Interactions of lectins with CHO cell surface membranes. II. Differential effects of local anesthetics on endocytosis of CON A and WGA binding sites

Using fibroblastic CHO cells, we have examined (1) the internalization and redistribution of surface binding sites for the lectins Concanavalin A and wheat germ agglutinin and (2) the sensitivity of these processes to putative inhibitors of cytoskeletal activity. Following initial exposure to fluorescein conjugated Con A (CAF) or WGA (WGAF) at 4° C, kinetic analysis of internalization and intracellular aggregation of lectin at 37°C indicated more rapid aggregate formation in the case of WGA than in the case of Con A. Treatment with tertiary amine local anesthetics (tetracaine, dibucaine, and xylocaine) or with a lysosomatrophic amine, m-dansyl cadaverine, blocked internalization of Con A but not of WGA. Similar differential effects on redistribution of Con A and WGA were not however observed with the antimicrotubule agents colchicine and nocodazole. Simultaneous treatment of cells with WGAF and with rhodamine labeled Con A (CAR) resulted in the accumulation of both labels in a central perinuclear aggregate; a similar experiment in the presence of local anesthetic resulted in a diffuse peripheral distribution of CAR and a central aggregate of WGAF. These results suggest (1) CHO cells possess at least two distinct pathways for lectin internalization and redistribution, which can be discriminated in terms of drug sensitivity; (2) CHO cells can sort out and independently internalize different populations and lectin binding sites; and (3) different pathways may be a manifestation of biochemically distinct linkages between cytoskeletal elements and various groups of surface glycoproteins. Present findings concur with our previous results concerning the mutual independence of the surface binding sites for Con A and WGA (Emerson and Juliano, 1982).     

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.     

Wheat-germ-agglutinin and Ricinus communis-agglutinin-binding sites of BHK cells compared with each other and with 140 kDa fibronectin receptors.

We compared the wheat-germ agglutinin (WGA) and Ricinus communis agglutinin (RCA) binding sites of baby-hamster kidney (BHK) cells. There were 1.01 X 10(8) WGA-binding sites per cell (Kd = 0.027 nM) and 6 X 10(6) RCA-binding sites per cell (Kd = 0.014 nM). Binding of WGA or RCA to BHK cells resulted in more than 75% of the cell-surface binding sites becoming associated with the cytoskeleton (i.e. resistant to extraction with detergent), although no more than 10% of these sites were associated with the cytoskeleton before addition of the lectins. After binding of WGA to the cells, the cell surface was cross-linked so extensively that it remained intact even after detergent extraction of the treated cells, and could be observed by electron microscopy. A similar cross-linking effect did not occur after binding of RCA to cells, which may be because there were so many more binding sites for WGA than for RCA. The composition of WGA- and RCA-binding molecules was analysed by lectin affinity chromatography of metabolically radiolabelled BHK cells. We found that in the WGA-binding-molecule preparations there were eight major polypeptides, ranging in molecular mass from 93 to 340 kDa, and that the RCA-binding molecules were a subpopulation of the WGA-binding molecules. A polyclonal antibody against the 140 kDa fibronectin (FN) receptors of Chinese-hamster ovary (CHO) cells immunoblotted a 145 kDa polypeptide component in both WGA- and RCA-binding-molecule preparations. The results indicated that the 145 kDa component was present in at least two FN-receptor complexes that differed in glycosylation, only one of which was able to bind to RCA affinity columns. The oligomeric nature of the FN-receptor complex, which contained three polypeptides with molecular masses of 120-145 kDa, was demonstrated by using anti-(CHO-cell FN receptor) antibodies to immunoprecipitate extracts prepared from radioiodinated BHK cells.     

Epidermal growth factor receptors on PC12 cells: Alteration of binding properties by lectins

The PC12 cell line displays cell surface receptors for both nerve growth factor (NGF) and epidermal growth factor (EGF). It has been previously shown that the lectin wheat germ agglutinin (WGA) alters the properties of NGF receptors on these cells. We now report that preincubations with either WGA or concanavalin A (Con A) decrease the binding of ¹²⁵I-EGF to PC12 cells by greater than 50%. The inhibition of binding occurred at 37°C and 4°C and could be blocked or reversed by the addition of sugars which bind specifically to WGA or Con A. Scatchard analysis revealed that these lectins decreased binding primarily by lowering the affinity of the receptor and to a lesser extent by decreasing receptor number. Succinylalion of Con A (sCon A) produced a derivative that was less effective than the native lectin in decreasing EGF binding; however, addition of an antibody against Con A restored the ability of sCon A to decrease binding. Similar to results obtained with ¹²⁵I-NGF binding, WGA but not Con A was found to increase, by scveralfold; the proportion of ¹²⁵I-EGF binding that is resistant to solubilization by Triton X-100 detergent. A potential association of the EGF receptor with cytoskeletal elements is discussed which could account for such results.     

