Regulation of insulin receptor kinase activity by insulin mimickers and an insulin antagonist

Three agents which mimic insulin action in intact cells (concanavalin A, wheat germ agglutinin, and polyclonal insulin receptor antibody), mimicked insulin's ability to stimulate the kinase activity of purified insulin receptors. In contrast, monoclonal insulin receptor antibody, an antagonist of insulin action, did not stimulate the phosphorylation of the insulin receptor either in intact IM-9 cells or in purified receptor preparations. This antibody, however, antagonized the ability of insulin to stimulate the phosphorylation of the receptor both in intact cells and in the purified receptor. These studies with insulin mimickers and an insulin antagonist are consistent with a role for the kinase activity of the receptor mediating the actions of insulin.     

Similarities in the membrane fluidity of 3T3 and SV101-3T3 cells and its relation to concanavalin A- and wheat germ agglutinin-induced agglutination.

Intact, viable ultransformed 3T3 and transformed SV101-3T3 cells were labeled with fatty acid spin labels and with 2,2,6,6-tetramethylpiperidine-1-oxyl in order to measure the fluidity properties of membrane lipids. Both cell types were grown in regular calf serum and in a lipid-depleted serum supplemented with either oleate or elaidate. The temperature dependence of the spectra obtained revealed inflections that correlate with the temperature below which agglutination with concanavalin A is inhibited, and another inflection that correlates with the temperature below which agglutination with wheat germ agglutinin is inhibited, suggesting that (a) the lipid phase(s) in the vicinity of the receptor(s) for these two lectins differ, and (b) a fluid membrane in the vicinity of the lectin receptor(s) is necessary for agglutination with either concanavalin A or wheat germ agglutinin. Studies with a partially characterized plasma membrane fraction suggest that the plasma membrane fluidity parameters closely resemble those of the intact cell. 3T3 and SV101-3T3 cells show virtually identical fluidity profiles by all of the tests we have applied.     

Lectin binding to the porcine and human ileal receptor of intrinsic factor-cobalamin

The purified porcine recpptor for the intrinsic factor-cobalamin complex bound to concanavalin A, lentil lectin and wheat germ lectin covalently coupled to Sepharose and was eluted with the corresponding soluble sugars. In contrast, human intrinsic factor bound efficiently to concanavalin A, to some extent to lentil lectin, but only slightly to wheat germ agglutinin. The binding of IF-Cbl to the receptor was inhibited when the receptor was pre-incubated with soluble wheat germ aglutinin, with an inhibition constant estimated to be 1.9 mol/l. After transfer of the purified receptor from SDS-PAGE to Immobilon, ligand blotting of the purified receptor with iodinated lectin showed that concanavalin A and lentil lectin bound to three (75, 56 and 43 kDa) components but that wheat germ agglutinin bound only to the 75 kDa component. These results showed that the subunit of the receptor could bind to wheat germ agglutinin, resulting in an inhibition of its binding with intrinsic factor. Both binding sites of intrinsic factor and of wheat germ agglutinin could be located near to each other.     

Stimulation of the membrane-bound, magnesium-dependent adenosine triphosphatase of mouse neuroblastoma by concanavalin A and wheat germ agglutinin.

The effect of the plant lectins concanavalin A and wheat germ agglutinin on the membrane-bound Mg⁺²-dependent ATPase of an adrenergic clone of mouse neuroblastoma was examines. When cell membranes were treated with concanavalin A or wheat germ agglutinin, a dose-related increase in ATPase-specific activity was observed. Maximal stimulation was greater with wheat germ agglutinin than with concanavalin A; half-maximal and maximal stimulation occurred at similar lectin concentrations. Concanavalin A-dependent stimulation was blocked by α-methylmannoside but not by N-acetylglucosammine. Conversely, stimulation with wheat germ agglutinin was prevented by N-acetylglucosamine but not by α-methylmannoside. The combined effects of concanavalin A and wheat germ agglutinin were greater than the individual effects of either, but were not additive. The results suggest that these lectins interact specifically with membrane glycoproteins or glycolipids, resulting in enhancement of Mg⁺²-dependent ATPase activity.     

