Studies on the role of goat heart galectin-1 as a tool for detecting post-malignant changes in glycosylation pattern

Galectins are mammalian lectins established to play a crucial role in the progression of various cancer types by the virtue of their differential expression in normal and cancerous cells. In the present study, goat heart galectin-1 (GHG-1) was purified and investigated for its potential role in the detection of post-malignant changes in glycosylation pattern. When exposed to superoxide radicals generated from a pyrogallol auto-oxidation system, GHG-1 treated erythrocyte suspension released higher amount of oxyhemoglobin than the unagglutinated erythrocytes. The extent of erythrocyte hemolysis was found to be directly proportional to concentrations of hypochlorous acid. GHG-1 was used to detect the change in the β-galactoside expression pattern in erythrocyte membrane from human donors suffering from prostate and breast cancer. No significant change was observed in the hemolysis of lectin agglutinated erythrocytes collected from pre-operated breast cancer patients, whereas significant increase was observed in normal healthy control and post-operated samples. Findings of this study proclaim GHG-1 as an important tool for the detection of post-malignant changes in glycosylation pattern.Abbreviations: Gal-1, galectin-1; GHG-1, goat heart galectin-1; HOCl, hypochlorous acid; OxyHb, oxyhemoglobin     

Anti-human erythrocyte antibodies in horse-derived antivenoms used in the treatment of snakebite envenomations

This work examined the presence of antibodies reacting with human erythrocytes in horse-derived antivenoms used in the treatment of snakebite envenomations, and assessed the efficacy of various fractionation protocols in the elimination of agglutinating antibodies. A number of antivenoms produced by various fractionation protocols were tested for direct agglutination of human erythrocytes. Reactions were observed visually and microscopically, and an indirect anti-equine globulin test was also used. In addition, rabbits and mice were injected intravenously with antivenoms to observe possible intravascular hemolysis and erythrocyte sequestration. All tested antivenoms agglutinated human erythrocytes, albeit to different extent, and also gave a positive anti-globulin test. Agglutination was due to IgG(T) subclass of antibodies. Pepsin digestion of horse IgG, to obtain F(ab′)₂ fragments, reduced the direct agglutination, but not the indirect anti-globulin test. Ion-exchange chromatography of IgG in a strongly basic quaternary ammonium cellulose membrane abrogated direct agglutination and reduced the indirect anti-globulin test. Binding of antivenom antibodies to erythrocytes in vivo was demonstrated in rabbits, although there was no evidence of intravascular hemolysis or erythrocyte sequestration in rabbits and mice. It is concluded that anti-human erythrocyte antibodies are present in horse-derived antivenoms, and that fractionation of horse plasma by pepsin digestion, and especially by anion-exchange chromatography, reduces the titer of these antibodies. Our in vivo experimental results do not support a role for these antibodies in early adverse reactions occurring after antivenom administration.     

Properties of enucleated cells. III. Changes in cytoplasmic architecture of enucleated BHK21 cells following trypsinization and replating.

At low concentrations of concanavalin A (conA), binding of the lectin to the erythrocytes appears to be the rate-limiting step in the agglutination of these cells. At higher concentrations of lectin the rate of agglutination is concentration-independent, indicating that the aggregation reaction is rate-determining. Only 5 to 7% of the 1.2 × 10⁵ receptor sites need be occupied by con A in order for agglutination to take place. Although trypsin-treated cells bind 30% less ¹²⁵I-conA, they agglutinate better than untreated cells. At high lectin concentrations, erythrocyte agglutination by wheat germ agglutinin (WGA) is more than 8 times faster than the conA-mediated reaction. Lowering of the temperature to 0 °C reduces the rate but not the extent of the agglutination by both lectins. Mechanical shear reduced the conA-mediated agglutination of native cells by more than 160-fold and that of trypsinized and neuraminidase-treated cells 6-fold and 4-fold, respectively.It is concluded that metabolic activity, receptor mobility (i.e. cluster or patch formation) and cytochalasin B-sensitive processes, all of which have been reported to be involved in the lectin-mediated agglutination of fibroblasts and other cells, do not play a role in erythrocyte agglutination. Lectin-mediated erythrocyte agglutination appears to be governed primarily by the rate and extent of binding of lectin to the cell surface, the cell surface charge (modifiable by enzyme treatments or polycations) and the shear forces in the suspension. Morphological studies confirm and amplify these conclusions.     

