几种植物生殖细胞质膜表面的凝集素受体荧光标记

为进一步探讨从生殖细胞到精子的发育过程中细胞质膜表面凝集素受体的可能变化,及其与两类对凝集素标记有不同结果的精子的关系,用异硫氰酸荧光素标记的伴刀豆凝集素(Con A)、麦芽凝集素(WGA)和大豆凝集素(SBA)对蚕豆(Vicia faba L.)、鸢尾(Iris tectorium Maxim.)和朱顶红(Hippeastrum vittatum Herb.)的生殖细胞质膜表面的凝集素受体进行标记.结果显示:在不同植物中均有部分生殖细胞不能被凝集素探针标记,且在保持尾状形态的生殖细胞的表面发现有凝集素受体的极性分布.这可能是导致部分精子表面不能被同种凝集素标记的重要原因.此外,同一种凝集素受体在不同物种的生殖细胞上分布不一致,不同的凝集素受体在同一种植物的生殖细胞上的分布模式亦有不同.在蚕豆和鸢尾的生殖细胞表面均有这三种凝集素的受体.在朱顶红生殖细胞的表面有前两种凝集素的受体,分布比较均一,但是没有大豆凝集素的受体.此外,在具尾生殖细胞表面发现有凝集素受体极性分布的现象,为探讨精细胞功能及其表面糖蛋白分布的可能差异提供了重要启示.     

几种植物生殖细胞质膜表面的凝集素受体荧光标记

为进一步探讨从生殖细胞到精子的发育过程中细胞质膜表面凝集素受体的可能变化,及其与两类对凝集素标记有不同结果的精子的关系,用异硫氰酸荧光素标记的伴刀豆凝集素(Con A)、麦芽凝集素(WGA)和大豆凝集素(SBA)对蚕豆(Vicia faba L．)、鸢尾(Iris tectorium Maxim．)和朱顶红(Hippeastrum vittatum Herb．)的生殖细胞质膜表面的凝集素受体进行标记。结果显示：在不同植物中均有部分生殖细胞不能被凝集素探针标记,且在保持尾状形态的生殖细胞的表面发现有凝集素受体的极性分布。这可能是导致部分精子表面不能被同种凝集素标记的重要原因。此外,同一种凝集素受体在不同物种的生殖细胞上分布不一致,不同的凝集素受体在同一种植物的生殖细胞上的分布模式亦有不同。在蚕豆和鸢尾的生殖细胞表面均有这三种凝集素的受体。在朱顶红生殖细胞的表面有前两种凝集素的受体,分布比较均一,但是没有大豆凝集素的受体。此外,在具尾生殖细胞表面发现有凝集素受体极性分布的现象,为探讨精细胞功能及其表面糖蛋白分布的可能差异提供了重要启示。     

The acrosomal membrane of boar sperm: a Golgi-derived membrane poor in glycoconjugates

The acrosome is a large secretory vesicle of the sperm head that carries enzymes responsible for the digestion of the oocyte's investments. The event leads to sperm penetration and allows fertilization to occur. Release of the acrosomal enzymes is mediated by the interaction between sperm acrosomal and plasma membranes (acrosome reaction). Biochemical characterization of the acrosomal membrane has been restrained by a lack of methods to isolate uncontaminated fractions of the membrane. Here, we use new methods to expose the membrane to in situ cytochemical labeling by lectin-gold complexes. We study the topology and relative density of glycoconjugates both across and along the plane of the acrosomal membrane of boar sperm. Detachment of the plasma membrane from glutaraldehyde-fixed cells exposed the cytoplasmic surface of the acrosome to the lectin markers; freeze-fractured halves of the acrosomal membrane were marked by "fracture-label" (Aguas, A. P., and P. Pinto da Silva, 1983, J. Cell Biol. 97:1356-1364). We show that the cytoplasmic surface of the intact acrosome is devoid of binding sites for both concanavalin A (Con A) and wheat germ agglutinin (WGA). By contrast, it contains a high density of neuraminidase-resistant anionic sites detected by cationic ferritin. On freeze-fractured sperm, the receptors for Con A partitioned with the exoplasmic membrane half of the acrosomal membrane. The Con A-binding glycoconjugates were accumulated on the equatorial segment of the membrane. A low density of WGA receptors, as well as of intramembrane particles, was found on the freeze-fracture halves of the acrosomal membrane. The plasma membrane displayed, in the same preparations, a high density of receptors for both Con A and WGA. We conclude that the acrosome is limited by a membrane poor in glycoconjugates, which are exclusively exposed on the exoplasmic side of the bilayer. Regionalization of Con A receptors on the acrosome shows that sperm intracellular membranes, like the sperm surface, express domain distribution of glycocomponents.     