Effect of thyroid hormones on the histotopography of lectin receptors in the rat salivary gland

Using lectin-peroxidase technique, the influence of hypo- and hyperthyroidism on histotopography of glycoconjugates has been investigated in rat submandibular gland. The following lectins were used: peanut agglutinin (PNA), wheat germ agglutinin (WGA), Laburnum anagyroides lectin (LAL) and concanavalin A (con A). It has been demonstrated that hyperthyroidism is accompanied by the loss of con A, WGA and LAL receptor sites. Hypothyrodism enhanced con A binding to granular duct cells with a parallel reduction in WGA and LAL binding to these or other duct cells. Hypothyroidism as well as hyperthyroidism markedly enhanced PNA binding to duct epitheliocytes with redistribution of these lectin binding sites from the luminal surface of salivary ducts into the cytoplasm of duct cells. Possible interpretations of the observed phenomena are discussed.     

WGA binding to the surface of two autologous human melanoma cell lines: different expression of sialyl and N-acetylglucosaminyl residues

Two autologous human melanoma cell lines were studied to determine their capacities to bind wheat germ agglutinin (WGA). Both cell lines were derived from the same patient, the first, IGR 39, originated from the primary tumor, the second, IGR 37, was established from a metastatic lymph node. WGA binding sites on the surface of these cell lines were compared before and after sialidase and/or tunicamycin treatments. IGR 39 cells exhibited two classes of WGA binding sites with high and low affinities, whereas IGR 37 cells had only one class of high affinity binding sites. After tunicamycin treatment, the capacity of IGR 39 cells to bind WGA was markedly altered, since only one class of WGA binding sites with high affinity was observed under these conditions, whereas tunicamycin did not induce significant changes in the lectin binding of IGR 37 cells. The low affinity WGA binding sites, which were only found on IGR 39 cells, corresponded to sialyl residues present in N-linked glycoproteins. The high affinity binding sites present on both cell lines probably involved sialyl and N-acetyl-glucosaminyl residues associated with O-linked glycoproteins and/or glycolipids. No direct correlation could be drawn between the number of WGA binding sites and the overall sialic acid levels exposed to sialidase treatment. The 3-fold increase in the amount of cell surface glycopeptides obtained after pronase digestion and specifically binding to WGA-Sepharose was in good agreement with the overall higher number of WGA binding sites on IGR 39 compared to IGR 37 cells. Thus, subtle carbohydrate changes of cell surface glycoconjugates might account for the differences between the biological properties of human melanoma cell lines of low and high tumorigenicity.     

Protein 1a: A major wheat germ agglutinin binding protein on the surface of human granulocytes associated with the cytoskeleton

Lectin-receptors on leukocyte and endothelial surfaces are becoming more important in the light of increasing evidence which implicates lectin-carbohydrate interactions in diverse physiological phenomena. This study reports the identification of a major 118 kDa granulocyte surface protein, (Protein 1a) which binds the lectin wheat germ agglutinin (WGA), and is distinctly different from reported WGA binding granulocyte membrane proteins. Protein 1a has been isolated from the Triton-soluble and Triton-insoluble lysates of normal individuals and patients with Chronic Myeloid Leukemia (CML) using a combination of differential solubilization, lectin affinity, ion exchange chromatography and HPLC. The protein from the detergent lysates of both normal and CML granulocytes has similar pI values, lectin affinities, and hydrophobicity. However, its solubility in Triton is different in the two cell types. In 71% of CML cases examined, Protein 1a exhibits decreased Triton solubility suggesting its increased association with the cytoskeleton (CSK). Stimulation of normal granulocytes with WGA leads to the translocation of the soluble form of Protein 1a to the Triton-insoluble fraction. This cytoskeletal recruitment of Protein 1a is sustained only under conditions of excess WGA and occupied receptor. The CSK disruptive agent dihydrocytochalasin B (H₂CB) releases the insoluble form of the receptor into the Triton-soluble fraction. Investigation of a CSK-involving process such as ligand internalization revealed that CML granulocytes exhibit slower kinetics of internalization of fluorescent WGA molecules. Since Protein 1a is a major WGA receptor on the granulocyte surface, its decreased Triton solubility in CML granulocytes suggests that this may be one of the factors contributing to the defective receptor-mediated endocytosis of WGA by CML cells, arising as a consequence of altered membrane-CSK interaction — a nodal point in the signal transduction cascade.     

