208). To determine the molecular mechanisms underlying this functional cooperation, we have studied the contribution of carbohydrates to the association of the two molecules at the cell surface. Aggregation or adhesion between L1- and N-CAM-positive neuroblastoma N2A cells was reduced when the synthesis of complex and/or hybrid glycans was modified by castanospermine. Fab fragments of polyclonal antibodies to L1 inhibited aggregation and adhesion of castanospermine-treated cells almost completely, whereas untreated cells were inhibited by approximately 50%. Fab fragments of polyclonal antibodies to N-CAM did not interfere with the interaction between castanospermine-treated cells, whereas they inhibited aggregation or adhesion of untreated cells by approximately 50%. These findings indicate that cell interactions depending both on L1 and N-CAM ("assisted homophilic" binding) can be reduced to an L1-dominated interaction ("homophilic binding"). Treatment of cells with the carbohydrate synthesis inhibitor swainsonine did not modify cell aggregation in the absence or presence of antibodies compared with untreated cells, indicating that castanospermine-sensitive, but swainsonine-insensitive glycans are involved. To investigate whether the appropriate carbohydrate composition is required for an association of L1 and N-CAM in the surface membrane (cis-interaction) or between L1 on one side and L1 and N-CAM on the other side of interacting partner cells (trans-interaction), an L1-positive lymphoid tumor cell line was coaggregated with and adhered to neuroblastoma cells in the various combinations of castanospermine-treated and untreated cells. The results show that it is the cis-interaction between L1 and N-CAM that depends on the appropriate carbohydrate structures.     

Different adhesion and migration properties of human HCV29 non-malignant urothelial and T24 bladder cancer cells: role of glycosylation

In tumour cells, alterations in cellular glycosylation may play a key role in their metastatic behaviour. This study used cell lines having very different behaviour in vivo: HCV29 non-malignant transitional epithelium and T24 bladder transitional cell carcinoma. These differences in behaviour might be due in part to differences in cellular glycosylation patterns. Glycan chain analysis of their glycoproteins was performed with the use of specific lectins. The functional role of carbohydrates was studied by treating these cells with swainsonine, an inhibitor of Golgi alpha-mannosidase II, and in vitro adhesion and migration assays. The adhesion of swainsonine-treated HCV29 and T24 cells was increased on fibronectin and type IV collagen by 1.5- and 2-fold, respectively, whereas adhesion on laminin was virtually unchanged after swainsonine-treatment in HCV29 cells and was increased in T24 cells. Swainsonine treatment reduced the rate of T24 cell migration by 20%. We concluded that beta1-6 branched tri- and tetraantennary complex-type glycans have an important function in adhesion and migration in the studied cell lines. These data support the view that oligosaccharides are involved in several steps of the metastatic process.     

Suppressive effects of swainsonine on C6 glioma cell in vitro and in vivo

Swainsonine, an extract from Astragalus membranaceus, is known for its anti-cancer effects and could prevent metastases. In order to investigate the effects and mechanisms of swainsonine in C6 glioma cells, we carry out correlated experiments in vitro and in vivo. After treatment with swainsonine, the effective dose and IC₅₀ value of swainsonine in the C6 glioma cell were examined using the MTT assay. Cell cycle distribution and apoptotic rates were analyzed using FCM and [Ca²⁺]_i was measured by LSCM. Expressions of p16 and p53 protein were evaluated by immunocytochemical methods. Simultaneously, glioma-bearing rats were administered swainsonine at doses of 2, 4 and 8 mg/kg body wt. The inhibition rate was calculated and pathological sections were observed. The results indicated that the growth of C6 glioma cells is inhibited by swainsonine in vitro, with an IC₅₀ value within 24 h of 0.05 μg/ml. Increases in swainsonine correlate with S phase percentages of 11.3%, 11.6% and 12.4%, respectively. Moreover, the expression of apoptosis inhibiting p53 and p16 protein decreases gradually. Tumor weight in vivo decreased clearly and HE dyeing of tumor tissue showed gray, its texture was soft, with necrosis and hemorrhagic concentrated inward. Swainsonine could inhibit the proliferation of C6 glioma cells in vitro and the growth of C6 glioma in vivo. The mechanisms of swainsonine-induced apoptosis may relate with the expression of apoptosis-related genes and overloading-[Ca²⁺]_i-induced endoplasmic reticulum stress.     