Distribution and mobility of lectin receptors on synaptic membranes of identified neurons in the central nervous system

The distribution and mobility of concanavalin A (Con A) and Ricinus communis agglutinin (RCA) receptors (binding sites) on the external surfaces of Purkinje, hippocampal pyramidal, and granule cells and their attached boutons were studied using ferritin-lectin conjugates. Dendritic fields of these cells were isolated by microdissection and gently homogenized. Cell fragments and pre- and postsynaptic membranes were labeled with the ferritin-lectin conjugates at a variety of temperatures, and the distribution of lectin receptors was determined by electron microscopy. Both classes of these lectin receptors were concentrated at nearly all open and partially open postsynaptic junctional membranes of asymmetric-type synapses on all three neuron types. Con A receptors were most concentrated at the junctional membrane region, indicating that the mature neuron has a specialized nonrandom organization of carbohydrates on its outer surface. Lectin receptors located on postsynaptic junctional membranes appeared to be restricted in their mobility compared to similar classes of receptors on extrajunctional membrane regions. Labeling with ferritin-RCA and - Con A at 37 degrees C produced clustering of lectin receptors on nonjunctional surfaces; however, Con A and RCA receptors retained their nonrandom topographic distribution on the postsynaptic junctional surface. The restricted mobility of lectin receptors was an inherent property of the postsynaptic membrane since the presynaptic membrane was absent. It is proposed that structures in the postsynaptic density may be transmembrane-linked to postsynaptic receptors and thereby determine topographic distribution and limit diffusion of specialized synaptic molecules. Speicalized receptor displays may play an important role in the formation and maintenance of specific synaptic contacts.     

The dissociation of the surface architecture described by enhanced lectin agglutinability and the transformed phenotype expressed as anchorage independence.

Using a series of cold-sensitive variants of chemically transformed BHK-21 cells, revertants to the normal phenotype derived from a dimethyl-nitrosamine transformed clone of BHK-21 as well as revertants to the normal phenotype derived from polyoma transformed BHK-21 cells we have demonstrated that the surface phenotype described by enhanced agglutinability with Con A and WGA can be dissociated from the transformed phenotype described by anchorage independence (growth in semisolid medium). Specifically we have demonstrated that the surface characteristic of enhanced agglutinability may be found in a variety of cell lines which fail to display to grow in agar. Our work clearly shows that the two phenotypes described are not concomitantly controlled and tends to suggest that the phenotype of enhanced lectin agglutinability may be dissociated from the transformed phenotype.     

Differential lectin-mediated agglutinabilities of the embryonic and the first extraembryonic cell line of the early chick embryo

Summary The lectin-mediated agglutinability of cells dissociated from different areas of the gastrulating chick embryo was investigated. Differences in agglutinability were quantified by using a Coulter counter. Cells from the area pellucida (AP) and those from the endoderm of the area opaca (AOEn) are agglutinated by Concanavalin A (Con A), wheat germ agglutinin (WGA) andRicinus communis agglutinin (RCA). In cells from both areas the greatest agglutination response is obtained with RCA. Trypsinization of AOEn cells enhances their agglutinability with Con A, WGA and RCA. The lectin-induced agglutinability of cells from the area pellucida is similar in EDTA-dissociated and trypsinized cells.Cells from the AP are significantly more agglutinable with Con A than those of the AOEn regardless whether the former are obtained by trypsinization or dissociation with EDTA. The higher agglutinability of cells of the area pellucida with Con A, as well as the differential enhancement by trypsin of the agglutinability of AOEn cells with Con A, WGA, and RCA may reflect a difference in the cell surface glycoreceptors between the cells of the are pellucida (predominantly embryonic) and the first extraembryonic (AOEn) cell line. These cells have been shown to sort out from each other at the earliest stages of development.     