Modulation of endothelial cell surface glycoconjugate expression by organ-derived biomatrices

Cell surface molecules play an important role in cellular communication, migration, and adherence. Here, we show the effect of organ-derived biomatrices on endothelial cell surface glycosylation. Five different lectins (with and without neuraminidase treatment) have been used as probes in an enzyme-linked lectin assay to quantitatively detect glycoconjugates on endothelial cells (BAEC) grown on tissue culture plastic or biomatrices isolated from bovine lung, liver, and kidney. BAEC generally exhibit strong binding of concanavalin A (Con A), Ricinus communis agglutinin I (RCA-I), wheat germ agglutinin (WGA), and soybean agglutinin, and peanut agglutinin after neuraminidase pretreatment of cells (Neu-SBA and Neu-PNA), while SBA and PNA consistently bind weakly to BAEC. BAEC grown on organ-derived biomatrices exhibit significantly altered binding intensities of Con A, RCA-I, WGA, and Neu-PNA: BAEC cultured on lung- or kidney-derived biomatrices express significantly stronger binding affinities for Con A and RCA-I than BAEC grown on liver-derived biomatrix or tissue culture plastic. In contrast, BAEC binding of WGA and PNA (after treatment of cells with neuraminidase) is significantly reduced when BAEC are grown on liver- or kidney-derived biomatrix. Quantitative lectin immunogold electron microscopy reveals consistently stronger lectin binding over nuclear regions compared to junctional regions between neighboring cells. These results indicate that extracellular matrix components regulate endothelial cell surface glycoconjugate expression, which determines cellular functions, e.g., preferential adhesion of lymphocytes or metastatic tumor cells.     

Wheat germ agglutinin blocks the biological effects of nerve growth factor

The binding of nerve growth factor (NGF) to specific cell surface receptors initiates a variety of effects that lead to the morphological and biochemical differentiation of clonal pheochromocytoma, PC12, cells. The lectin wheat germ agglutinin (WGA) alters the characteristics of NGF-receptor interaction. We have found that treatment of PC12 cells with WGA dramatically and reversibly inhibits the ability of NGF to elicit three distinct biological effects characteristic of NGF action. Two of these events, the rapid ruffling of cell-surface membranes and the stimulation of the phosphorylation of a 250-kD cytoskeletal protein in situ, occur rapidly and are an immediate consequence of receptor occupancy. Both of these effects are blocked by pretreatment of the cells with WGA. WGA was also found to inhibit the NGF-stimulated regeneration of neurites that occurs over 1- 2 d. Both the WGA inhibition of neurite outgrowth and the phosphorylation of the 250-kD cytoskeletal protein were reversed upon addition of the specific sugar N-acetylglucosamine. These data demonstrate that the WGA-induced changes in the NGF-receptor interaction reflect important alterations in the ability of the receptor to transmit biological signals, resulting in the abrogation of the biological effects of NGF on these cells.     

Wheat germ lectin induces G2/M arrest in mouse L929 fibroblasts

Wheat germ lectin (WGA) is a cytotoxic lectin for many cell lines [Wang et al., 2000], but its underlying mechanism is not clear. In this report, we found that incubation of synchronized mouse L929 fibroblasts with WGA resulted in a dose-dependent reduction of intracellular incorporation of 3H-thymidine and MTT (3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyl tetrazolium bromide)-conversion activity (IC50 congruent with 0.4 microM). Fluorescein-conjugated WGA was demonstrated to transport from the cell surface into the paranuclear region of cultured L929 cells within 30 min, and subsequently evoked lipid peroxidation of plasma membrane and vacuolation in the cytoplasm of these cells. Studies with tritiated thymidine incorporation, immunofluorescence microscopy, immunoblotting analysis and flow cytometry revealed that WGA inhibited cell cycle progression after one replication, resulting in G2/M arrest and alteration of cell cycle regulatory proteins, particularly activation of p21Cip1/WAF1 and suppression of cyclin B and cdc 2. Although there was an increase of cytosolic caspase 3 and bax protein expression, no apoptotic bodies were observed by both fluorescence and transmission electron microscopy. These results suggest that WGA arrested L929 proliferation after one cell cycle in the G2/M phase through activation of the p21Cip1/WAF1 and suppression of Cyclin B-Cdc2.     

