Immunochemical studies on blood groups. Immunochemical properties of B-active and non-B-active blood group substances from horse gastric mucosae and the relative size distributions of oligosaccharides liberated by base-borohydride.

Horse B-active and non-B-active glycoproteins from gastric mucosae are indistinguishable in their precipitating abilities with concanavalin A, anti-BP1, type XIV horse antipneumococcal serum, the lectin from Lotus tetragonolobus and a group 1 anti-I serum, Ma; no Le^a or Le^b activity was found. Each was subjected to catalyzed release of its oligosaccharide chains by 0.05 n NaOH in 1 m NaBH₄. Destruction of serine, threonine and 2-acetamido-2-deoxygalactopyranose (dGalNAc) was associated with production of alanine, α-aminobutyric acid and N-acetyl-d-galactosaminitol, as expected for a carbohydrate to peptide linkage via dGalNAc to serine or threonine. No evidence of basecatalyzed peeling was seen. Bio-Gel P-2 elution patterns of the salt-free oligosaccharides from the two preparations were compared. Unlike results obtained with human ovarian cyst substances, very little material was excluded. The largest-size chains are in the range of deca- or dodecasaccharides, and a reduced octasaccharide was isolated. The four most abundant amino acids in both B-active and non-B-active materials are threonine, serine, proline and glutamic acid, which together account for 60% of the weight of amino acids.     

Involvement of blood-group-B-active trisaccharides in Ca2+-dependent cell-cell adhesion in the Xenopus blastula

 Despite their wide distribution in various organisms, no physiological roles have been proposed for the human blood-group-ABO (ABH)-active trisaccharides. Here we show that monoclonal antibodies against human blood-group-B-active trisaccharides (B-substance) completely block the Ca²⁺-dependent cell-cell adhesion system of frog (Xenopus laevis) embryonic cells. Synthetic B-substance or B-active glycopeptides also disrupt the Ca²⁺ -dependent cell-cell adhesion. These results suggest that blood-group-B-active substances play a role in cell-cell adhesion. Blood-group-B-active substances were found as glycoproteins and as glycosphingolipids. In order to identify B-active glycoproteins active in cell-cell adhesion, we purified B-active membrane glycoproteins by two-dimensional electrophoresis and found that they are 45- to 58-kDa proteins with pI(s) ranging from 4.0 to 5.3. They are glycosylphosphatidyl inositol (GPI) anchored. Amino acid sequence analysis showed that the purified B-active GPI-anchored proteins are homologues of soluble Xenopus cortical granule lectins (CGL). The results suggest that the B-active membrane glycoproteins are GPI-anchored forms of the lectin and are directly involved in frog Ca ²⁺-dependent cell-cell adhesion. Received: 16 September 1997 / Accepted 19 November 1997     

Interaction of cholera toxin and Escherichia coli heat-labile enterotoxin with glycoconjugates from rabbit intestinal brush border membranes: Relationship with ABH blood group determinants

The capacity of cholera toxin (CT) and type I heat-labile enterotoxin produced by Escherichia coli isolated from human intestine (LTh) to interact with glycoconjugates bearing ABH blood group determinants from rabbit intestinal brush border membranes (BBM) was studied. On the basis of the type of intestinal compounds related to the human ABH blood group antigens, rabbits were classified as AB or H. Toxin binding to the intestinal glycolipids and glycoproteins depends on the blood group determinant borne by the glycoconjugate and on the analyzed toxin. LTh was capable of interacting preferentially with several blood group A- and B-active BBM glycolipids compared to those isolated from animals lacking these antigens (H rabbits). Also, LTh preferably bound to several BBM glycoproteins from AB rabbit intestines compared to those from H ones. One of these glycoproteins, the sucrase-isomaltase complex (EC 3.2.1.48-10) isolated from AB and H rabbits showed the same differential LTh binding. Conversely, CT practically did not recognize either blood group A-, B-, or H-active glycolipids and glycoproteins. These results may be relevant for carrying out in vivo experiments in rabbits in order to disclose the role of ABH active-glycoconjugates in the secretory response induced by LTh in rabbit intestine.     