Wheat germ agglutinin and concanavalin A inhibit the response of human fibroblasts to peptide growth factors by a post-receptor mechanism

The effect of plant lectins on amino acid uptake and DNA synthesis in cultured human skin fibroblasts stimulated by various peptide mitogens was studied. Wheat germ agglutinin (WGA), at a concentration of 5 micrograms/ml, which by itself had little effect on 3H-aminoisobutyric acid (AIB) uptake, markedly inhibited stimulation of 3H-AIB uptake by somatomedin-C, insulin, epidermal growth factor (EGF) and platelet-derived growth factor. This inhibition could not be overcome by increasing the concentration of peptide added. Neither WGA nor concanavalin A (Con A) significantly affected basal 3H-thymidine incorporation. However both lectins, at concentrations of 5-20 micrograms/ml, decreased EGF- and insulin-stimulated DNA synthesis while succinyl Con A, a divalent lectin derivative, did not. The inhibitory effects of lectins on mitogenic stimulation were reversed by alpha-methyl mannose (Con A) or N-acetylglucosamine (WGA), and were not due to a reduction in the binding of growth factors to their receptors. It is concluded that certain lectins noncompetitively inhibit the response of human fibroblasts to multiple peptide mitogens at the post-receptor level, possibly by interfering with lateral mobility and aggregation of mitogen-receptor complexes.     

Differential affinity of pathogenic species of microorganisms for a set of lectins detectable by the sandwich method using fluorescein isothiocyanate (FITC)

The qualitative differences in the affinity of concanavalin A (Con A), wheat-germ agglutinin (WGA) and Phaseolus vulgaris lectin to the surface of 10 microbial strains inducing various diseases in humans and agricultural animals have been demonstrated by means of the indirect immunofluorescence tests. Enterobacteria, Coxiella burnetii and Bacillus anthracis have been found to possess pronounced affinity to Con A and WGA, while Rickettsia prowazekii, Francisella tularensis and Brucella abortus, as well as Treponema pallidum, have proved to be resistant to lectins. WGA has been found to bind specifically to Brucella abortus and Treponema pallidum. Con A and WGA are seemingly suitable for use in the preliminary test for the total capacity of lectin receptors to come in contact with biological macromolecules.     

Differences in agglutinability of adult and fetal human fibroblasts using phytohemagglutinin

Whereas Concanavalin A (Con A) and Wheat Germ Agglutinin (WGA) detect differences in the agglutinability of transformed, established and secondary cultures, Phytohemagglutinin (PHA) detects differences between cultured adult and fetal human fibroblasts. Adult cells agglutinate with PHA to the same extent as transformed cells, whereas fetal cells show significant agglutination only after trypsinization. Differences in cell size, growth rate, surface architecture or binding of fluorescent PHA could not be demonstrated between adult and fetal cells. Although the basis for this apparent difference in agglutinability remains unknown, it is the first demonstration that fetal cells (even after prolonged in vitro culture) retain at least some surface properties not shared by adult or transformed cells.     

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.     

Trypanosoma rhodesiense Bloodstream Trypomastigote and Culture Procyclic Cell Surface Carbohydrates1, 2, 3

Bloodstream trypomastigote and culture procyclic (insect midgut) forms of a cloned T. rhodesiense variant (WRATat 1) were tested for agglutination with the lectins concanavalin A (Con A), phytohemagglutinin P (PP), soybean agglutinin (SBA), fucose binding protein (FBP), wheat germ agglutinin (WGA), and castor bean lectin (RCA). Fluorescence-microscopic localization of lectin binding to both formalin-fixed trypomastigotes and red cells was determined with fluorescein isothiocyanate (FITC)-conjugated Con A, SBA, FBP, WGA, RCA, PNA (peanut agglutinin), DBA (Dolichos bifloris), and UEA (Ulex europaeus) lectins. Electron microscopic localization of lectin binding sites on bloodstream trypomastigotes was accomplished by the Con A-horseradish peroxidase-diaminobenzidine (HRP-DAB) technique, and by a Con A-biotin/avidin-ferritin method. Trypomastigotes, isolated by centrifugation or filtration through DEAE-cellulose or thawed after cryopreservation, were agglutinated by the lectins Con A and PP with agglutination strength scored as Con A < PP. No agglutination was observed in control preparations or with the lectins WGA, FBA or SBA. Red cells were agglutinated by all the lectins tested. Formalin-fixed bloodstream trypomastigotes bound FITC-Con A and FITC-RCA but not FITC-WGA, -SBA, -PNA, -UEA or -DBA lectins. All FITC-labeled lectins bound to red cells. Con A receptors, visualized by Con A-HRP-DAB and Con A-biotin/avidin-ferritin techniques, were distributed uniformly on T. rhodesiense bloodstream forms. No lectin receptors were visualized on control preparations. Culture procyclics lacked a cell surface coat and were agglutinated by Con A and WGA but not RCA, SBA, PP and FBP. Procyclics were not agglutinated by lectins in the presence of competing sugar at 0.25 M. The expression of lectin binding cell surface saccharides of T. rhodesiense WRATat 1 is related to the parasite stage. Sugars resembling α-D-mannose are on the surface of bloodstream trypomastigotes and culture procyclics; n-acetyl-D-galactosamine and D-galactose residues are on bloodstream forms; and n-acetyl-D-glucosamine-like sugars are on procyclic stages.     