Detection of hemicelluloses specific to the cell wall of tracheary elements and phloem cells by fluorescein-conjugated lectins

Summary Binding of fluorescein-conjugated wheat-germ agglutinin (F-WGA) and some other lectins to tissues from various plants were examined by epifluorescence microscopy. F-WGA bound specifically to the walls of tracheary elements (TEs) and phloem cells of pea roots. The binding sites in TEs were localized only in the secondary thickening and became evident at very early stages of differentiation. Fluorescein-conjugated derivatives ofSolanum tuberosum lectin,Lycopersicon esculentum lectin, andDatura stramonium lectin, which bind N-acetylglucosamine residues as WGA, also bound to the secondary thickening of TEs of pea roots. The binding sites for F-WGA were not removed by extraction with hot EDTA and proteinase K, but removed by extraction with an alkali solution. The alkali-extracted binding sites from the roots were precipitated together with hemicelluloses by 80% ethanol. These results indicate that the binding sites are not present on pectins, proteins, or cellulose, but hemicelluloses. Localized distribution of the binding sites for F-WGA in TEs was found also in a variety of angiosperm plants.Abbreviations BSL-II Bandeiraea simplicifolia lectin II - DSL Datura stramonium lectin - F fluorescein-conjugated - LEL Lycopersicon esculentum lectin - MT microtubule - STL Solanum tuberosum lectin - TE tracheary element - WGA wheat-germ agglutinin     

Lectin-bearing liposomes: differential binding to normal and to transformed mouse fibroblasts

The binding of covalent conjugates of concanavalin A (Con A) or wheat germ agglutinin (WGA) and liposomes (lectin-liposomes) to the surface of normal and transformed mouse fibroblasts was studied. Quantitation of the binding was performed by means of microfluorometry and radioactive lipid label counting using both sparse and dense cell cultures. It was found that 2.5-3 times more lectin-conjugated liposomes are bound to L or SV3T3 cells than to the mouse embryo fibroblasts and 3T3 cells in a broad concentration range. The binding of Con A- and WGA-liposomes was inhibited up to 70% in the presence of the corresponding carbohydrate inhibitors. A decreased binding of lectin-liposomes to cells was also observed when cells were pretreated with the free lectin. Trypsinization of the cells resulted in an increase in the Con A-liposomes binding to normal fibroblasts. When free fluorescent Con A or WGA was used in binding studies no profound differences in the binding of lectin to normal or transformed cells were detected. The relation of the lectin-liposome/cell to cell/cell interactions is discussed.     

Immunofluorescent localization of a 39,000-dalton substrate of tyrosine protein kinases to the cytoplasmic surface of the plasma membrane

The intracellular distribution of p39, a 39,000-dalton substrate for a number of tyrosine protein kinases, has been determined by indirect immunofluorescence microscopy. No binding of anti-p39 antibodies to intact cells was observed, indicating that this protein is not accessible to antibody on the cell surface. Following detergent permeabilization of formaldehyde-fixed cells, a reasonably uniform cytoplasmic labeling was observed. This fluorescence was most pronounced in membrane ruffles, especially in the leading lamellae of migrating cells, and in areas of cell-cell contact. Brief permeabilization of cells with detergent prior to formaldehyde fixation resulted in the appearance of a reticular lattice. An identical staining pattern was observed when fluorescently-labeled lectins were used as plasma membrane markers, but not when antibodies to a variety of cytoskeletal proteins were used. Taken together, these results indicate that p39 is, at least in part, located at the cytoplasmic surface of the plasma membrane. Immunolabeling of Rous sarcoma virus- transformed cells with anti-p39 antibodies resulted in fluorescent staining patterns indistinguishable from those observed in untransformed cells. It is conceivable that p39 plays some structural role within a protein network underlying the plasma membrane.     

Wheat germ agglutinin and other selected lectins increase synthesis of decay-accelerating factor in human endothelial cells.