Comparative study of blood group-recognizing lectins toward ABO blood group antigens on neoglycoproteins, glycoproteins and complex-type oligosaccharides

Binding specificities of ABO blood group-recognizing lectins toward blood group antigens on neoglycoproteins, glycoproteins and complex-type oligosaccharides were studied by lectin-blotting analysis, enzyme linked immunosorbent assay and lectin-conjugated agarose column chromatography. Human serum albumin conjugated with A- and B-trisaccharides was clearly recognized by Helix pomatia (HPA), Phaseolus lunatus, Dolichos biflorus agglutinins, and Griffonia simplicifolia I agglutinin B(4), respectively. Almost the same results were obtained for human group A and B ovarian cyst and A-active hog gastric mucins, but Glycine max agglutinin only reacted to the group A hog mucin. When human plasma von Willebrand factor (vWF), having Asn-linked blood group antigens, was tested, HPA was highly sensitive to blood group A antigen on the vWF. Ulex europaeus agglutinin I (UEA-I) preferentially bound to the vWF from blood group O plasma. Within the GalNAc-recognizing lectins examined, a biantennary complex-type oligosaccharide having the blood group A structure retarded on an HPA-agarose column, and the affinity was diminished after digestion with alpha-N-acetylgalactosaminidase. This product bound to UEA-I agarose column. These results indicate that HPA and UEA-I are most sensitive for detection of glycoproteins possessing small amounts of blood group A and H antigens and also useful for fractionation of complex-type oligosaccharides with blood group A and H antigens, respectively.     

A study of the specificity of Bandeiraea simplicifolia lectin I by competitive-binding assay with blood-group substances and with blood-group A and B active and other oligosaccharides

The specificity of Bandeiraea simplicifolia lectin I (BS I) has been studied by competitive-binding assays (CBA) using tritium-labeled human B and hog A substances. Blood-group B substances isolated from horse gastric mucosae and from human ovarian-cyst fluids were much better inhibitors of binding of tritiated blood-group B substance to insoluble BS I-Sepharose 2B than were human blood-group A substances from saliva and ovarian-cyst fluid. A and B active blood-group substances showed the same range of potency in inhibiting binding of tritium-labeled hog A substance to BS I-Sepharose 2B. CBA with BS I-Sepharose 2B, labeled human blood-group B substance, and human blood-group A and B active aligosaccharides separated the haptens into two groups differing in slope. Group 1, containing methyl alpha-D-GalNAcp, D-GalNAcp, and an A active pentasaccharide ARL 0.52, with 3, 19, and 25 nmol respectively needed for 50% inhibition of binding, has a lower slope than group 2, which contains alpha-D-GalNAcp-(1 leads to 3)-2-acetamido-2-deoxy-D-galactitol and p-nitrophenyl alpha-D-GalNAcp, with 3 nmol of each required for 50% inhibition of binding, as well as ten glycosides with terminal, nonreducing, alpha-linked D-Galp. The most potent inhibitors of this group were p-nitrophenyl alpha-D-Galp, alpha-D-Galp-(1 leads to 3)-D-Galp, alpha-D-Galp-(1 leads to 6)-D-Glcp, and methyl alpha-D-Galp, with 5, 7.4, 9.6, and 11 nmol respectively needed to inhibit binding by 50%. The difference in slopes was explainable in terms of a recent finding that BS I exists as a mixture of five isolectins composed of two subunits having different specificities; subunit A is most specific for alpha-linked, terminal, nonreducing D-GalNAcp, but it also reacts with alpha-linked, terminal, nonreducing D-Galp, whereas subunit B tends to be more specific for terminal, nonreducing, alpha-linked D-Galp.     

Immunochemical studies on blood groups. Purification and characterization of radioactive 3H-reduced di- to hexasaccharides produced by alkaline beta-elimination-borohydride 3H reduction of Smith degraded blood group A active glycoproteins

