Cell-to-cell binding induced by different lectins

The cell-to-cell binding induced by concanavalin A (Con A) and the lectins from wheatgerm, soybean, and waxbean has been analyzed by measuring the ability of single cells to bind to lectin-coated cells immobilized on nylon fibers. The cells used were lymphoma, myeloid leukemia, and normal fibroblast cells. With all lectins, cell-to-cell binding was inhibited if both cells were prefixed with glutaraldehyde. However, in most cases cell-to-cell binding was enhanced when only the lectin-coated cell was prefixed. With normal fibroblasts, treatment of either one or both cells with trypsin enhanced the cell-to-cell binding induced by Con A and the wheatgerm lectin. Neuraminidase, which increases the number of receptors for soybean agglutinin, increased cell-to-cell binding only if both cells were treated. Although cell-to- cell binding induced by the lectins from soybean and wheatgerm could be partially reversed by the appropriate competitive saccharide inhibitor, binding induced by Con A could not be reversed. The experiments indicate that cell-to-cell binding induced by a lectin can be prevented by an insufficient density of receptors for the lectin, insufficient receptor mobility, or induced clustering of receptors. These effects can explain the differences in cell-to-cell binding and agglutination observed with different cell types and lectins. They also suggest that cell-to-cell binding induced by different lectins with a variety of cell types is initiated by a mechanism involving the alignment of complementary receptors on the colliding cells for the formation of multiple cell-to-lectin-to-cell bridges.     

Surface Alterations of Cells Carrying RNA Tumour Virus Genetic Information

CELLS transformed by the DNA tumour viruses, polyoma virus and SV40, are agglutinated by lectins such as wheat germ agglutinin¹, concanavalin A (Con A)² and soybean agglutinin³. Agglutination in these cases presumably reflects changes in the cell surface related to the transformed properties of the cell; studies with a temperature-dependent mutant of polyoma virus has shown that cell surface changes are controlled by viral genes⁴. Here we describe experiments in which we investigated the agglutinability of cells transformed by RNA tumour viruses. One recent report had suggested that cells transformed by RNA tumour viruses were not specifically agglutinated⁵, whereas a second more recent report claimed the specific agglutination of cells transformed by RSV⁶. We find that transformed rat, mouse and cat cells that replicate the sarcoma-leukaemia virus complex of murine (MSV) and feline (FeSV) origin are strongly agglutinated by Con A, but mouse and human cells that replicate the murine and feline leukaemia virus components alone are not agglutinated. The ability to agglutinate is rapidly acquired by normal mouse cells on infection with the murine sarcoma virus at a rate that parallels virus replication. In contrast to the results obtained with cells producing virus, non-virus-producing transformed hamster and mouse cells that synthesize virus-specific RNA are either not agglutinated or are agglutinated to a lesser degree. These results suggest that the cell surface alterations responsible for agglutination are not necessarily associated with the transformed state of the cell, but rather with the possession of sarcoma virus-specific information.     

Concanavalin A binding to brain particulate preparations and its effect on adenylate cyclase.

[³H] -Concanavalin A binding to brain particulate preparations measured by a filtration technique was found to show a characteristic regional specificity with the caudate-putamen area exhibiting the greatest density of concanavalin A (con A) binding sites. The synaptic membranes were shown to be the most highly enriched of the subcellular fractions examined in terms of lectin-binding glycoproteins. Con A was also shown to inhibit the basal adenylate cyclase activity of cerebral, cerebellar, and caudate-putamen particulate preparations in a concentration-dependent manner. This lectin sensitivity of the adenylate cyclase is apparently an intrinsic property of the enzyme complex since a detergent dispersed preparation of the cerebral cortical enzyme was equally inhibited by con A. It is proposed that one of the membrane con A binding sites in brain tissue is a component of the adenylate cyclase system.     