Effect of exogenous antioxidants on erythrocyte redox status and hepcidin content in disorders of iron metabolism regulation

In many diseases associated with impairments in iron metabolism, erythrocytes exhibit an increased sensitivity to oxidative stress induced in vitro. In this study we have examined the antioxidant status of erythrocytes from healthy donors and from 12 patients with disorders of iron homeostasis by measuring the extent of hemolysis induced in vitro by tert-butyl hydroperoxide (t-BHP). The extent of hemolysis observed with patient erythrocytes was significantly higher than that observed in experiments with erythrocytes from healthy donors. After therapeutic infusions of the antioxidants mexidol or emoxypin, oxidative hemolysis in patients was restored to normal values and blood hepcidin increased significantly as compared with its initial level. A significant correlation was observed between hepcidin concentration after treatment and t-BHP-induced hemolysis before treatment. These data suggest that antioxidants may exert a favorable effect on those at risk for iron overload disease.     

Membrane perturbations induced by the interactions of zinc ions with band 3 in human erythrocytes

Of group 12 metals, zinc is an essential element to maintain our life, but other metals such as cadmium and mercury are toxic in cellular activities. Interactions of these metals with biomembranes are important to understand their effects on our living cells. Here, we describe the membrane perturbations induced by these metals in human erythrocytes. Of these metals, Zn²⁺ ions only induced the erythrocyte agglutination. Histidine residues in extracellular domains of band 3 participated in Zn²⁺-induced agglutination. Interestingly, it was found that band 3-cytoskeleton interactions play an important role in Zn²⁺-induced agglutination. In contrast with Hg²⁺ and Cd²⁺ ions, Zn²⁺ ions greatly suppressed pressure-induced hemolysis by cell agglutination. Such a suppression was removed upon dissociation of agglutinated erythrocytes by washing, indicating the reversible interactions of Zn²⁺ ions with erythrocyte membranes. Excimer fluorescence of pyrene indicated that spectrin is denatured by a pressure of 200 MPa irrespective of hemolysis suppression. Taken together, these results suggest that the agglutination of erythrocytes due to the interactions of Zn²⁺ ions with band 3 is stable under pressure, but spectrin, cytoskeletal protein, is denatured by pressure     

Glutaraldehyde fixation and the mechanism of erythrocyte agglutination by concanavalin a and soybean agglutinin

To evaluate the importance of lectin receptor mobility and clustering for enhanced cell agglutinability, the effect of glutaraldehyde fixation on the agglutinability of human erythrocytes by concanavalin A and soybean agglutinin was investigated. Agglutinability was evaluated in unperturbed Microtiter^® plates. Fixation increased slightly the agglutinability of the erythrocytes by both lectins. Fixation did not alter trypsin-enhanced agglutinability. Furthermore, when fixed erythrocytes were trypsinized, their agglutinability increased to the level of unfixed, trypsinized erythrocytes.The kinetics of agglutination of fixed and unfixed erythrocytes were monitored in an electronic particle counter. The shear forces associated with the kinetic experiments diminished fixed-cell to fixed-cell agglutination, i.e., both lectins gave slower kinetics of agglutination with fixed erythrocytes than with unfixed erythrocytes. In contrast, the kinetics of concanavalin A-mediated agglutination of trypsinized-fixed erythrocytes mixed with equal numbers of trypsinized-unfixed erythrocytes were indistinguishable from the rapid kinetics of agglutination of trypsinizedunfixed erythrocytes alone. Light microscopy revealed aggregates composed of fixed and unfixed erythrocytes.We conclude that glutaraldehyde fixation does not diminish the agglutinability of human erythrocytes under low-shear conditions. Our results indicate that the enhanced agglutination of trypsinized erythrocytes is not dependent on clustering of lectin receptors. The disruption of agglutination of fixed erythrocytes by shear forces that do not disrupt agglutination of fixed erythrocytes with unfixed erythrocytes suggests that the rigidity of the fixed erythrocyte may prevent stable aggregate formation by fixed erythrocytes alone.     

Differential resistance to calcium-induced bilirubin-dependent hemolysis in mammalian erythrocytes

Washed erythrocytes from human, buffalo, sheep and goat preincubated with different concentrations of calcium chloride (16.7–1830 μM) showed significantly different rates of hemolysis (up to 62%) after addition of bilirubin (72 μM). Goat erythrocytes displayed marked resistance to hemolysis with only 11% hemolysis observed at the highest calcium concentration. Similar trend in hemolysis was also observed when the concentration of CaCl₂ was fixed (330 μM) and bilirubin concentration varied (0–72 μM). (Ca²⁺–Mg²⁺)-ATPase levels were found significantly lower in goat and sheep erythrocyte membranes compared to human and buffalo erythrocyte membranes. This was correlated well with the observed hemolysis in various mammalian erythrocytes.     