Regulation of surfactant phospholipid secretion from isolated rat alveolar type II cells by lectins

The major surfactant-associated protein is a potent inhibitor of surfactant phospholipid secretion from isolated type II cells. Since the major surfactant-associated protein contains a carboxy terminal polypeptide domain which is homologous to the lectin-like liver mannose-binding protein, we tested whether lectins inhibit surfactant phospholipid secretion from rat alveolar type II cells. Concanavalin A, wheat germ agglutinin and Maclura pomifera agglutinin were potent inhibitors of surfactant phospholipid secretion. When adenosine 5'-triphosphate (ATP) was utilized as a secretagogue, the IC50 values for inhibition of surfactant phospholipid secretion were 5.10(-7) (wheat germ agglutinin), 1.10(-6) (concanavalin A) and 2.5.10(-5) M (M. pomifera agglutinin). Similar results were obtained when 12-O-tetradecanoylphorbol 13-acetate was utilized as a secretagogue: IC50 values of 1.10(-6) M for concanavalin A and wheat germ agglutinin and 2.5.10(-5) M for M. pomifera agglutinin. Hapten sugars were utilized to antagonize the inhibitory effect of the lectins. N-Acetyl-D-glucosamine significantly reversed inhibition of phospholipid secretion by wheat germ agglutinin in a dose-dependent fashion and methyl alpha-D-mannoside significantly reversed inhibition of phospholipid secretion by concanavalin A. N-Acetyl-D-galactosamine had no significant effect on inhibition of secretion produced by any of the lectins. The inhibitory effect of the lectins did not appear to be due to cytotoxicity since lactate dehydrogenase was not released above control levels and the inhibition of the surfactant phospholipid secretion by wheat germ agglutinin could be reversed after treatment of cells with wheat germ agglutinin by washing the lectin from the cells followed by treatment of the cells with ATP. These studies demonstrate a direct inhibitory effect of plant lectins on phospholipid secretion from type II cells in vitro.     

Double label freeze-etch study of the relative topography of concanavalin A and wheat germ agglutinin receptors at the myoblast surface

This report records for the first time double-label freeze-etch electron microscopy of cells in culture. On L6 rat myoblasts, receptors for wheat germ agglutinin and concanavalin A were found distributed together in irregular granular microclusters of cell surface material up to 60 nm in diameter. Simultaneous localization of two different receptor families to such small regions using colloidal gold and ferritin to differentiate between lectin markers proved difficult in our hands. We were able to achieve the desired result using native concanavalin A and ferritin-conjugated wheat germ agglutinin, whose shadowed diameters are measurably different.     

Inhibition of fibronectin receptor function by antibodies against baby hamster kidney cell wheat germ agglutinin receptors

Previous studies suggest that the baby hamster kidney (BHK) cell fibronectin receptor is also a wheat germ agglutinin receptor (WGA-R). To analyze this possibility further, IgG and Fab fragments of antibodies produced against a BHK cell WGA-R preparation were tested to determine their effects on cell adhesion mediated by fibronectin, wheat germ agglutinin, concanavalin A, and polycationic ferritin. The WGA-R preparation was isolated by octylglucoside extraction of BHK cells followed by chromatography of the extract on WGA-agarose. The antibodies against the WGA-R preparation reacted primarily with polypeptides of molecular weights 48, 61, 83, 105, 120, 165, 210, and 230 kilodaltons (kdaltons). It was concluded that the antibodies interfered with BHK cell fibronectin receptors on the basis of the ability of anti-WGA-R IgG or Fab fragments to (a) inhibit cell spreading on fibronectin-coated substrata; (b) cause rounding and detachment of cells previously spread on fibronectin-coated substrata; and (c) inhibit binding of fibronectin-coated latex beads to the cells. Antibody activity was blocked by treatment of anti-WGA-R with the WGA-R preparation or by absorption of anti-WGA-R with intact BHK cells. The antibodies also appeared to prevent coupling of ligand-receptor complexes (involving concanavalin A or polycationic ferritin) with the cytoskeleton. Finally, cell rounding and detachment caused by the antibodies were found to require metabolic energy since it did not occur in the presence of azide or at 4 degrees C.     