Lectin Analysis of Trypanosoma congolense Bloodstream Trypomastigote and Culture Procyclic Surface Saccharides by Agglutination and Electron Microscopic Technics*

SYNOPSIS. Living, intact bloodstream trypomastigotes and culture procyclic forms of Trypanosoma congolense were tested for agglutination with the lectins concanavalin A (Con A), phytohemagglutinin P (PP), wheat germ agglutinin (WGA), soybean agglutinin (SBA), and fucose binding protein (FBP). Similar experiments were conducted with living bloodstream and culture forms treated with trypsin or dextranase. Parasites were incubated for 30 min at 25 C in various concentrations of each lectin, then examined for agglutination by dark-field microscopy. Control preparations consisted of parasites incubated alone or with 0.5 M of the specific competing sugar, with or without the corresponding lectin. Electron-microscopic localization of lectin binding sites on the surface of intact and dextranase-treated bloodstream and intact culture forms was accomplished with Con A, reacted with horseradish peroxidase (HRP) and then diaminobenzidine (DAB). In addition, FBP and SBA were coupled to HRP, then utilized for the localization of binding saccharides on the surface of blood-stream forms by the DAB technic. Similar studies were conducted with culture procyclics incubated with WGA-, SBA, PP- or FBP-HRP conjugates and then reacted with DAB. Controls were utilized to confirm the sugar specificity of all positive reactions. Intact living bloodstream forms were agglutinated in a concentration-dependent manner with all the lectins tested. Agglutination levels were scored as Con A > FBP > WGA = PP = SBA. Sugars resembling α-D-mannose, N-acetyl-D-glucosamine, N-acetyl-D-galactosamine, and α-L-fucose are evidently present on the surface of the parasites. No agglutination was noted in any control preparations. Identical lectin-induced agglutinations were obtained with trypsin- or dextranase-treated bloodstream forms. Trypsin disrupted but did not entirely remove the surface coat of bloodstream forms, while dextranase did not alter the ultrastructure of the parasites. Con A-, SBA- and FBP-binding saccharides were distributed uniformly on the surface coat of intact bloodstream forms; a similar distribution of Con A receptors was noted also on the surface of dextranase-treated cells. No lectin-binding saccharides were visualized by electron microscopy on any control preparations. Intact, trypsin- or dextranasetreated, procyclics were agglutinated in a concentration-dependent fashion by Con A and WGA, but not by the other lectins tested. Control preparations did not agglutinate and the enzymes did not affect the ultrastructure of the parasites. Con A- and WGA-specifically binding saccharides were uniformly distributed on intact procyclics and control preparations were lectin-negative. Thus, T. congolense procyclics retained surface saccharides resembling α-D-mannose and N-acetyl-D-glucosamine but lost sugars resembling N-acetyl-D-galactosamine (or D-galactose) and α-L-fucose. The failure of dextranase to remove the lectin-binding saccharides from the surface of bloodstream and procyclic forms suggests that α-1,6-glucan bonds do not link these carbohydrates. The results are contrasted with lectin research on other trypanosome species and discussed with relation to the biology of T. congolense.     

Agglutination of growing and differentiating cells of Dictyostelium discoideum by concanavalin A

Cells of Dictyostelium discoideum are agglutinated by by concanavalin A (Con A). Agglutination is dependent upon Con A concentration and is inhibited by preincubation with α-methyl-glucoside. Agglutination by Con A has no adverse effect on cell viability. Cells harvested from exponential growth phase are agglutinated by lower concentrations of Con A, than are cells harvested during the stationary growth phase or during differentiation. The possible significance of these findings to the process of differentiation in D. discoideum is discussed.     

Snowdrop and wheatgerm lectins and avidin as antimetabolites for the control of sugarcane whitegrubs

Snowdrop and wheatgerm lectins were found to be insecticidal and growth inhibiting dietary proteins for larvae of the sugarcane whitegrub Antitrogus parvulus. At concentrations as low as 0.5 mg of snowdrop lectin per gram of semi-artificial diet, growth was inhibited by 21 days of feeding and significant mortality was apparent by 28 days. Wheatgerm lectin was active at similar concentrations, although expression of the effects was slower. Avidin was found to be a growth inhibiting dietary protein for larvae of Antitrogus consanguineus. At levels as low as 0.01 mg g^-1 of diet, growth was inhibited by 28 days of feeding. Avidin caused no significant mortality after 35 days of feeding. Snowdrop and wheatgerm lectins and avidin are insect growth-inhibiting proteins whose genes potentially could be manipulated into sugarcane and improve host-plant resistance to whitegrubs.     