Decay accelerating factor (DAF) is a cell-surface phosphatidylinositol-anchored protein that protects the cell from inadvertent complement attack by binding to and inactivating C3 and C5 convertases. We have measured DAF on human umbilical vein endothelial cells (HUVEC) by immunoradiometric assay after its removal by phosphatidylinositol-specific phospholipase C or Nonidet P-40 detergent extraction and have previously demonstrated that DAF synthesis can be stimulated by phorbol ester activation of protein kinase C. We now report that although stimulation (4-48 h) of HUVEC with various cytokines, including TNF, IL-1, and IFN-gamma, did not alter DAF levels, wheat germ agglutinin (WGA) (5-50 micrograms/ml), a lectin specific for binding N-acetyl neuraminic acid and N-acetyl glucosamine residues, increased DAF levels fivefold when incubated with HUVEC for 12 to 24 h. The lectins Con A and PHA also stimulated DAF expression twofold, whereas a number of others including Ulex europaeus, Bandeiraea simplicifolia lectin I, and Ricinus communis agglutinin I, which bind to endothelial cells, were inactive. The increase in DAF by WGA was inhibited by N-acetyl glucosamine (10-50 mM) but by neither N-acetyl neuraminic acid nor removal of surface N-acetyl neuraminic acid with neuraminidase. However, succinylated WGA, which has unaltered affinity for N-acetyl glucosamine but not longer binds N-acetyl neuraminic acid, was inactive. These data suggest that the binding of WGA to sugar residues alone is not sufficient to trigger DAF expression and that occupation of additional, specific sites are required. The increase in DAF levels on HUVEC was blocked by inhibitors of RNA and protein synthesis. We conclude that continuous occupation by WGA of specific binding sites on HUVEC triggers events leading to DAF synthesis. This unique, long term stimulation of endothelial cells by lectins may be relevant to cell:cell interactions at the endothelium.     

A simple fixation procedure for immunofluorescent detection of different cytoskeletal components within the same cell

In recent studies on the cytoskeletal organization of T51B rat liver cells by indirect immunofluorescence microscopy, we have been unable to achieve double-staining of microtubules and intermediate filaments within the same cell. In acetone-fixed cells, microtubules were poorly preserved, and two out of three monoclonal antibodies tested did not stain them properly. In formaldehyde-fixed cells, the monoclonal anti-cytokeratin produced an incomplete staining pattern against a diffuse background. We have now developed a fixation protocol which includes simultaneous fixation and extraction with formaldehyde and nonionic detergent in the present of microtubule stabilization buffer. Although developed for a specific purpose, it is of general application as it yields excellent preservation of all cytoskeletal components tested so far, without masking antigenic determinants. The procedure is both simple and fast and will, therefore, be valuable for efficient processing of samples from large-scale experiments, such as the screening for cytoskeletal changes during longterm treatment of cells with drugs or carcinogens.     

A simple fixation procedure for immunofluorescent detection of different cytoskeletal components within the same cell

Summary In recent studies on the cytoskeletal organization of T51B rat liver cells by indirect immunofluorescence microscopy, we have been unable to achieve double-staining of microtubules and intermediate filaments within the same cell. In acetone-fixed cells, microtubules were poorly preserved, and two out of three monoclonal antibodies tested did not stain them properly. In formaldehyde-fixed cells, the monoclonal anti-cytokeratin produced an incomplete staining pattern against a diffuse background. We have now developed a fixation protocol which includes simultaneous fixation and extraction with formaldehyde and nonionic detergent in the present of microtubule stabilization buffer. Although developed for a specific purpose, it is of general application as it yields excellent preservation of all cytoskeletal components tested so far, without masking antigenic determinants. The procedure is both simple and fast and will, therefore, be valuable for efficient processing of samples from large-scale experiments, such as the screening for cytoskeletal changes during longterm treatment of cells with drugs or carcinogens.     

Lectin receptor sites on rat liver cell nuclear membranes.

The presence and localization of lectin receptor sites on rat liver cell nuclear and other endomembranes was studied by light and electron microscopy using fluorescein and ferritin-coupled lectin conjugates. Isolated nuclei labelled with fluorescein-conjugated Concanavalin A (Con A) or wheat germ agglutinin (WGA) often showed membrane staining, which sometimes was especially bright on small stretches of the nuclear surface. Unlabelled nuclei and nuclei with a complete ring fluorescence were also seen. The nuclear fluorescence corresponded in intensity to that seen on the surface of isolated rat liver cells. Con A-ferritin particles were seldom detected on the cytoplasmic surface of the intact nuclear envelope. However, at places where the 2 leaflets of the envelope were widely separated or where the outer nuclear membrane was partly torn away, heavy labelling was seen on the cisternal surface of both the inner and outer nuclear membranes. Labelling with Con A-ferritin was also found on the cisternal side of rough endoplasmic reticulum present in the specimens. No labelling was seen on the cytoplasmic surface of mitochondrial outer membrane. The results demonstrate the presence of binding sites for Con A and WGA in nuclei and an asymmetric localization of these sites on the cisternal side of ribosome-carrying endomembranes in rat liver cells.     