Effects of wheat germ agglutinin and concanavalin A on parameters of highly purified sodium-potassium adenosine triphosphatases from Squalus acanthias and Electrophorus electricus.

The effects of two lectins, wheat germ agglutinin and concanavalin A, were studied on a variety of parameters of two highly purified (Na+ + K+)-ATPases (ATP phosphohydrolase, EC 3.6.1.3), from the rectal salt gland of Squalus acanthias and from the electroplax of Electrophorus electricus. Both lectins agglutinated the rectal gland enzyme equally, but wheat germ agglutinin inhibited (Na+ + K+)-ATPase activity much more. The electroplax enzyme was only marginally agglutinated and inhibited by the lectins. Neuraminidase treatment of the rectal gland (Na+ + K+)-ATPase had no effect on germ agglutinin inhibition. The inhibition of the rectal gland (Na+ + K+)-ATPase by wheat germ agglutinin could be reversed by N,N'-diacetylchitobiose, which has a high affinity for wheat germ agglutinin. Neither ouabain inhibition nor ouabain binding to the rectal gland enzyme was affected by wheat germ agglutinin. The p-nitrophenylphosphatase activity of the rectal gland enzyme was not inhibited by wheat germ agglutinin. Na+-ATPase activity, which reflects ATP binding and phosphorylation at the substrate site was inhibited by wheat germ agglutinin and this inhibition was reversed by potassium. Evidence is cited (Pennington, J. and Hokin, L.E., in preparation) that the inhibition of the (Na+ + K+)-ATPase by wheat germ agglutinin is due to binding to the glycoprotein subunit.     

Interactions of lectins with plasma membrane glycoproteins of the Ehrlich ascites carcinoma cell.

Several aspects of the interaction of various lectins with the surface of Ehrlich ascites carcinoma cells are described. The order of agglutinating activity for various lectins is Ricinus communis greater than wheat germ greater than or equal to concanavalin A greater than or equal to soybean greater than Limulus polyphemus. No agglutination was noted for Ulex europaeus. Using 125I-labeled lectins it was determined that there are 1.6 and 7 times as many Ricinus communis lectin binding sites for concanavalin A and soybean lectins. Sodium deoxycholate-solubilized plasma membrane material was subjected to lectin affinity chromatography and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The lectin receptors of the plasma membrane appeared to be heterogeneous and some qualitative differences could be discerned among the electrophoretically analyzed material, which bound to and was specifically eluted from the various lectin affinity columns. The characteristics of elution of bound material from individual lectin columns indicated secondary hydrophobic interactions between concanavalin A or wheat germ agglutinin and their respective lectin receptor molecules.     

Changes in surface architecture during murine erythroleukemia cell differentiation as detected by lectin binding and agglutination