Properties of cell surface carbohydrates in sexual reproduction of the Closterium peracerosum–strigosum–littorale complex (Zygnematophyceae,Charophyta)

The Closterium peracerosum–strigosum–littorale complex is a best characterized zygnematophycean green alga with respect to the process of sexual reproduction. Intercellular communication mediated by two sex pheromones has been well documented in this organism, but information concerning direct cell–cell recognition and fusion of cells involved in conjugation processes has not yet been clarified. In this study, we examined the properties of cell surface carbohydrates in vegetative and reproductive cells using a variety of fluorescein isothiocyanate labeled lectins as probes. Among 20 lectins tested, 10 bound to the Closterium cell surface, and eight of these were specific for the cells involved in sexual reproduction. In addition, some of the lectins inhibited the progress of zygote formation. In particular, Lycopersicon esculentum lectin (LEL) and ConcanavalinA (ConA) considerably inhibited zygote formation (23.6% and 0% of zygotes formed, respectively, compared with the control). LEL mainly accumulated on conjugation papillae and on the surface and lumens of empty cell walls remaining after zygote formation. ConA bound to both vegetative and sexually reproductive cells and strongly accumulated on the conjugation papillae of the latter, indicating ConA binding material(s) are non‐specifically present in Closterium cells but some of the material(s) would be essential for zygote formation. These results suggest that different carbohydrates specifically recognized by these lectins are involved in cell recognition and/or fusion during conjugation processes in the C. psl. complex.     

Swainsonine promotes apoptosis in human oesophageal squamous cell carcinoma cells <Emphasis Type="BoldItalic">in vitro</Emphasis> and <Emphasis Type="BoldItalic">in vivo</Emphasis> through activation of mitochondrial pathway

Swainsonine, a natural indolizidine alkaloid, has been reported to have antitumour effects, and can induce apoptosis in human gastric and lung cancer cells. In the present study, we evaluated the antitumour effects of swainsonine on several oesophageal squamous cell carcinoma cells and investigated relative molecular mechanisms. Swainsonine treatment inhibited the growth of Eca-109, TE-1 and TE-10 cells in a concentration-dependent manner as measured by MTT assay. Morphological observation, DNA laddering detection and flow cytometry analysis demonstrated that swainsonine treatment induced Eca-109 cell apoptosis in vitro. Further results showed that swainsonine treatment up-regulated Bax, down-regulated Bcl-2 expression, triggered Bax translocation to mitochondria, destructed mitochondria integrity and activated mitochondria-mediated apoptotic pathway, followed by the release of cytochrome c, which in turn activated caspase-9 and caspase-3, promoted the cleavage of PARP, resulting in Eca-109 cell apoptosis. Moreover, swainsonine treatment inhibited Bcl-2 expression, promoted Bax translocation, cytochrome c release and caspase-3 activation in xenograft tumour cells, resulting in a significant decrease of tumour volume and tumour weight in the swainsonine-treated xenograft mice groups compared with that in the control group. Taken together, this study demonstrated that swainsonine inhibited Eca-109 cells growth through activation of mitochondria-mediated caspase-dependent pathway.     