Lectin binding by eosinophils

Lectins which identify carbohydrates and glycoproteins have been used to characterize specific components of the surface of guinea pig peritoneal exudate eosinophils. Agglutination of eosinophils purified by discontinuous metrizamide gradients was scored microscopically. Wheat germ agglutinin (WGA) was most effective (0.05 micrograms/ml). However, higher concentrations of soybean lectin and concanavalin A (Con A) were also effective. No differences in lectin binding were noted between eosinophils harvested from uninfected animals, Trichinella spiralis-infected animals, or animals receiving weekly intraperitoneal injections of polymyxin B. Neuraminidase pretreatment to remove surface sialic acid reduced agglutination by WGA. Eosinophils did not adhere to WGA-coated Sepharose beads; however, they did adhere to Con A-coated beads. Pretreatment with neuraminidase did not affect the adherence of eosinophils to plastic surfaces, suggesting that sialic acid does not play an important role in adherence. Formation of lectin-inhibitor complexes within the incubation mixture complicated interpretation of studies of binding to plastic surfaces. These studies demonstrate that lectin binding sites are present on the surface of eosinophils. Lectin-type binding may be important in interactions between eosinophils and noningestible parasites.     

Lectin-binding pattern on the surface epidermis of Ambystoma tigrinum larvae. A light- and electron-microscopic study

The surface epidermis of Ambystoma tigrinum larvae was examined at the light- and electron-microscope levels using five different lectin conjugates as probes for the detection of sugar residues on the cell membranes. Concanavalin A (Con-A), wheat-germ agglutinin (WGA), Ricinus communis agglutinin I (RCA-I), Dolichos biflorus agglutinin and soybean agglutinin (SBA) conjugates clearly labelled the surface cells, especially their apical surfaces. At electron microscopy, the labelling on plasma membranes was found to exhibit regional differences. Among the lectins tested WGA displayed a particularly characteristic binding pattern. WGA also bound to basolateral cell surfaces, including the tight-junction zone which was also stained by the RCA-I conjugate. The different labelling intensity and staining patterns obtained with the conjugates indicated the polarity of the cell surfaces. It is also assumed that the WGA staining of the basolateral membranes and intercellular spaces reflected transcellular transport, which is facilitated by acidic glycoconjugates. Other functional aspects of the polarized distribution of the lectin conjugates were also correlated with the receptor sites of certain sugar residues.     

Binding of wheat germ agglutinin to extracellular network produced by cultured human fibroblasts

The occurrence of diverse carbohydrate moieties on the cell surface and in the extracellular matrix, makes lectins the suitable probes to study the distribution of appropriate determinants produced in cell culture. Biotin-labelled wheat germ agglutinin (WGA) was used in microscopic and photometric detection of lectin binding to monolayer of human skin fibroblasts. The incubation of confluent fibroblast monolayer with labelled WGA reveals two principal patterns of binding of this lectin: to cell surface structures and, predominantly, to extracellular fibres; the alignment and density of extracellular network are not uniform. After binding of WGA to confluent culture, light microscopic analysis revealed the ubiquitous fibrillar network between and over cells, with some regions of increased compactness and altered orientation of fibrils. Binding to cell surfaces (manifested as specks) was predominant for the fibroblasts at the logarithmic phase of growth. N-acetylglucosamine (0.2 M) and native lectin (100 microg/ml) had a partial inhibitory effect on WGA binding to the extracellular network. Treatment with neuraminidase (0.1 unit/ml) of untreated or prefixed monolayers resulted in a significant decrease in WGA binding to fibrils (and increase in PNA binding), indicating that terminal sialic acid residues are mainly involved in the network-WGA interaction. Mild trypsinization (10 microg/ml) removed the target sites, which retained the ability to bind WGA, being spotted on hydrophobic Immobilon P paper; biotinylated lectin, bound to adsorbed glycopeptides, could be eluted and quantified in solid-phase inhibition assay.