Differences in the redistribution of concanavalin A and wheat germ agglutinin binding sites on mouse neuroblastoma cells

Concanavalin A (Con A), wheat germ agglutinin (WGA), and Ricinus communis agglutinin (RCA) bound with either ¹²⁵I, fluorescent dyes, or fluorescent polymeric microspheres were used to quantitate and visualize the distribution of lectin binding sites on mouse neuroblastoma cells. As viewed by fluorescent light and scanning electron microscopy, over 10⁷ binding sites for Con A, WGA, and RCA appeared to be distributed randomly over the surface of differentiated and undifferentiated cells. An energy-dependent redistribution of labeled sites into a central spot occurred when the cells were labeled with a saturating dose of fluorescent lectin and maintained at 37°C for 60 min. Reversible labeling using appropriate saccharide inhibitors indicated that the labeled sites had undergone endocytosis by the cell. A difference in the mode of redistribution of WGA or RCA and Con A binding sites was observed in double labeling experiments. When less than 10% of the WGA or RCA lectin binding sites were labeled, only these labeled sites appeared to be removed from the cell surface. In contrast, when less than 10% of the Con A sites were labeled, both labeled and unlabeled Con A binding sites were removed from the cell surface. Cytochalasin B uncoupled the coordinate redistribution of labeled and unlabeled Con A sites, suggesting the involvement of microfilaments. Finally, double labeling experiments employing fluorescein-tagged Con A and rhodamine-tagged WGA indicate that most Con A and WGA binding sites reside on different membrane components and redistribute independenty of each other.     

The control of CD4<Superscript>+</Superscript>CD25<Superscript>+</Superscript>Foxp3<Superscript>+</Superscript>regulatory T cell survival

   

CD4⁺CD25⁺Foxp3⁺ regulatory T (T_reg) cells are believed to play an important role in suppressing autoimmunity and maintaining peripheral tolerance. How their survival is regulated in the periphery is less clear. Here we show that T_reg cells express receptors for gamma chain cytokines and are dependent on an exogenous supply of these cytokines to overcome cytokine withdrawal apoptosis in vitro. This result was validated in vivo by the accumulation of T_reg cells in Bim^-/- and Bcl-2 tg mice which have arrested cytokine deprivation apoptosis. We also found that CD25 and Foxp3 expression were down-regulated in the absence of these cytokines. CD25⁺ cells from Scurfy mice do not depend on cytokines for survival demonstrating that Foxp3 increases their dependence on cytokines by suppressing cytokine production in T_reg cells. Our study reveals that the survival of T_reg cells is strictly dependent on cytokines and cytokine producing cells because they do not produce cytokines. Our study thus, demonstrates that different gamma chain cytokines regulate T_reg homeostasis in the periphery by differentially regulating survival and proliferation. These findings may shed light on ways to manipulate T_reg cells that could be utilized for their therapeutic applications.     

Cytotoxicity of lymphoid cells induced by Maclura pomifera (MP) lectin.

The cytotoxic activity of lymphoid cells stimulated with Maclura pomifera (MP) lectin was investigated. Spleen cells of Lewis (LEW) or Brown Norway (BN) rats induced a cell-dependent release of ⁵¹Cr from syngeneic, allogeneic, and xenogeneic erythrocytes when incubated with MP for 4–16 hr. The activity of MP differed from that of concanavalin A (Con A). MP exhibited a greater activity with spleen cells while Con A was more active when bone marrow cells were tested. Activity induced by MP required the presence of the lectin for at least 4 hr and was inhibited by melibiose, an inhibitor of MP binding. MP also stimulated phagocytosis by peritoneal macrophages of LEW rats, but phagocytosis was not responsible for the cytotoxic effect measured by ⁵¹Cr release. The ability of aggressor cells to bind MP did not correlate with their cytotoxic activity. The cytotoxic activity of spleen cells from athymic nude mice was equivalent to that of cells from euthymic littermates when stimulated with MP.     

Agglutination of Trypanosoma cruzi by Concanavalin A*

Epimastigotes of Trypanosoma cruzi obtained in culture agglutinate readily with low concentrations of concanavalin A (Con A). Agglutination was linear with time up to 10 min providing that the initial cell density was greater than 1 × 10⁸ cells/ml. Under these conditions, the percentage agglutination was dependent on the Con A concentration. Agglutination was inhibited by α-methyl D-mannoside, α-D-mannose, and α-D-glucose. Pretreatment of cells with trypsin had no effect on the epimastigote agglutinations. Blood forms (trypomastigotes) of T. cruzi did not agglutinate even in the presence of 100 times more Con A. Results suggest differences in membrane structure between blood forms and cultured epimastigotes of T. cruzi. These membrane differences might be related to the different pathogenic properties of both cell forms of T. cruzi.     