Lateral diffusion of lectin receptors in fibroblast membranes as a function of cell shape

Anchorage-dependent fibroblasts respond to biochemical growth signals only when attached to and spread on a suitable substrate surface. Attachment of fibroblasts initiates a cytoskeletal assembly process that results in the organization of long actin stress fibers and microtubules which may be required for transmembrane signal transduction. Fibroblasts maintained in suspension, however, remain spherical with no apparent stress fibers or lengthy microtubules. Because of the significant differences in cytoskeletal organisation induced by shape modification, and the resulting possible changes in organization and dynamics of membrane receptors, the technique of fluorescence redistribution after photobleaching (FRAP) was employed to examine the lateral mobility of wheat germ agglutinin (WGA) and succinylated concanavalin A (sCon A) receptors in the plasma membrane of untransformed and Kirsten murine sarcoma virus-transformed Balb/c 3T3 fibroblasts in the spread and spherical state. An examination of FITC-WGA and FITC-sCon A binding to the plasma membrane for both cell lines in a spread or spherical state demonstrated no significant differences in the number of WGA or Con A receptors as a function of shape or transformation. The primary observations from this study are (a) membrane WGA and sCon A receptors in spherical Balb/c 3T3 fibroblasts display mobility 12 times faster than in the spread state, while phospholipid mobility is similar and apparently shape independent, (b) transformed cells in the spread state have WGA and sCon A receptor mobilities similar to those of untransformed cells in the spread state, (c) flat adherent, but not unattached spherical, Balb/c 3T3 fibroblasts are subject to Con A-induced global modulation and (d) transformed cells in the spherical state contain a significant population of cells (approximately 30%) with WGA receptor mobilities faster than those observed in spherical untransformed cells. These observations are discussed in terms of a linked matrix model for membrane protein diffusion.     

Binding of I-Concanavalin a and agglutination of embryonic neural retina cells : Age-dependent and experimental changes

Embryonic chick neural retina cells dissociated from retina tissue by treatment with EGTA (a calcium chelator) show an age-dependent decline in ability to agglutinate with concanavalin A (ConA). This developmental change in cell surface properties is not due to loss of ConA-binding sites, since mature retina cells can be rendered agglutinable by mild trypsinization. It is also not due to masking of ConA receptors, or to a decrease in their amount, since retina cells from late embryos (19 days) bind four times as much ¹²⁵I-ConA as cells from early embryos (8 days). Our findings lead us to suggest that, as the retina differentiates the lateral mobility of ConA receptors in the cell membrane decreases resulting in a reduction of cell agglutinability; trypsinization of late embryo retina cells increases the mobility of the receptors and thereby facilitates their clustering by the lectin into a configuration conducive to cell agglutination.The ability of late embryo (19 day) retina cells dispersed with EGTA to agglutinate with ConA could be increased by still other treatments: by pre-incubation of the cell suspension in Tyrode's balanced salt solution (1 h, 37 °C); and by brief pre-exposure to glutaraldehyde. These two treatments did not enhance cell agglutination with wheat germ agglutinin (WGA). Glutaraldehyde treatment of trypsinized cells made them agglutinable with ConA also at 4 °C; cells treated otherwise agglutinated only at higher temperature. Surface-saturation of monodispersed retina cells with ConA at 37 °C—but not at 4 °C—prevented their agglutination with this lectin, but not with WGA; this inhibition was reversible by methyl a-D-glucopyranoside (αMG).     