Cell surface alterations occurred during murine erythroleukemia cell (clone 745) differentiation that were detected by both agglutination and lectin binding. Agglutination of erythroleukemia cells was produced by wheat germ agglutinin; whereas, concanavalin A, Ricin, soybean agglutinin and fucose-binding protein were either ineffective or much less efficacious. Treatment of leukemia cells with the inducer of erythroid differentiation dimethylsulfoxide (DMSO) caused a progressive accumulation of hemoglobin-containing cells in culture and a decrease in the rate of agglutination by wheat germ agglutinin, which began at 24 h after exposure to the polar solvent, reached a nadir at 48 h, and remained essentially constant thereafter. The binding of radioactive wheat germ agglutinin by untreated control erythroleukemia cells increased with time in culture, reaching a maximum value at 48 h, and decreased progressively thereafter. Although an increase in ³H-labeled wheat germ agglutinin binding also occurred in DMSO-treated cells, the level bound was significantly lower than that observed in control cells at 24–96 h. The treatment of erythroleukemia cells with various concentrations of DMSO resulted in a decrease in the number of wheat germ agglutinin receptor sites. Other inducers of differentiation (i.e., dimethylformamide, bis(acetyl)diaminopentane) also inhibited the rate of wheat germ agglutinin-induced agglutination of erythroleukemia cells while, in contrast, the inducer tetramethylurea did not. These studies indicate that membrane changes occur during differentiation and suggest that there may be more than one mechanism involved in the initiation of maturation which ultimately leads to the common pathway of erythroid development.     

Glycoprotein characteristics of the sodium channel saxitoxin-binding component from mammalian sarcolemma

The saxitoxin-binding component of the excitable membrane sodium channel exhibits glycoprotein characteristics as evidenced by its specific interaction with various agarose-immobilized lectins. The detergent-solubilized saxitoxin-binding component interacts quantitatively with immobilized wheat germ agglutinin and concanavalin A and fractionally with immobilized Lens culinaris hemagglutinin and Ricinus communis agglutinin. These lectins preferentially bind $\text{N-}\text{acetylglucosamine}$ and sialic acid (wheat germ agglutinin), mannose (concanavalin A and Lens cunilaris and galactose (Ricinus communis). Removal of terminal sialic acid residues by neuraminidase markedly decreases binding to immobilized wheat germ agglutinin but uncovers sites capable of interacting with lectins specific for galactose and $\text{N-}\text{acetylgalactosamine}$. $\text{β-N-}\text{acetylglucosaminidase}$, an exoglycosidase has no effect on the binding of the channel protein to wheat germ agglutinin. Similarly, phospholipase C has no effect on binding of the solubilized toxin binding component to this lectin. Neither wheat germ agglutinin nor concanavalin A free in solution alters the number of toxin binding sites or their affinity for toxin. The sodium channel saxitoxin-binding component appears to be a glycoprotein containing terminal sialic acid residues and internal mannose, galactose, $\text{N-}\text{acetylglucosamine}$, and $\text{N-}\text{acetylgalactosamine}$ residues. The toxin binding site is spatially separated from the binding sites for the lectins studied. The effect of these sugar moieties must be considered when evaluating the biophysical parameters of the sodium channel.     

The cortical actomyosin system of cytochalasin D-treated lymphoblasts

Global cytoskeleton dynamics is likely to exist in animal cells and some experimental evidence for this has recently been obtained in cells from the human lymphoblastic cell line KE37. We have further investigated the dramatic and reversible microtubule-dependent cell elongation which occurs upon treatment of KE37 cells with cytochalasin D. This phenomenon results in a non-locomotory cell with definite polarity. It involves a sustained equatorial myosin II-dependent contraction of cortical, most of the myosin II being accumulated on segments of the main cellular extension. We report here that such a cell lengthening is energy-dependent and can be inhibited, or suppressed, by surface ligands such as wheat germ agglutinin but not by concanavalin A. Suppression of the cytochalasin D effect by wheat germ agglutinin is rapid and appears to be collapse of the cell extension and relocalization of the contracted actomyosin as a whole. It suggests that the binding of the wheat germ agglutinin to the cell surface results in the transient disassembly of microtubules, a possibility also raised by the potent antagonist effect of taxol on wheat germ agglutinin action. Taken together, the data are consistent with a specific role of microtubules in the control of the activity of the cortical actomyosin system.     