Laminin carbohydrates are implicated in cell signaling

We have examined how laminin carbohydrates participate in cellular responses and have focused upon cell spreading and neurite outgrowth. Our earlier studies showed that unglycosylated laminin fully supported cell adhesion but did not promote subsequent spreading of mouse melanoma cells or neurite outgrowth of rat pheochromocytoma cells (Dean et al. (1990): J Biol Chem 265:12553-12562). In the present experiments, we determined whether those cellular responses could be restored to adherent cells. When a mixture of unglycosylated and glycosylated laminins was used as a substratum for mouse melanoma cells, some cells began to spread when 30% glycosylated laminin was present. At least 65% glycosylated laminin was required to elicit a maximal spreading response by the majority of the cells. In separate experiments, we found that cell spreading was fully restored by a pronase digest of glycosylated laminin; a similar digest of unglycosylated laminin had no effect. These results indicate that laminin carbohydrates, rather than polypeptide sequences, were responsible for cell spreading. We also conclude that substrate attachment of the carbohydrate moieties was not essential. In other experiments, laminins containing immature oligosaccharides were produced using two glycosylation pathway inhibitors, swainsonine or castanospermine. When such laminins were used to study cell spreading or neurite outgrowth, laminin containing immature oligosaccharides was as effective as laminin which contains fully processed oligosaccharides. In contrast, laminin with partially processed oligosaccharides had incomplete activity. These composite reconstitution experiments show that laminin carbohydrates provide essential information to responsive cells, enabling them to progress from an adherent state to a spread form or to extend neurite processes.     

In vitro attachment of mono- and oligosaccharides to surface glycoconjugates of intact cells

We have synthesized glycosylhydrazines of various mono- and oligosaccharides and coupled these to periodate- or galactose oxidase-treated human red cells and K562 erythroleukemia cells. The optimal conditions for this carbohydrate modification of cells have been established. This method makes it possible to specifically elongate oligosaccharide chains of cell surface glycoconjugates with desired carbohydrates. In this way, new antigenic and receptor properties can be conferred to cells, and the functional roles of carbohydrates in cell surface glycoconjugates can be studied. The method has been used to make red cells of blood group O reactive with anti-A and anti-B sera, and in rendering K562 cells or red cells of blood group O agglutinable with the alpha-N-acetylgalactosamine-specific Helix pomatia lectin.     

Lysosomal hydrolases in macrophages exposed to swainsonine

Swainsonine reversibly inhibits macrophage lysosomal acid alpha-mannosidase in vitro. When supplied to cultured cells for periods of up to 24 h, swainsonine penetrates the cells and produces a dose- and time-dependent inhibition of cellular alpha-mannosidase. Exposure of macrophages to swainsonine for 24 h, followed by continued incubation in the absence of this agent, produces elevated cellular activity of alpha-mannosidase, relative to unexposed controls; prolonged incubation of macrophage cultures with swainsonine for 1-2 weeks results also in significant increases in cell protein, lactate dehydrogenase activity and in that of another lysosomal enzyme, beta-hexosaminidase.     

Characterization of the Galactose-Specific Binding Activity of a Purified Soluble Entamoeba histolytica Adherence Lectin

ABSTRACT. We studied galactose (Gal)-specific binding of the soluble purified 260-kDa Entamoeba histolytica adherence protein to glycosylation deficient Chinese hamster ovary (CHO) cell mutants. Our goal was to further define the lectin's functional activity and carbohydrate receptor specificity. The adherence protein was purified by acid elution from an immunoaffnity column; however, exposure of the surface membrane lectin on viable trophozoites to identical acid pH conditions had no effect on carbohydrate binding activity. Saturable Gal-specific binding of soluble lectin to parental CHO cells was demonstrated at 4°C by radioimmunoassay; the dissociation coefficient (Kd was 2.39 × 10^?8 M^?1 with 5.97 × 10⁴ lectin receptors present per CHO cell. Gal-specific binding of lectin to Lec2 CHO cell mutants, which have increased N- and O-linked terminal Gal residues on cell surface carbohydrates, was increased due to an enhanced number of receptors (2.41 × 10⁵/cell) rather than a significantly reduced dissociation constant (4.93 × 10^?8 M^?1). At 4°C, there was no measurable Gal-specific binding of the adherence protein to the Lec and IdlD.Lecl CHO mutants, which contain surface carbohydrates deficient in terminal Gal residues. Binding of lectin (20 μg/ml) to CHO cells was equivalent at 4°C and 37°C and unaltered by adding the microfilament inhibitor, Cytochalasin D (10 μg/ml). Gal-specific binding of the lectin at 4°C was calcium independent and reduced by 81% following adsorption of only 0.2% of the lectin to CHO cells. In summary, these findings indicate that the purified E. histolytica adherence lectin demonstrates saturable Gal-specific binding to 1–6 branched-N-linked and not O-linked galactose terminal cell surface carbohydrates; however, apparently only a small percentage of purified amebic lectin molecules actually possess galactose binding activity.     