Trypanosoma rhodesiense bloodstream trypomastigote and culture procyclic cell surface carbohydrates

Bloodstream trypomastigote and culture procyclic (insect midgut) forms of a cloned T. rhodesiense variant (WRAT at 1) were tested for agglutination with the lectins concanavalin A (Con A), phytohemagglutinin P (PP), soybean agglutinin (SBA), fucose binding protein (FBP), wheat germ agglutinin (WGA), and castor bean lectin (RCA). Fluorescence-microscopic localization of lectin binding to both formalin-fixed trypomastigotes and red cells was determined with fluorescein isothiocyanate (FITC)-conjugated Con A, SBA, FBP, WGA, RCA, PNA (peanut agglutinin), DBA (Dolichos bifloris), and UEA (Ulex europaeus) lectins. Electron microscopic localization of lectin binding sites on bloodstream trypomastigotes was accomplished by the Con A-horseradish peroxidase-diamino-benzidine (HRP-DAB) technique, and by a Con A-biotin/avidin-ferritin method. Trypomastigotes, isolated by centrifugation or filtration through DEAE-cellulose or thawed after cryopreservation, were agglutinated by the lectins Con A and PP with agglutination strength scored as Con A greater than PP. No agglutination was observed in control preparations or with the lectins WGA, FBA or SBA. Red cells were agglutinated by all the lectins tested. Formalin-fixed bloodstream trypomastigotes bound FITC-Con A and FITC-RCA but not FITC-WAG, -SBA, -PNA, -UEA or -DBA lectins. All FITC-labeled lectins bound to red cells. Con A receptors, visualized by Con A-HRP-DAB and Con A-biotin/avidin-ferritin techniques, were distributed uniformly on T. rhodesiense bloodstream forms. No lectin receptors were visualized on control preparations. Culture procyclics lacked a cell surface coat and were agglutinated by Con A and WGA but not RCA, SBA, PP and FBP. Procyclics were not agglutinated by lectins in the presence of competing sugar at 0.25 M.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cross-linking of membrane glycoconjugates is not a sufficient condition for neural induction by concanavalin A

Tetravalent native concanavalin A (Con A) has a neural inducing effect on amphibian presumptive ectoderm. The divalent dimeric form of this lectin, succinylated Con A (Succ-Con A), is devoid of neuralizing action on this target tissue in Pleurodeles waltlii. These results suggested that cross-linking of Con A receptors on the cell membrane (which is not provoked by the divalent lectin) might be required for neural induction. To test this possibility, Succ-Con A binding sites were experimentally cross-linked after binding of Succ-Con A to the target cell surface, using anti-Con A antibodies. The combination of these two agents mimics the cross-linking of Con A. The results showed that cross-linking alone, either by treatment with Succ-Con A and anti-Con A antibodies, or with the lectins WGA and PHA, which also cross-link cell surface binding sites, was not able to induce neuralization. This suggested that the inductive action of Con A cannot be explained in terms of receptor cross-linking.     

Quantification of lectin receptors on B, T, T-gamma and T-mu lymphocytes. I. Concanavalin A, Pisum sativum, Lens culinaris and wheat-germ agglutinin

The immune system is formed of different lymphocyte subpopulations, each one having a defined role to defend the organism. Their plasma membranes present differences in the glycoproteinic or/and glycolipidic composition, as detected with labelled 125I-lectins. B lymphocytes have a greater number of receptors for the Pisum sativum, Lens culinaris and WGA lectins than T lymphocytes. On the other hand, T lymphocytes bind a greater number of Concanavalin A molecules than B lymphocytes. WGA lectin appeared to be more specific for T mu subpopulation, while Con A and Pisum sativum lectins were bound preferentially to T gamma lymphocytes while no significant differences were observed between both subpopulations for Lens culinaris lectin. From the affinity of each lectin to each lymphocyte population it could be deduced that the receptor structure, conformation and arrangement on the membrane was optimal in B lymphocytes for Con A and WGA binding, and T lymphocytes for Lens culinaris and Pisum sativum binding.     