Lectins in the hemolymph of Japanese horseshoe crab, Tachypleus tridentatus

The hemolymph of the Japanese horsehoe crab, Tachypleus tridentatus contains lectins which agglutinate mammalian erythrocytes. Affinity chromatographic purification of the lectins using bovine submaxillary gland mucin-conjugated Sepharose resulted in the separation of the lectins into four fractions; one major and three minor lectins. Protein subunits revealed by polyacrylamide gel electrophoresis and the immunoprecipitin line of these lectins against antiserum to crude lectins were unique to each fraction. The activities of all the lectins were optimal at pH values between 6 and 8, and were destroyed by heating at 60°C. Calcium chloride augumented the activities of three lectins, but the major lectin was not influenced by the salt. Bovine erythrocytes were not agglutinated by any of the lectins and comparative agglutination titers for other erythrocytes from various sources were different among these lectins. The activities of all the lectins were inhibited by N-acetylamino sugars. They were more effectively inhibited by glycoproteins which contain sialic acid.     

Reaction of lectins with human erythrocytes : II. Mapping of con A receptors by freeze-etching electron microscopy

Native concanavalin A (con A) molecules bound to human erythrocytes were visualized directly by freeze-etching. This technique revealed 400–700 randomly distributed con A molecules/μm² at saturation (or approx. 100 000 per cell, based on a surface of 145 μm²) on both untreated and neuraminidase treated cells. Temperature-dependent mobility of lectin receptors was demonstrated by a redistribution of con A following reactions with anti-con A antibodies. Since the extent of cell agglutination was temperature-independent, clustering or mobility of the receptor sites cannot be an important factor in erythrocyte agglutination. Comparison of the distribution of con A molecules on surfaces of cells with that of the intramembranous particles suggests that there is no direct relationship between these entities.     

Studies on the role of goat heart galectin-1 as an erythrocyte membrane perturbing agent

Galectins are β-galactoside binding lectins with a potential hemolytic role on erythrocyte membrane integrity and permeability. In the present study, goat heart galectin-1 (GHG-1) was purified and investigated for its hemolytic actions on erythrocyte membrane. When exposed to various saccharides, lactose and sucrose provided maximum protection against hemolysis, while glucose and galactose provided lesser protection against hemolysis. GHG-1 agglutinated erythrocytes were found to be significantly hemolyzed in comparison with unagglutinated erythrocytes. A concentration dependent rise in the hemolysis of trypsinized rabbit erythrocytes was observed in the presence of GHG-1. Similarly, a temperature dependent gradual increase in percent hemolysis was observed in GHG-1 agglutinated erythrocytes as compared to negligible hemolysis in unagglutinated cells. The hemolysis of GHG-1 treated erythrocytes showed a sharp rise with the increasing pH up to 7.5 which became constant till pH 9.5. The extent of erythrocyte hemolysis increased with the increase in the incubation period, with maximum hemolysis after 5 h of incubation. The results of this study establish the ability of galectins as a potential hemolytic agent of erythrocyte membrane, which in turn opens an interesting avenue in the field of proteomics and glycobiology.     

Kinetics of erythrocyte lysis by snake venom cardiotoxins

Hemolysis of guinea pig erythrocytes by snake venom cardiotoxins was investigated with a semi-automatic method based on light-scattering changes of erythrocyte suspensions at 700 nm which are directly related to hemoglobin release. Small amounts of phospholipase-free cardiotoxin (<100 μg) could be conveniently and rapidly assayed with the high reproducibility in a recording spectrophotometer, and reliable kinetic data were accumulated.Cardiotoxins from two different genera (Hemachatus haemachates and Naja mossambica mossambica) displayed virtually identical hemolytic properties. Hemolysis increased linearly with time, in contrast with a sigmoidal pattern when phospholipase was present as an impurity. Low concentrations of Ca²⁺ (<1 mM) stimulated cardiotoxin action. A limiting plateau rate of hemolysis reached during concentration dependence experiments in which the level of either cardiotoxin or of erythrocytes was varied, suggested that the interaction of cardiotoxin with erythrocyte membranes is a saturation phenomenon only at a high ratio of cardiotoxin: erythrocytes. No hemolysis was observed with an homologous neurotoxin of S-methylated cardiotoxin, providing evidence for specificity. The linear Arrhenius plots obtained for the temperature dependence of cardiotoxin-induced hemolysis strengthened the conclusion that its action involves more than a detergent-like effect on membrane phospholipids.     