A Screen for Swainsonine in Select North American Astragalus Species

Swainsonine is found in several plant species worldwide, and causes severe toxicosis in livestock grazing these plants, leading to a chronic condition characterized by weight loss, altered behavior, depression, decreased libido, infertility, and death. Swainsonine has been detected in 13 North American Astragalus species of which eight belong to taxa in four taxonomic sections, the Densifolii, Diphysi, Inflati, and Trichopodi. These sections belong to two larger groups representing several morphologically related species, the Pacific Piptolobi and the small‐flowered Piptolobi. The objective of this study was to screen the other 31 species for swainsonine in sections Densifolii, Diphysi, Inflati, and Trichopodi previously not known to contain swainsonine. Furthermore, to broaden the scope further, 21 species within the 8 sections of the Pacific Piptolobi and the small flowered Piptolobi were screened for swainsonine. Swainsonine was detected for the first time in 36 Astragalus taxa representing 29 species using liquid and gas chromatography coupled with mass spectrometry. Several taxonomic sections were highly enriched in species that contain swainsonine while others were not. A systematic examination for swainsonine in these species will provide important information on the toxic risk of these species and may be a valuable reference for diagnosticians and land managers.     

Pleiotropic resistance to glycoprotein processing inhibitors in Chinese hamster ovary cells. The role of a novel mutation in the asparagine-linked glycosylation pathway

In order to obtain a better understanding of the control mechanisms involved in asparagine-linked glycosylation, we developed conditions under which the glucosidase I and II inhibitor castanospermine and the mannosidase II inhibitor swainsonine were toxic to Chinese hamster ovary (CHO) cells when cultured in the presence of low concentrations of the plant lectin concanavalin A. Cells resistant to castanospermine (CsR cells) and swainsonine (SwR cells) were obtained by gradual stepwise selections. These cells had normal levels of glucosidase II and mannosidase II and appeared to have no major structural alterations in their surface asparagine-linked oligosaccharides. Interestingly, the CsR and SwR cells were each pleiotropically resistant to castanospermine, swainsonine, and deoxymannojirimycin, an inhibitor of mannosidase I. This resistance was not due to the multiple-drug resistance phenomenon. Both the CsR and SwR cell populations synthesized Man5GlcNAc2 in place of Glc3Man9GlcNAc2 as the major dolichol-linked oligosaccharide. This defect was not due to a loss of mannosylphosphoryldolichol synthetase. Furthermore, the Man5GlcNAc2 oligosaccharide was transferred to protein and appeared to give rise to normal mature oligosaccharides. Thus, the CsR and SwR cells achieved resistance to castanospermine, swainsonine, and deoxymannojirimycin by synthesizing altered dolichol-linked oligosaccharides that reduced or eliminated the requirements for glucosidases I and II and mannosidases I and II during the production of normal asparagine-linked oligosaccharides. We propose that this phenotype be termed PIR, for processing inhibitor resistance.     

Chinese hamster ovary cell mutants with multiple glycosylation defects for production of glycoproteins with minimal carbohydrate heterogeneity.

The production of glycoproteins with carbohydrates of defined structure and minimal heterogeneity is important for functional studies of mammalian carbohydrates. To facilitate such studies, several Chinese hamster ovary mutants that carry between two and four glycosylation mutations were developed. All of the lines grew readily in culture despite the drastic simplification of their surface carbohydrates. Therefore, both endogenous glycoproteins and those introduced by transfection can be obtained with specifically tailored carbohydrates. The lectin resistance properties of the mutants showed that each line expresses a novel array of cell surface carbohydrates useful for identifying specific roles for carbohydrates in cellular interactions. In addition, they showed that the epistatic relationships among different glycosylation mutations are not entirely predictable, providing insight into the complexity of the carbohydrate structures at the Chinese hamster ovary cell surface.     