Treatment of blood group A active glycoprotein from human ovarian cyst fluid by one stage of Smith degradation followed by alkaline beta-elimination in the presence of NaB[ 3H4 ] (Carlson degradation) liberated tritiated oligosaccharide alditols. The carbohydrate mixture was fractionated by gel filtration, elution from charcoal, paper chromatography, and high pressure liquid chromatography. Structures were established based on sugar composition, periodate oxidation, methylation analysis, and analysis of oligosaccharide alditols as permethylated and N-trifluoroacetylated derivatives by gas-liquid chromatography-mass spectrometry. The following structures have been deduced: Gal beta 1----3GalNAc-ol, GlcNAc beta 1---- 6GalNAc -ol, Gal beta 1---- 3GlcNAc beta 1----6(3-deoxy)GalNAc-ol, Gal beta 1---- 3GlcNAc beta 1---- 6GalNAc -ol, Gal beta 1----4GlcNAc beta 1---- 6GalNAc -ol, GlcNAc beta 1----3Gal beta 1----3GalNAc-ol, Gal beta 1----3[GlcNAc beta 1----6]GalNAc-ol, Gal beta 1----3[Gal beta 1----4GlcNAc beta 1----6]GalNAc-ol, Gal beta 1---- 3GlcNAc beta 1----3Gal beta 1----3GalNAc-ol, GlcNAc beta 1----3Gal beta 1----4GlcNAc beta 1---- 6GalNAc -ol, GlcNAc beta 1----3Gal beta 1----3[Gal beta 1----4GlcNAc beta 1----6]GalNAc-ol, Gal beta 1---- 3GlcNAc beta 1----3Gal beta 1---- 3GlcNAc beta 1----3Gal beta 1----3Gal beta 1----3GalNAc-ol, Gal beta 1---- 3GlcNAc beta 1----3[Gal beta 1----4GlcNAc beta 1----6]Gal beta 1----3GalNAc-ol, Gal beta 1---- 3GlcNAc beta 1----3Gal beta 1----3[Gal beta 1----4GlcNAc beta 1----6]GalNAc-ol. The smaller structures represent pieces of the larger structures. Together they provide direct evidence for the core structure of the carbohydrate side chains in the blood group substances as proposed by K. O. Lloyd and E. A. Kabat [1968) Proc. Natl. Acad. Sci. U.S.A. 61, 1470-1477). Oligosaccharides previously isolated after Carlson degradation of intact human ovarian cyst fluid HLeb , Lea, and B substances and from human and horse B substances contained various alpha-linked L- fucopyranose and alpha-linked Gal substitutions on the composite structure.(ABSTRACT TRUNCATED AT 400 WORDS)     

Purification and characterization of lectin II from Ulex europaeus seeds and an immunochemical study of its combining site.

The lectin II from Ulex europaeus seeds was purified by adsorption on insoluble polyleucyl hog A + H blood group substance and elution with 35% ethylene glycol, and by chromatography on ?-aminocaproyl-fucosyl-amine-agarose. In immunodiffusion against rabbit antiserum to the crude extract, the isolated lectin formed one line which fused with one of the five formed by crude extract. The purified lectin showed two bands on acrylamide electrophoresis under alkaline or acid conditions but only one band of molecular weight 23,000 if the electrophoresis was in the presence of 0.1% sodium dodecyl sulfate at pH 8.8. The agglutinating and precipitating abilities are abolished by EDTA and can be restored by bivalent cations. The purified lectin precipitated to different extents with blood group A₁, A₂, B, HLe^b, Le^a, and I precursor substances and with acid- or Smith-degraded substances. Inhibition of precipitation indicated that the lectin site was unusual in that it interacted most strongly with the h-specific oligosaccharide

and with 2′-fucosyllactose, followed by β1 → 4 linked oligomers of dGlcNAc. Molecular models showed that all these inhibitors have a similarity in three-dimensional structures that could account for their activities.     

Enzymatic transfer of a preassembled trisaccharide antigen to cell surfaces using a fucosyltransferase.

The Lewis alpha (1-->3/4)-fucosyltransferase (Le-FucT) is known to fucosylate both Type I (beta Gal(1-->3) beta GlcNAc) and Type II (beta Gal(1-->4) beta GlcNAc) sequences even when these are sialylated at OH-3 or fucosylated at OH-2 of the terminal Gal residues. These acceptor sequences are ubiquitous on mammalian cell-surface glycoproteins and glycolipids. The Le-FucT enzyme is therefore a potential candidate as a universal reagent for the modification of cell surfaces. We have found that a readily accessible, partially purified Le-FucT from human milk, which normally uses GDP-fucose (a 6-deoxy sugar) as the donor for the transfer of a single fucose residue, will also transfer a fucose residue substituted on C-6 by a very large sterically demanding structure, in this instance, a synthetic blood group antigen. As a demonstration of the ability of the Le-FucT to modify glycoconjugates in a mild and specific manner, we chemically synthesized the complex sugar-nucleotide alpha Gal(1-->3) [alpha Fuc(1-->2)]-beta Gal-O-(CH2)8COHN(6)-beta-L-fucose-GDP (13) which is a GDP-fucose analog where the human blood group B trisaccharide antigen is covalently linked to C-6 of fucose through an amino group. It is shown that, in enzyme-linked immunosorbent assays, the Le-FucT uses both immobilized beta Gal(1-->3) beta GlcNAc-bovine serum albumin conjugates and fetuin as acceptor substrates and renders them blood group B-active as detected by a monoclonal anti-B blood-grouping antibody. The fucose residue to which the B-trisaccharide is linked therefore becomes covalently attached to the acceptor oligosaccharide chains of those glycoproteins. Incubation of type "O" erythrocytes with the Le-FucT and complex donor 13 results in the covalent transfer of alpha Gal(1-->3) [alpha Fuc(1-->2)] beta Gal-O-(CH2)8COHN(6)-beta-L-Fuc to cell-surface acceptors since the cells become phenotypically "B" and are agglutinated by the same antibody. It is proposed that the Le-FucT represents a powerful new tool with the ability to label animal cell surfaces with preassembled oligosaccharide and possibly also other complex recognition markers.     