The relationship of membrane lipids to species specific hemolysis by hemolytic factors from Stomoxys calcitrans (L.) (Diptera: Muscidae)

Posterior-midgut homogenate from female stable flies prepared at 12 h after feeding hemolyzed erythrocytes from 6 different mammalian species more readily than homogenate prepared at 22 h. A significant correlation was obtained between the per cent sphingomyelin content of the erythrocyte membrane and the time required for lysis by the 12 h homogenate. Erythrocytes with low sphingomyelin content were more sensitive to lysis than cells with high sphingomyelin. No such correlation exists for hemolysis by 22 h homogenate. Mean corpuscular volume and osmotic fragilities of erythrocytes were not related to hemolysis either by 12 or 22 h homogenate. Determination of phospholipase C and sphingomyelinase activities showed that the hydrolysis rate of phospholipase C in homogenates prepared at 12–14 h was almost twice as much as sphingomyelinase activity. Whereas hydrolysis rates in 22–24 h homogenate were not different and markedly reduced compared to the 12–14 h homogenate. The times required for erythrocyte hemolysis related to the phospholipase C and sphingomyelinase activity profiles suggests that these enzyme activities participate in the in vitro hemolysis of red blood cells. Bovine and human erythrocytes change their biconcave contour into a spiculated spherical shape when they are exposed to midgut homogenate. This shape change is interpreted as a detergent induced modification of the red cell membrane which renders the erythrocytes more vulnerable to hemolysis.     

Blood group B-specific lectin of Plecoglossus altivelis (Ayu fish) eggs

A lectin that agglutinates human blood group B erythrocytes but not blood group A and O erythrocytes was isolated from eggs of Ayu sweet fish (Plecoglossus altivelis). The lectin also agglutinates Ehrlich ascites carcinoma cells but not rat ascites hepatoma AH109 or rat sarcoma 150 cells tested. The lectin agglutination was most effectively inhibited by monosaccharides with the first type of configuration, i.e., L-rhamnose, L-mannose and L-lyxose at a concentration of 0.03 mM. The lectin agglutination was moderately inhibited by monosaccharides with the second type of configuration, i.e., D-galactose, D-fucose and D-galacturonic acid at a concentration of 0.4 mM. However, the agglutination was not inhibited by various other monosaccharides and oligosaccharides that have other types of configuration. The basis for an apparent B-specific hemagglutination may be due to the steric similarity of the C₂ and C₄ of the galactosyl series, the B-specific determinant, and the L-rhamnosyl series, which are the best inhibitors of the lectin activity. The lectin was affinity purified on an L-rhamnosyl-Sepharose column and was characterized as a homogeneous low molecular weight protein (M_r 14 000) with an abundance of hydrophobic amino acids and dicarboxylic amino acid.     

Properties of the human erythrocyte membrane receptors for peanut and Dolichos biflorus lectins.

Neuraminidase treatment of blood type A and B human erythrocytes, which is required for the agglutination of these cells by peanut (Arachis hypogaea) lectin, increased the number of receptor sites for the lectin from about 5 × 10⁴ to 1.8 × 10⁶ sites/ cell for both blood types. The same treatment also increased the agglutinability of type A cells by the blood group A-specific Dolichos biflorus lectin, but the number of receptor sites for this lectin (~6 × 10⁵ sites/cell) did not change. D. biflorus lectin binding and agglutination of blood type B cells were negligible both before and after neuraminidase treatment. To isolate the peanut agglutinin receptor from the membrane of these cells, washed type A erythrocytes were incubated with neuraminidase and galactose oxidase and then treated with NaB³H₄, thus labeling the galactose residues on the membrane. For measuring peanut agglutinin receptor activity, a radioaffinity assay was developed based on the displacement of [¹⁴C]asialofetuin from peanut agglutinin by receptor and precipitation of the complex in the presence of polyethyleneglycol. Membranes were isolated by hypotonic lysis and were solubilized in 0.5% Empigen BB, a zwitterionic detergent, which was found to be superior to Triton X-100 for this purpose. The cell extract, after centrifugation, was subjected to affinity chromatography on peanut agglutinin-polyacrylhydrazido-Sepharose. Elution with lactose afforded a peak of radioactivity (32% yield) containing 70% of the applied receptor activity. The eluting sugar and the receptor were separated by chromatography on Bio-Gel P-2 with subsequent dialysis against 80% acetone to remove the detergent. The bulk of the isolated receptor radioactivity (91%) precipitated with peanut agglutinin. The amino acid composition, the glucosamine and galactosamine content and the electrophoretic mobility, on polyacrylamide gel electrophoresis in sodium dodecyl sulfate of the peanut receptor were similar to those of asialoglycophorin. In addition, the peanut receptor coprecipitated with asialoglycophorin and with isolated erythrocyte T antigen on Ouchterlony double-diffusion plates against peanut agglutinin and the Ricinus communis lectin, but not with D. biflorus lectin, suggesting that the receptor for the latter lectin is distinct from the peanut agglutinin receptor.     