Swainsonine treatment accelerates intracellular transport and secretion of glycoproteins in human hepatoma cells

We are interested in determining whether carbohydrates are important regulatory determinants in the intracellular transport and secretion of glycoproteins. In the present study, we have used swainsonine, an indolizidine alkaloid, to modify the structure of N-glycosidically linked complex oligosaccharides. By inhibiting Golgi mannosidase II, swainsonine prevents the trimming of GlcNAc(Man)5(GlcNAc)2 to GlcNAc-(Man)3(GlcNAc)2, resulting in the formation of hybrid-type oligosaccharides. We find, from pulse-chase experiments using [35S]methionine and immunoprecipitation of individual proteins from culture media, that swainsonine treatment (1 microgram/ml) accelerated the secretion of glycoproteins (transferrin, ceruloplasmin, alpha 2-macroglobulin, and alpha 1-antitrypsin) by decreasing the lag period by 10-15 min relative to untreated cultures. The enhanced secretion was specific for glycoproteins since the secretion of albumin, a nonglycoprotein, was unaffected. When alpha 1-antitrypsin was immunoprecipitated from the cell lysates, sodium dodecyl sulfate-polyacrylamide gel electrophoresis fluorographic analysis demonstrated that the conversion of the high-mannose precursor to the hybrid form in swainsonine-treated cells occurred more rapidly (by about 10 min) than the conversion to the complex form in control cells. Since both the hybrid and complex forms of alpha 1-antitrypsin are terminally sialylated by sialyltransferase in the trans-Golgi, these results suggest that swainsonine-modified glycoproteins traverse the Golgi more rapidly than their normal counterparts. Therefore, accelerated transport within this organelle may account for the decreased lag period of glycoprotein secretion in the swainsonine-treated cultures.     

An evaluation of methods for quantifying the enzymatic degradation of red seaweed Grateloupia turuturu

For better exploitation of the red seaweed Grateloupia, enzymatic digestion of the thallus may be a way to increase access to metabolites of industrial interest. With this aim, we have tried to find a method to quantify the efficiency of enzymatic digestion. Vegetative algal material was treated with polysaccharidases (Onozuka R-10 cellulase, agarase, and Ultraflo L mixture). The proportion of degraded surface area was determined by microscopic measurement of the residue surface using imaging software and compared with the analysis of carbohydrates and R-phycoerythrin released in the incubation solution. Both the reducing carbohydrate concentration and percentage of degraded surface area appeared the most reliable methods to study enzymatic efficiency. The amount of solubilized total carbohydrates, and particularly that of R-phycoerythrin, showed non-specific variations, so no conclusions could be drawn. The application of this procedure to the screening of the efficient digestion of Grateloupia material demonstrated that cell walls were only partially digested by polysaccharidase enzymes alone. The Ultraflo L mixture and Onozuka R-10 cellulase produced a greater degradation of Grateloupia tissues and a higher release of reducing carbohydrates, whereas agarase did not display any specific action. Thus, the proposed procedure based on the quantification of residue surface area seems to be an accurate method to analyze enzymatic digestion. Other tests using different concentrations and combinations of enzymes are now required.     

Regulation of susceptibility and cell surface receptor for the B-lymphotropic papovavirus by N glycosylation.

The host range of the B-lymphotropic papovavirus (LPV) in cultured human cells is limited to a few B-lymphoma-derived cell lines. The constitutively expressed cell surface receptor for the virus is a major determinant restricting the LPV host range (G. Haun, O. T. Keppler, C. T. Bock, M. Herrmann, H. Zentgraf, and M. Pawlita, J. Virol. 67:7482-7492, 1993). Here we show that human B-lymphoma cells with low-level susceptibility are rendered highly susceptible to LPV infection by pretreatment with the N glycosylation inhibitor tunicamycin but remain nonsusceptible to infection by the related polyomavirus simian virus 40. Among the selective N glycosylation processing inhibitors, deoxymannojirimycin, but not deoxynojirimycin, swainsonine, or castanospermine, could mimic the effect of tunicamycin. Tunicamycin treatment also induced a drastic enhancement of the cells' LPV-binding capacity, indicating that the induction of LPV susceptibility might be mediated by an increase in the number of functional cell surface receptors and/or by increased receptor affinity. Sialidase sensitivity of the tunicamycin-induced LPV receptor showed that oligosaccharides carrying terminal sialic acids are necessary for binding and are likely to be O linked. The constitutive LPV receptor is also sialic acid dependent, which points to a possible identity with the sialic acid-dependent tunicamycin-induced LPV receptor. We conclude that removal or modification of certain N-linked oligosaccharides in human B-lymphoma cells can enhance expression or functional activity of the sialylated LPV receptor.     