Influence of concanavalin A on autolysis of gametes from Chlamydomonas reinhardii

The phytohemagglutinin concanavalin A inhibited zygote formation of Chlamydomonas reinhardii. 15–50 μg lectin/ml not only interfered with the mating reaction, but also with cell wall lysis of gametes and zoospores in a crude autolysin preparation gained from copulating gametes. Further, the structure of cell walls shed into the medium after autolysis in the course of the mating reaction and after lysis “from without” in the crude autolysin preparation was stabilized by Con A. Therefore, it must be assumed that the lectin inhibited zygote formation of C. reinhardii by interfering with autolysis of the cell walls of the gametes. Though Con A inhibited the lytic processes of C. reinhardii, an activation of the autolytic system in ⊖ gametes by the lectin was found to compete with its inhibitory reaction. Con A induced autolysis of ⊖ gametes was dependent on adherence of the cells by their flagella to the surface of the culture vessel or the liquid medium and did not occur in cultures stirred by rotation. The interferences of Con A with the autolytic system of C. reinhardii were inhibited by methyl-α-d-mannopyranoside and to a lesser degree by glucose, indicating that the carbohydrate binding sites of the lectin were involved in its reactions with the cells.     

Effect of progesterone administration on the distribution of oviductal carbohydrates in <Emphasis Type="Italic">Rana tigrina</Emphasis>

Our aim has been to determine whether carbohydrate distribution in the oviducts of progesterone-treated animals is comparable with that of seasonal breeders in Rana tigrina. Like many other anurans, R. tigrina oviduct exhibits a short straight portion (pars recta, pr) at the beginning followed by a long, highly coiled portion (pars convoluta, pc). Histologically, the oviduct of this species revealed some unique features, one of which was intense toluidine blue staining, specifically in the upper mucosal glands of pc4. Based on lectin reactivities in the epithelial cells and mucosal glands, patterns of lectin staining in the seasonal breeders were classified into seven types: R1-R3 (for pr) and C1-C4 (for pc). Typically, some lectins reacted selectively either with ciliated cells (concanavalin A) or non-cialiated cells (Ricinus communis agglutinin I and wheatgerm agglutinin); however, Bandeiraea simplicifolia agglutinin I reacted with both cell types. These staining patterns were different in the progesterone-treated animals. Differences in glycan distribution in the oviductal secretions were revealed by lectin blotting. Compared with the seasonal breeders, an enhanced staining of some lectins was noted in the hormone-treated animals: either an increased staining intensity of existing protein bands or additional staining of new protein bands. Inversely, the staining of wheatgerm agglutinin was markedly diminished in the hormone-treated animals, suggesting the inhibitory effect of progesterone on oviductal glycan distribution. Whether alteration in glycan distribution upon progesterone treatment affects the physiological properties of the released jelly substances remains to be addressed. This research was supported by Thailand Research Funds (to W.W.), a Research Initiate Grant from Kasetsart University (to A.T.), and Mahidol University.     

Location of amino acid and carbohydrate transport sites in the surface membrane of normal and transformed mammalian cells

Summary Amino acid and carbohydrate transport in normal and malignant transformed hamster cells was studied after binding of the protein Concanavalin A (Con. A) to the surface membrane. Experimental conditions were used so that a similar number of Con. A molecules were bound to both types of cells. The transport of amino acids was inhibited after Con. A binding in the transformed cells but not in normal cells. This was found with the metabolizable amino acidsl-leucine,l-arginine,l-glutamic acid, andl-glutamine, and with the non-metabolizable amino acids cycloleucine and -aminoisobutyric acid. Transport ofd-glucose andd-galactose was more inhibited by Con. A in transformed than in normal cells, and in both types of cellsd-glucose was inhibited more thand-galactose. The inhibition by Con. A on transport was specific, since there was no effect on the transport ofl-fucose in either normal or transformed cells. Con. A also did not effect the entry of 3-0-methyl-d-glucose.These observations can be used to locate amino acid and carbohydrate transport sites in the surface membrane in relation to the binding sites for Con. A. The results indicate that Con. A sites are associated in normal cells with transport sites ford-glucose and to a lesser extentd-galactose, and in transformed cells with transport sites for amino acids and to a greater extent than in normal cells withd-glucose andd-galactose. Malignant transformation of normal cells therefore results in a change in the location of amino acid and carbohydrate transport sites in the surface membrane in relation to the binding sites for Con. A.     