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).     

Distribution and mobility of concanavalin a receptors on isolated guinea pig epidermal cells at various stages of differentiation

Trypsinized guinea pig epidermal cells were separated by velocity sedimentation at unit gravity. Based on the relationship between cell size and both morphological and functional aspects of differentiation, the cells were classified as lower (a diameter <12.5 μM), middle (a diameter between 12.5 and 15 μM), and upper (a diameter >15 μM) epidermal cells. Fresh cells exposed to rhodaminated concanavalin A (Con A) were sedimented and reacted with fluoresceinated anti-Con A serum to distinguish cell surface Con A from intracellular lectin. Labeling at 4°C resulted in a uniform surface distribution of Con A irrespective of cell size. After a 1-hr incubation of Con A-labeled cells in lectin-free medium at 37°C, lower epidermal cells and approximately half of middle epidermal cells internalized Con A/receptor complexes by endocytosis while lectin remained diffusely on the remainder of middle epidermal cells and upper epidermal cells. By electron microscopy, ferritin-Con A was clustered on surface areas and invaginations of the plasma membrane before being endocytosed. We concluded that the differentiation of epidermal cells was accompanied by progressive decrease in endocytosis and, most probably, mobility of Con A receptors.     

An analysis of concanavalin A-mediated agglutination in two Chinese hamster ovary subclones whose surface phenotypes respond to maintenance in medium supplemented with dibutyryl cyclic AMP. V. Biochemical composition of the plasma membrane.

We have used two Chinese hamster ovary subclones whose surface phenotype has been extensively investigated with regard concanavalin A-mediated cell-cell agglutination and concanavalin A-induced receptor site clustering to investigate what changes in membrane composition, if any, can be correlated with the concanavalin A-detected changes in surface phenotype. These cell clones are uniquely disposed for this purpose since maintenance of the cells under different growth conditions produces changes in agglutinability and receptor site mobility in one cell clone (H-7W) but not the other (K-1). After extensive characterization of the surface membranes of these two subclones we have been unable to identify any change in the membrane peptides, glycopeptide, cholesterol, or fatty acid composition which can be directly correlated with the concanavalin A-detected surface phenotypes. It is of particular interest to note that we have been unable to correlate the presence or absence of the large external transformation-sensitive glycoprotein with the relative mobility of the lectin receptors or with the degree of concanavalin A-mediated cell agglutination. Furthermore we have been unable, in this system, to corroborate earlier data suggesting a role for cholesterol in determining the relative mobility of the lectin receptors. Thus using a cell system consisting of genetically matched cell clones, we have been unable to identify any changes in the biochemical composition of the plasma membrane which might be associated with the surface phenotypes detected by concanavalin A.     

Effects of plant lectins on the adhesive properties of baby hamster kidney cells

We studied the effects of different lectins on the adhesive properties of baby hamster kidney (BHK) cells. The purpose of these studies was to learn more about the cell surface receptors involved in cell adhesion. Three adhesive phenomena were analyzed: 1) the adhesion of BHK cells to lectin-coated substrata; 2) the effects of lectins on the adhesion of cells to substrata coated by plasma fibronectin (pFN); and 3) the effects of lectins on the binding of pFN-coated beads to cells. Initial experiments with fluorescein-conjugated lectins indicated that concanavalin A (Con A), ricinus communis agglutinin I (RCA I), and wheat germ agglutinin (WGA) bound to BHK cells but peanut agglutinin (PNA), soybean agglutinin (SBA), and ulex europaeus agglutinin I (UEA I) dod not bind. All three of the lectins which bound to the cells promoted cell spreading on lectin substrata, and the morphology of the spread cells was similar to that observed with cells spread on pFN substrata. Protease treatment of the cells, however, was found to inhibit cell spreading on pFN substrata or WGA substrata more than on Con A substrata or RCA I substrata. In the experiment of cells with Con A or WGA inhibited cell spreading on pFN substrata, but RCA I treatment had no effect. Finally, treatment of cells with WGA inhibited binding to cells of pFN beads, but neither Con A nor RCA I affected this interaction. These results indicate that the lectins modify cellular adhesion in different ways, probably by interacting with different surface receptors. The possibility that the pFN receptor is a WGA receptor is discussed.