Structures of the asparagine-linked oligosaccharides of guinea-pig factor B of the alternative complement pathway.

This paper describes the structures of the asparagine-linked oligosaccharides of two forms of guinea-pig Factor B of the alternative complement pathway with different Mr values. Oligosaccharides were quantitatively liberated from both glycoproteins by hydrazinolysis, fractionated by paper electrophoresis and Bio-Gel P-4 column chromatography, and their structures determined by sequential exoglycosidase digestions in conjunction with methylation analysis. Both glycoproteins were shown to have the same biantennary complex-type oligosaccharides but it is suggested that they contain different numbers of oligosaccharide chains.     

Tumour-associated and differentiation antigens on the carbohydrate moieties of mucin-type glycoproteins

In this report the carbohydrate antigens expressed on the three oligosaccharide domains, core, backbone and peripheral, of mucin-type glycoproteins are briefly reviewed in the light of recent observations with monoclonal antibodies. These have revealed that a number of cell-surface antigens which behave as tumour-associated and differentiation antigens of man or mouse are abundantly expressed on the carbohydrate chains of a variety of secreted mucins of human and animal origins and they belong to an antigen system which also includes the major blood group antigens. Examples are given of the use of well-characterized anti-carbohydrate antibodies to derive structural information on (a) mucin-type glycoproteins of human B lymphocyte membranes, (b) the high molecular weight glycoproteins of the normal human gastric and distal-colon mucosae and (c) tumour-derived glycoproteins from these two organs. Major differences between the antigenicities of the normal stomach and distal-colon, and between their tumour-derived glycoproteins, and the important effect of the secretor status in the expression of these antigens are described. These observations have enabled a better understanding of the individual and tissue differences in the expression of tumour-associated antigens. The possibility is raised that these carbohydrate structures (many of which also occur on certain N-linked oligosaccharides and glycolipids) are components of receptor systems for endogenous ligands. More tangible evidence is cited for the role of certain structures in this family of saccharides as receptors for infective agents.     

ABH blood group antigens in O-glycans of human glycophorin A

The major O-linked oligosaccharide structures attached to human glycophorin A (GPA) have been extensively characterized previously. Our own recent findings, obtained by immunochemical methods, suggested the presence of blood group A and B determinants in O-glycans of human glycophorin originating from blood group A or B erythrocytes, respectively. Here, we elucidate the structure of O-glycans, isolated from GPA of blood group A, B, and O individuals by reductive beta-elimination, carrying A, B or H blood group epitopes, respectively. Structural studies based on nanoflow electrospray-ionization tandem mass spectrometry and earlier reported data on the carbohydrate moiety of GPA and ABH antigens allowed us to conclude that these blood group epitopes are elongations of the beta-GlcNAc branch attached to C-6 of the reducing GalNAc. The galactose linked to C-3 of the reducing GalNAc carries NeuAcalpha2-3 linked residue. Identified here O-glycans were found in low amounts, their content estimated at about one percent of all GPA O-glycans. These O-glycans with type-2 core, carrying the blood group A, B or H determinants, have not been identified in GPA so far. Our results demonstrate the efficacy of nanoESI MS/MS in detecting minor oligosaccharide components present in a mixture with much more abundant structures.     