Agglutination of Normal and Rous Sarcoma Virus-transformed Chick Embryo Cells by Concanavalin A and Wheat Germ Agglutinin

RODENT cells in culture transformed by oncogenic DNA viruses have surface sites that on normal cells are usually present in latent form only^1,2. This difference in surface properties can be detected by plant glycoproteins such as wheat germ agglutinin (WGA) and concanavalin A (Con A), which agglutinate only transformed cells, because they have certain carbohydrate moieties on their neoplastic surfaces^1–4. According to some investigators, normal and neoplastic cells that have been freshly isolated also exhibit this marked difference^3,5; according to others^6,7, there is no such distinction. We have looked for such differences in cells transformed by RNA tumour viruses and in several types of normal and naturally occurring malignant cells and their normal counterparts.     

Regulation of the RyR channel gating by Ca<Superscript>2+</Superscript> and Mg<Superscript>2+</Superscript>

Ryanodine receptors (RyRs) are the Ca²⁺ release channels in the sarcoplasmic reticulum in striated muscle which play an important role in excitation-contraction coupling and cardiac pacemaking. Single channel recordings have revealed a wealth of information about ligand regulation of RyRs from mammalian skeletal and cardiac muscle (RyR1 and RyR2, respectively). RyR subunit has a Ca²⁺ activation site located in the luminal and cytoplasmic domains of the RyR. These sites synergistically feed into a common gating mechanism for channel activation by luminal and cytoplasmic Ca²⁺. RyRs also possess two inhibitory sites in their cytoplasmic domains with Ca²⁺ affinities of the order of 1 μM and 1 mM. Magnesium competes with Ca²⁺ at these sites to inhibit RyRs and this plays an important role in modulating their Ca²⁺-dependent activity in muscle. This review focuses on how these sites lead to RyR modulation by Ca²⁺ and Mg²⁺ and how these mechanisms control Ca²⁺ release in excitation-contraction coupling and cardiac pacemaking.     

Swelling-Induced Ca<Superscript>2+</Superscript> Influx and K<Superscript>+</Superscript> Efflux in American Alligator Erythrocytes

The American alligator can hibernate during winter, which may lead to osmotic imbalance because of reduced kidney function and lack of food consumption during this period. Accordingly, we hypothesized that their red blood cells would have a well-developed regulatory volume decrease (RVD) to cope with the homeostatic challenges associated with torpor. Osmotic fragility was determined optically, mean cell volume was measured by electronic sizing, and changes in intracellular Ca²⁺ concentration were visualized using fluorescence microscopy and fluo-4-AM. Osmotic fragility increased and the ability to regulate volume was inhibited when extracellular Na⁺ was replaced with K⁺, or when cells were exposed to the K⁺ channel inhibitor quinine, indicating a requirement of K⁺ efflux for RVD. Addition of the ionophore gramicidin to the extracellular medium decreased osmotic fragility and also potentiated volume recovery, even in the presence of quinine. In addition, hypotonic shock (0.5× Ringer) caused an increase in cytosolic Ca²⁺, which resulted from Ca²⁺ influx because it was not observed when extracellular Ca²⁺ was chelated with EGTA (ethylene glycol-bis(2-aminoethylether)-N,N,N′,N′-tetraacetic acid). Furthermore, cells loaded with BAPTA-AM (1,2-bis(2-aminophenoxymethyl)ethane-N,N,N′,N′-tetraacetic acid tetrakis(acetoxymethyl) ester) or exposed to a low Ca²⁺-EGTA hypotonic Ringer had a greater osmotic fragility and also failed to recover from cell swelling, indicating that extracellular Ca²⁺ was needed for RVD. Gramicidin reversed the inhibitory effect of low extracellular Ca²⁺. Finally, and surprisingly, the Ca²⁺ ionophore A23187 increased osmotic fragility and inhibited volume recovery. Taken together, our results show that cell swelling activated a K⁺ permeable pathway via a Ca²⁺-dependent mechanism, and this process mediated K⁺ loss during RVD.     