Purification and characterization of plasma membrane fractions from cultured pituitary cells

Highly purified plasma membrane fractions have been prepared from GH₃ pituitary cells grown in suspension cultures. These membrane fractions have been obtained by differential and sucrose gradient centrifugation and were characterized in terms of their lipid content, marker enzyme analysis and the binding of ³H-labelled thyrotropin-releasing hormone (TRH) to its receptor. Alkaline phosphatase and 5′-nucleotidase activities were enriched 12- to 15-fold in the plasma membrane fraction with somewhat greater enrichment (28-fold) of the specific binding component for [³H]TRH, with a specific activity of 2286 fmol [³H]TRH bound per mg protein. A single class of binding sites for TRH was observed with an apparent dissociation constant of 18 nM, a value similar to that observed for intact cells. No detectable TRH binding to the nuclear fraction was observed that could not be ascribed to residual plasma membrane contamination. By electron microscopy, these fragments appeared to be sealed vesicles with an average diameter of approximately 1800 Å. The binding of ¹²⁵I-labelled wheat germ agglutinin was used as a marker for plasma membrane purification. In addition to specific binding to this membrane fraction, specific binding was also observed in the nuclear fraction. Studies with fluorescein-labelled wheat germ agglutinin revealed that, in fixed cells, fluorescence was restricted to the plasma membrane. However, if the cells were treated with Triton before labelling, most of the fluorescence was then associated with the cell nucleus. Hence, the use of wheat germ agglutinin binding as a specific plasma membrane marker must be reevaluated.     

Changes in the binding of concanavalin A and wheat germ agglutinin to human lymphocytes during in vitro transformation

Concanavalin A binds to human circulating lymphocytes in a complex manner suggesting the presence of multiple binding sites. Saturation of one or more of these binding sites is observed at concentrations of concanavalin A which induce blast transformation in lymphocytes. In contrast, only one saturable binding site is observed for wheat germ agglutinin. During $\text{in vitro}$ transformation, the amount of concanavalin A which can be bound by lymphocytes increases, whereas the amount of wheat germ agglutinin which can be bound remains unchanged. Since the size increases during transformation, there must be a fall in the density of surface receptors for wheat germ agglutinin whereas the density of concanavalin A receptors remains unchanged.     

Studies on lectin-induced agglutination of Drosophila embryonic cell lines

The agglutination responses of three Drosophila cell lines to concanavalin A and wheat germ agglutinin have been examined. Although the cell lines were originally derived from late embryonic stages of the Ore-R strain of Drosophila melanogaster, they show quantitative differences in lectin-induced agglutination. Line 1 cells were least agglutinable with both lectins. All three cell lines reached maximum agglutination with concanavalin A concentrations at 25 μg/ml, but the agglutination response to wheat germ agglutinin was biphasic such that an initial rapid increase in agglutination with concentrations up to 25 μg/ml was followed by slower agglutination above this concentration. Cells of lines 1 and 2 from ten-day old cultures exhibited greater lectin-induced agglutination than cells from three-day old cultures. Age-dependent differences were not found for line 3 cells which gave maximum agglutination responses in both young and old cultures. Cell agglutination by concanavalin A was almost completely inhibited by pretreatment of the lectin with methyl-α-d-mannopyranoside, but preincubation of wheat germ agglutinin with N-acetyl-d-glucosamine caused only partial blockage. Lectin-induced agglutination was not reversible by treatment with the monosaccharide inhibitors. These observations have been discussed with reference to the origin of the three cell lines and their cell surface properties.     

Characterization of the Carbohydrate Chain on the Substance P Receptor in the Rat Brain Cortex: Effect of Lectins on [3H]Substance P Binding

The characteristics of the carbohydrate chain on the rat cerebral cortical substance P (SP) receptor were studied. We examined the effects of pretreatment with three lectins (concanavalin A, wheat germ agglutinin, lens culinaris agglutinin) on the [3H]SP binding activities. Each lectin can bind to the specific carbohydrate chain. Among these lectins, only concanavalin A inhibited specific [3H]SP binding by reducing the affinity of the binding sites. The inhibitory action of concanavalin A was dose-dependent and diminished by the addition of alpha-methyl-D-mannoside. The present results suggest that the rat cortical SP receptor has either a biantennary complex-type or a high mannose-type of carbohydrate chain, and that the carbohydrate chain is implicated in the SP binding activity of the SP receptor system.     