Isolation from human urines of a mucin with blood group Sda activity

A mucin with Sd^a blood group activity was isolated from human group 0 urines by a multistep procedure including an affinity chromatography on $\text{Helix pomatia}$ - Ultrogel. About 8 mg of active material was obtained from 100 litres of urines. The purified substance of apparent molecular weight 340,000 dalton is not stained by Coomassie blue but gave a single periodic acid-Schiff positive band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Analytical composition indicated the absence of mannose, a high content of N-acetylgalactosamine and a molar ratio galactose: N-acetylgalactosamine: N-acetylglucosamine: sialic acid of 2:2:1:2. Amino acid composition is typical of a mucin substance with high values of serine, threonine, proline and alanine. The urinary mucin inhibited human anti-Sd^a antibodies as strongly as the Tamm-Horsfall glycoprotein isolated from Sd(a+) urines. However, the two substances clearly have different composition and properties. It is suggested that oligosaccharide chains with Sd^a blood group activity might be carried by different glycoconjugates of human arines and tissues.     

A new sialyloligosaccharide from human milk: isolation and characterization using anti-oligosaccharide antibodies

A previously undescribed sialyloligosaccharide has been isolated from human milk using a specific anti-sialyloligosaccharide antibody. Structural studies of the radiolabeled oligosaccharide by enzyme degradation and binding by specific anti-oligosaccharide sera are consistent with the following structure: (sequence in text) The oligosaccharide is present only in milk from donors who secrete A, B, or H blood group substances; this is consistent with the requirement of at least one copy of the Se (Secretor) gene necessary for the synthesis of oligosaccharides with Fuc alpha 1-2Gal . . . linkages.     

Affinity chromatographic isolation of cell surface glycoproteins from human foetal brains and their interaction with lectins.

The cell surface glycoproteins of foetal human neurons and glial cells were isolated by affinity chromatography on Con A-Sepharose 4B. Dissociation of Con A from the matrix took place independent of buffer composition and the absence of lipids and/or detergents during chromatography. It was apparently related to the nature of glyco proteins. Pretreatment of Con A-Sepharose 4B with urea or guanidine minimized this problem. The elution of glycoproteins from the affinity matrix at 4 degrees C, instead of the usual 25 degrees C, reduced both Con A and glycolipid contamination in the eluate. Dot-enzyme-linked-lectin assay was carried out with horse radish peroxidase conjugated lectins and serotonin. It was observed that total glycoproteins contained high mannose, hybrid and a limited quantity of biantennary complex type oligosaccharide chains. O-linked oligosaccharides were also present. Desialylation and sodium chloride inhibited binding to serotonin and wheat germ agglutinin indicating the presence of sialic acid residues. Fucose was attached to the innermost core GlcNAc residue, as revealed by affinity towards pea lectin.     

Immunochemical studies on blood groups. 53. A study of various conditions of alkaline borohydride degradation on human and hog blood group substances and on known oligosaccharides

Blood group A, B, H, Le^a, Le^b, and I substances, their products of periodate oxidation and Smith degradation, and disaccharides containing 3-O-substituted reducing N-acetylhexosamines were treated with base-borohydride under three defined sets of conditions. Procedures for the assay and quantitation of the possible reduced base-degradation products, including hexenetetrol(s), 3-deoxygalactitol, galactitol, reduced chromogens, N-acetylglucosaminitol, and N-acetylgalactosaminitol are described. Extensive degradation occurred by two methods. 1 m NaBH₄ in 0.05 n NaOH at 50 ° cleaves the glycosidic linkage of the oligosaccharide chains from serine and threonine with reduction of the terminal-reducing N-acetylgalactosamine with minimal base degradation. The method is useful for isolation of complete reduced oligosaccharides from blood group substances; the structural implications of the free and oligosaccharide-bound N-acetylgalactosaminitol released are discussed.     

Immunochemical studies on blood groups: Purification,chemical and immunochemical properties of blood group-active glycoproteins from horse gastric mucosae

Digestion of the gastric mucosae of 10 horses with pepsin or Pronase was followed by phenol/ethanol fractionation. Chemical and immunochemical examination of the fractions showed the mucosae to possess various combinations of A, B and H activities. Most were B-active, three had weak A activity, one had strong H activity and the remainder were weakly H-active; one mucosa possessed neither A, B nor H activity. Digestion with pepsin or Pronase of different portions of the same mucosa yielded products equivalent in serological and most chemical properties. Materials digested by Pronase tended to have less peptide nitrogen than those treated with pepsin. Fractions with the strongest serological activities contained significantly higher amounts of carbohydrate and lesser amounts of peptide nitrogen than those with weak A, B or H activity or with no activity. All mucosae, independent of their A, B or H activity, reacted with concanavalin A. The fractions precipitable by 10% ethanol from 90% phenol reacted most strongly.     