Binding of Concanavalin A to Normal and Transformed Cells as Detected by Immunofluorescence

CHANGES in the nature and conformation of the cell membrane have been considered to play a significant role in malignant transformation¹. Transformed cells have been reported to have altered surface properties detectable by the binding of some plant derived lectins leading to agglutination^2–5. It has been suggested that the surface of transformed cells contains exposed sites where these agglutinins interact, whereas normal cells have such sites in a cryptic form^6,7. I now report evidence for the binding of the phytagglutinin concanavalin A (Con A) on the surface of both normal and transformed cells as detectable by immunofluorescence.     

Dynamic Changes of CD4<Superscript>+</Superscript>CD25<Superscript>+</Superscript> Regulatory T Cells in NOD.H-2<Superscript>h4</Superscript> Mice with Iodine-Induced Autoimmune Thyroiditis

Iodine is an essential trace element for thyroid hormone synthesis and metabolism, either low or high intake may lead to thyroid disease, but the pathogenetic mechanisms by which iodine interacts with the thyroid autoimmune are poorly understood. We investigated the dynamic changes of CD4⁺CD25⁺ regulatory T cells in NOD.H-2^h4 mice with iodine-induced autoimmune thyroiditis (AIT), and explore potential immune mechanism of AIT induced by iodine. NOD.H-2^h4 mice were randomly divided into two groups, and received plain water or water containing 0.005% sodium iodide. Eight weeks after iodine provision, the incidences of thyroiditis, relative weights of thyroids, and serum thyroglobulin antibody titers in the iodine-supplied groups were significantly increased compared to the control groups (p < 0.05). The AIT mice had fewer CD4⁺CD25⁺Foxp3⁺ T cells and reduced Foxp3 mRNA expression in splenocytes compared with the controls (p < 0.01), and maintained relatively low levels during the development of thyroiditis. The changes described above aggravated gradually with the extension of iodine treatment. These data suggest that CD4⁺CD25⁺ regulatory T cells may be involved in the pathogenesis and development of AIT induced by iodine.     

Antitumor activity of a self-adjuvanting glyco-lipopeptide vaccine bearing B cell,CD4<Superscript>+</Superscript> and CD8<Superscript>+</Superscript> T cell epitopes

Molecularly defined synthetic vaccines capable of inducing both antibodies and cellular anti-tumor immune responses, in a manner compatible with human delivery, are limited. Few molecules achieve this target without utilizing external immuno-adjuvants. In this study, we explored a self-adjuvanting glyco-lipopeptide (GLP) as a platform for cancer vaccines using as a model MO5, an OVA-expressing mouse B16 melanoma. A prototype B and T cell epitope-based GLP molecule was constructed by synthesizing a chimeric peptide made of a CD8⁺ T cell epitope, from ovalbumin (OVA_257–264) and an universal CD4⁺ T helper (Th) epitope (PADRE). The resulting CTL–Th peptide backbones was coupled to a carbohydrate B cell epitope based on a regioselectively addressable functionalized templates (RAFT), made of four α-GalNAc molecules at C-terminal. The N terminus of the resulting glycopeptides (GP) was then linked to a palmitic acid moiety (PAM), obviating the need for potentially toxic external immuno-adjuvants. The final prototype OVA-GLP molecule, delivered in adjuvant-free PBS, in mice induced: (1) robust RAFT-specific IgG/IgM that recognized tumor cell lines; (2) local and systemic OVA_257–264-specific IFN-γ producing CD8⁺ T cells; (3) PADRE-specific CD4⁺ T cells; (4) OVA-GLP vaccination elicited a reduction of tumor size in mice inoculated with syngeneic murine MO5 carcinoma cells and a protection from lethal carcinoma cell challenge; (5) finally, OVA-GLP immunization significantly inhibited the growth of pre-established MO5 tumors. Our results suggest self-adjuvanting glyco-lipopeptide molecules as a platform for B Cell, CD4⁺, and CD8⁺ T cell epitopes-based immunotherapeutic cancer vaccines. Both I. Bettahi and G. Dasgupta have contributed equally to this work.