Determination of lectin characteristics by a novel agglutination technique.

A technique generally applicable for the determination of lectin characteristics is described. A sensitive light transmission/scattering method was adapted for the determination of lectin levels and lectin activity. Applying this procedure Geodia cydonium lectin-mediated agglutination was studied in an agglutimeter device using erythrocytes and even T-lymphocytes. In the Geodia lectin/T-lymphocyte system chosen, (i) a lectin concentration as low as 0.57 micrograms/ml could be measured accurately, (ii) the observed cell agglutination velocity constant with a maximal value of 0.75 min-1 was calculated, and (iii) the size of the agglutinates at a given lectin concentration and time period was estimated. The Geodia lectin activity was determined in parallel also in the erythrocyte system. Here, compared to the lectin/T-lymphocyte system the agglutination efficiency of the Geodia lectin-mediated agglutination was more than 10-fold higher and the lowest detectable lectin concentration was 0.06 micrograms/ml. Compared to the hemagglutination assay the lectin/erythrocyte system turns out to be more sensitive and to give much more information on agglutination behavior; this conclusion is supported by additional data using a second lectin isolated from Pellina semitubulosa. The superiority of the agglutination method described here over other known methods must be seen in its accuracy; moreover more lectin characteristics can be determined.     

Specificity of antierythrocyte autoantibodies secreted by a NZB-derived hybridoma and NZB peritoneal cells

The specificity of monoclonal IgM antierythrocyte autoantibody produced by a NZB-derived hybridoma and the specificity of autoantibodies produced by uninduced NZB peritoneal cells in culture were determined. Supernatant fluids from cultures of hybridoma and peritoneal cells reacted in direct hemagglutination assays with bromelin-treated mouse erythrocytes, and, to a lesser extent, with sheep red blood cells; no agglutination was observed with intact mouse red blood cells or human O⁺ erythrocytes. These results suggest the presence of previously characterized anti-HB, but not anti-X or cold reactive autoantibodies, with a cross-reaction between antigenic constituents on sheep and bromelin-treated mouse erythrocytes. Specificity was affirmed by neutralization of agglutination or of direct hemolysis of bromelin-treated mouse erythrocytes with partially purified SEA-HB, the soluble plasma analog of the erythrocyte-bound HB autoantigen. Plaque formation in direct plaque-forming cell assays by both hybridoma and peritoneal cells was specifically inhibited by SEA-HB. These results demonstrate that NZB-derived hybridoma as well as NZB peritoneal cells secrete anti-HB autoantibody, an autoantibody that spontaneously appears in the serum of NZB as well as other strains of mice.     

Erythrocyte Lysis and Xenopus laevis Oocyte Rupture by Recombinant Plasmodium falciparum Hemolysin III