Properties of Ulex europaeus II lectin isolated by affinity chromatography.

A lectin was isolated from Ulex europaeus seeds by affinity chromatography on affinity adsorbent prepared by copolymerization of acrylamide, N,N'-methylene bisacrylamide and maleylated hog stomach peptone. The lectin is homogeneous as judged by ultracentrifugation (s20,w = 6.4 S), electrophoretic and gel chromatography criteria; it contains 4.2% neutral sugar and 1.4% glucosamine. Its molecular weight is approx. 110,000 and the molecule consists of two noncovalently linked protomers which are formed by two covalently bound basic subunits (Mr = 30,000). The preparation contains three isolectins differing in the strength of interaction with specific sugars (cellobiose, N-acetyl-D-glucosamine) under the conditions of affinity electrophoresis. The lectin is non-specific with human ABO blood group system, the agglutination is inhibited by partial chitin hydrolysate, hog stomach peptone and high concentration of cellobiose.     

Isolation and characterization of a second lectin (SNA-II) present in elderberry (Sambucus nigra L.) bark

A second lectin (SNA-II) has been isolated from elderberry (Sambucus nigra L.) bark by affinity chromatography on immobilized asialo-glycophorin. This lectin is a blood group nonspecific glycoprotein containing 7.8% carbohydrate and which is rich in asparagine/aspartic acid, glutamine/glutamic acid, glycine, valine, and leucine. Gel filtration on Superose 12 gave a single symmetrical peak corresponding to Mr, 51,000; SDS-acrylamide electrophoresis gave a single polypeptide, Mr, 30,000. Hence SNA-II appears to be a homodimer. The lectin is a Gal/GalNAc-specific lectin which is precipitated by glycoproteins containing GalNAc-terminated oligosaccharide chains (e.g., asialo-ovine submaxillary and hog gastric mucins), and by glycoproteins and polysaccharides having multiple terminal nonreducing D-galactosyl groups as occur in asialoglycophorin, asialo-laminin and Type 14 pneumococcal polysaccharide. The carbohydrate binding specificity of SNA-II was studied by sugar hapten inhibition of the asialo-glycophorin precipitation reaction. The lectin's binding site appears to be most complementary to Gal-NAc linked alpha to the C-2, C-3, or C-6 hydroxyl group of galactose. These disaccharide units are approximately 100 times more potent than melibiose, 60 times more potent than N-acetyllactosamine, and 30 times more potent than lactose. Interestingly, the blood group A-active trisaccharide containing an L-fucosyl group linked alpha 1-2 to galactose was 10-fold poorer as an inhibitor than the parent oligosaccharide (GalNAc alpha 1-3Gal), suggesting steric hindrance to binding by the alpha-L-fucosyl group; this explains the failure of the lectin to exhibit blood group A specificity.     

Preparation of precipitating antigens by coupling oligosaccharides to polylysine

Oligosaccharides isolated from human milk when coupled to polylysine by a mixed anhydride procedure are effective precipitating antigens. The lacto-N-fucopentaose II conjugate specifically precipitates antibody directed against the human Le^a blood group antigen while the lacto-N-difucohexaose I conjugate specifically precipitates antibody directed against the human Le^b blood group antigen. The derivatives were used to define the specificity of a human anti-I cold agglutinin.     

Immunochemical studies on blood groups. The combining site specificities of mouse monoclonal hybridoma anti-A and anti-B

Mouse monoclonal hybridomas, five anti-blood group A, three anti-B, and one anti-AB, produced by various methods of immunization, have been characterized by quantitative precipitin tests and the fine structures of their combining sites have been mapped by oligosaccharide inhibition assays. The combining sites of antibodies of each specificity differed among themselves. Three of the five monoclonals were specific for difucosyl and two for monofucosyl A determinants. All but the anti-AB were strictly specific for blood group A or blood group B erythrocytes; all of the anti-A monoclonals gave essentially equivalent titers in hemagglutination tests with A1 and A2 erythrocytes except for a monoclonal anti-A prepared by immunization with a human gastric cancer cell line. The data provide additional evidence for the heterogeneity of the antibody response to the different antigenic determinants present on blood A and B substances and emphasize the importance of difucosyl determinants which comprise most of the determinants on the water-soluble blood group substances.