Antibodies to flowering-plant sperm

Summary The mechanisms by which sperm cells recognize and fuse with the egg and central cell during double fertilization in flowering plants are unknown. To identify membrane surface molecules that might function in fertilization, we immunized mice with isolated sperm ofBrassica campestris and screened the polyclonal sera and monoclonal hybridoma supernatants by immunocytochemistry for binding to isolated sperm cells. We identified three cell lines producing hybridoma supernatants which bind to sperm cell surfaces inB. campestris and further analyzed the properties of one of these, BRSP1. The molecular mass of the epitope to BRSP1 was 54 kDa, and was not glycosylated. Although the antibodies were immunoglobulin M, neither removal of carbohydrates nor competition with antibodies which recognize arabinogalactan decreased binding. BRSP1 recognized sperm ofPlumbago zeylanica, Nicotiana tabacum. Arabidopsis thaliana, andEruca vesicaria and generative cells ofLilium longiflorum and ofNarcissus tazetta but did not recognize sperm ofHelianthus annuus, Gerbera jamesonii, orZea mays. Antibodies to plant sperm allow us to probe sperm membranes for functional components.     

Fine structure of the wet,detached cell stigma of the orchid Dendrobium speciosum Sm.

Summary The stigmatic surface of the orchid Dendrobium speciosum is a cup containing detached cells suspended in a mainly carbohydrate mucilage. The fine structure of the detached cells and their organelles is indicative of secretory cells. The cells contain numerous mitochondria with well-developed cristae, dictyosomes containing extensive cisternae, an extensive network of rough and smooth endoplasmic reticulum and free polysomes throughout. There are many amyloplasts in the vicinity of the nucleus. Vesicles are seen arising from the dictyosomes and endoplasmic reticulum. The plasmalemma is undulating, and vesicles can be seen in its vicinity, giving the typical appearance of a granulocrine secretory system. Cetylpyridinium chloride (CPC) fixation to immobilise acidic carbohydrates detected a highly electron-opaque layer surrounding each cell and globules dispersed through the cell wall. The walls of the detached cells show irregular surface projections which are the remains of pitfields. Biochemical analysis showed that carbohydrates and arabinogalactan proteins are major components of the mucilage.     

Expression of integrins α3β1 and α5β1 and GlcNAc β1,6 glycan branching influences metastatic melanoma cell migration on fibronectin

Acquisition of metastatic potential is accompanied by changes in cell surface N-glycosylation. One of the best-studied changes is increased expression of N-acetylglucosaminyltransferase V enzyme (GnT-V) and its products, β1,6-branched N-linked oligosaccharides, observed in the tumorigenesis of many cancers. In this study we demonstrate that during the transition from the vertical growth phase (VGP) (WM793 cell line) to the metastatic stage (WM1205Lu line), β1,6 glycosylation of melanoma cell surface proteins increases as a consequence of elevated expression of the GnT-V-encoding Mgat-5 gene. Treatment with swainsonine led to reduced cell motility on fibronectin in both cell lines; the effect was stronger in metastatic cells, probably due to the higher content of GlcNAc β1,6-branched glycans on the main fibronectin receptors – integrins α5β1 and α3β1. Our results show that GlcNAc β1,6 N-glycosylation of cell surface receptors, which increases with the aggressiveness of melanoma cells, is an important factor influencing melanoma cell migration.