Wheat germ agglutinin inhibits basal- and stimulated-adenylate cyclase activity as well as the binding of [3H] caerulein to rat pancreatic plasma membranes

Wheat germ agglutinin, but not concanavalin A or soybean lectin, inhibited the basal-and stimulated-adenylate cyclase activity which was present in a plasma membrane preparation from the rat pancreas. The inhibition by wheat germ agglutinin was rapid and sustained. It was of the non-competitive type and never exceeded 20% for Gpp (NH) p- and NaF-stimulated adenylate cyclase activity. The inhibition of secretin-stimulated activity was also non-competitive but more pronounced (57% inhibition at a wheat germ agglutinin concentration of 20 microgram/ml). For the C-terminal octapeptide of cholecystokinin-pancreozymin (OC-PZ)-stimulated cyclase, the inhibition amounted to 68% and was of a mixed type (both competitive and non-competitive). This last observation might be explained by the competitive inhibition exerted by wheat germ agglutinin on the binding of peptides of the OC-PZ family to their membrane specific receptors. The various inhibitory effects of wheat germ agglutinin were completely suppressed by incubating the membranes in the presence of ovomucoid, a N-acetyl-D-glucosamine rich glycoprotein. The possible functional implication of these results is discussed.     

Somatomedin-C stimulates the phosphorylation of the beta-subunit of its own receptor

Phosphorylation of the somatomedin-C receptor was investigated both in intact IM-9 cells and in IM-9 cells that had been solubilized with Triton X-100. Intact IM-9 cells were incubated with [32P]H3PO4 for 1 h and for an additional 5 min in the absence or presence of insulin or somatomedin-C. The cells were then solubilized and subjected to wheat germ agglutinin Sepharose chromatography. The extent of phosphorylation of insulin and somatomedin-C receptors was assessed by immunoprecipitating the wheat germ agglutinin Sepharose eluates with monoclonal antibodies specific for each receptor and analyzing the immunoprecipitates by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The beta-subunits of both receptors were phosphorylated in the absence of hormone, and the extent of phosphorylation of each receptor was enhanced by both hormones. However, each hormone was more potent than the other in enhancing phosphorylation of its own receptor. The beta-subunit of the somatomedin-C receptor was also phosphorylated when solubilized IM-9 cells that had been purified on wheat germ agglutinin Sepharose were incubated with [gamma-32P]ATP. In this soluble preparation, phosphorylation occurred on tyrosyl residues and was enhanced by concentrations of somatomedin-C in the range of 2.5 to 250 ng/ml, which is consistent with its receptor affinity. Tyrosyl phosphorylation of the somatomedin-C receptor also occurred when highly purified receptor, prepared by wheat germ agglutinin Sepharose affinity chromatography followed by immunoprecipitation, was incubated with [gamma-32P]ATP. This indicates that the responsible tyrosyl kinase activity is intrinsic to the receptor or tightly associated with it.     

Lectin binding in Cryptomonas and Chroomonas (Cryptophyceae)

The cell envelopes of Cryptomonas and Chroomonas exhibited significant fluorescence using FITC-labelled concanavalin A and wheat germ agglutinin when the cells were fixed prior to lectin binding. The periplast became intensely labelled in Chroomonas whereas Cryptomonas showed fluorescing granula in its gullet/furrow region and on the cell surface. Lectin labelling followed by fixation showed only label of periplast remnants of lysed cells and of the flagella of Chroomonas. Isolated periplasts of Cryptomonas and Chroomonas were intensively labelled with both concanavalin A and wheat germ agglutinin. Glycostaining of gels, onto which total cell protein extracts were loaded, showed a glycoprotein of high molecular weight for Cryptomonas and Chroomonas and an additional glycoprotein for Cryptomonas species.