Malaria kills more than 1 million people per year worldwide, with severe malaria anemia accounting for the majority of the deaths. Malaria anemia is multifactorial in etiology, including infected erythrocyte destruction and decrease in erythrocyte production, as well as destruction or clearance of noninfected erythrocytes. We identified a panspecies Plasmodium hemolysin type III related to bacterial hemolysins. The identification of a hemolysin III homologue in Plasmodium suggests a potential role in host erythrocyte lysis. Here, we report the first characterization of Plasmodium falciparum hemolysin III, showing that the soluble recombinant P. falciparum hemolysin III is a pore-forming protein capable of lysing human erythrocytes in a dose-, time-, and temperature-dependent fashion. The recombinant P. falciparum hemolysin III-induced hemolysis was partially inhibited by glibenclamide, a known channel antagonist. Studies with polyethylene glycol molecules of different molecular weights indicated a pore size of approximately 3.2 nm. Heterologous expression of recombinant P. falciparum hemolysin III in Xenopus oocytes demonstrated early hypotonic lysis similar to that of the pore-forming aquaporin control. Live fluorescence microscopy localized transfected recombinant green fluorescent protein (GFP)-tagged P. falciparum hemolysin III to the essential digestive vacuole of the P. falciparum parasite. These transfected trophozoites also possessed a swollen digestive vacuole phenotype. Native Plasmodium hemolysin III in the digestive vacuole may contribute to lysis of the parasitophorous vacuole membrane derived from the host erythrocyte. After merozoite egress from infected erythrocytes, remnant P. falciparum hemolysin III released from digestive vacuoles could potentially contribute to lysis of uninfected erythrocytes to contribute to severe life-threatening anemia.     

Haemolysis of rabbit erythrocytes by a lectin from the seeds of<Emphasis Type="Italic">Croton tiglium</Emphasis>

The kinetics of haemolysis of rabbit erythrocytes byCroton tiglium lectin was studied as a function of concentration of the lectin and erythrocytes. The length of the prelytic period decreased with increasing lectin concentrations, indicating that the secondary events at the membrane which follow the binding of the lectin to cell surface carbohydrate receptors are accelerated at higher surface concentrations of the lectin. The rate or extent of haemolysis was not affected by the inclusion of ions like K⁺, Ca²⁺ and Mg²⁺ in the medium or by the substitution of ionic medium by a non-ionic medium. The inhibition of haemagglutination and haemolysis of rabbit red cells byCroton tiglium lectin by antilectin rabbit serum was observed. A possible mechanism of haemolysis by the lectin is discussed.     

Divalent cation enhancement of the agglutinability by soyabean lectin of liposomes prepared from total lipid of erythrocytes and of erythrocyte membranes

CaCl₂ or MgCl₂ but not NaCl enhances the soyabean lectin-induced agglutination of liposomes prepared from total lipids of erythrocyte membranes. The addition of purified phosphatidylserine to the total lipids of erythrocyte membranes before the formation of liposomes inhibits lectin-induced agglutinability of the preparation in the absence of CaCl₂, but not in its presence. When preformed phosphatidylserine liposomes are added to liposomes of total lipids of erythrocyte ghosts, they do not inhibit agglutination, indicating that phosphatidylserine does not inhibit the lectin directly. CaCl₂ or MgCl₂ but not NaCl also stimulates the soyabean lectin-induced agglutination of human erythrocyte membranes.Electron micrographs indicate that the liposome preparations are multilamellar and separate even in the presence of CaCl₂. When such liposomes are treated with lectin with or without CaCl₂, the electron micrographs show significant agglutination without apparent fusion. The reversal of the agglutination of liposomes by specific sugars followed by turbidimetric and electron microscopic techniques supports the conclusion that CaCl₂ stimulated lectin-induced agglutination is unaccompanied by fusion.The stimulation by divalent cations of lectin-induced agglutination of erythrocyte ghosts or of our liposomes may be due to a decrease in apparent surface charge of these membrane systems.     

Anaplasma marginale, Eperythrozoon wenyoni: lectin reactions with bovine erythrocytes

Normal bovine erythrocytes were agglutinated with four of five lectins specific for different oligosaccharides. The order of reactivity was wheat germ greater than ricin greater than soybean greater than peanut. Concanavalin A did not agglutinate normal bovine erythrocytes. After neuraminidase treatment of normal bovine erythrocytes, each lectin agglutinated the cells with decreased concentrations of lectin, verifying that partial removal of sialic acid exposes more of each lectin's binding sites or alters the binding site such that fewer molecules of lectin are required to initiate agglutination. A change in agglutination of erythrocytes using soybean agglutinin and peanut agglutinin occurred when cells were obtained from cattle infected with Eperythrozoon wenyoni. The results suggested that an alteration in erythrocyte membranes occurred as a result of this infection as manifested by the increased recognition of both the soybean agglutinin and peanut agglutinin receptor carbohydrates. A similar effect was indicated with erythrocytes obtained during an acute Anaplasma marginale infection; however, an ensuing reticulocytosis masked the effect, requiring the use of fluoresceinated lectins to verify that increased binding of each lectin occurred with infected cells when compared to normal cells.