Blood group-active carbohydrate chains on the receptor for epidermal growth factor of A431 cells

The antigens expressed on the carbohydrate chains of the receptor for epidermal growth factor of A431 cells were studied by immunoblotting with monoclonal antibodies. Blood group A and the Type 1 based blood group ALeb and Lea antigens were detected as well as antigens associated with unsubstituted, monofucosylated and difucosylated Type 2 blood group chains. The Lea and the difucosylated Type 2 antigen activities were abolished by treating the blotted receptor with endo-beta-galactosidase, indicating that they are expressed on backbone structures of poly-lacto/neolacto type. (The term 'poly-lacto/neolacto' is used here to describe oligosaccharide backbone structures consisting of repeating Type 1, Gal beta 1-3GlcNAc (lacto) or Type 2, Gal beta 1-4GlcNAc (neolacto) sequences.) The glycosidic linkage of oligosaccharides to protein was investigated using Pronase digests of the receptor biosynthetically labelled with [3H]glucosamine or [3H]fucose. The oligosaccharides were alkali-resistant, consistent with N- rather than O-glycosidically linked chains. A proportion of [3H]fucose-labelled glycopeptides was susceptible to endo-beta-galactosidase, confirming the immunoblotting experiment using antibodies against the Lea and the difucosylated Type 2 antigenic determinants. Oligosaccharides were released from the [3H]fucose- and [3H]-glucosamine-labelled glycopeptides by hydrazinolysis. Chromatography of the oligosaccharides on Bio-Gel P6 and Concanavalin A columns indicated a spectrum of oligosaccharides which include those of high mannose type labelled with [3H]glucosamine, and a mixture of oligosaccharides labelled with [3H]fucose and [3H]glucosamine of bi- and multiantennary complex types of which a subpopulation is susceptible to digestion with endo-beta-galactosidase.     

The human epithelial carcinoma antigen recognized by monoclonal antibody AE3 is expressed on a sulfoglycolipid in addition to neoplastic mucins

The term human epithelial carcinoma antigen (HCA) has been applied collectively to mucin-type high molecular weight (>1000 kDa) glycoproteins that are over-expressed in epithelial cancers. Since the 1990s, over 40 monoclonal antibodies have been raised that recognize HCA. There has been evidence that the antigenic determinants are mostly carbohydrates, but details have been elusive. Here we have carried out carbohydrate microarray analyses of one of the monoclonal antibodies, AE3, that has been regarded the ‘most carcinoma specific’ in respect to its ability to detect HCA in sera of patients with epithelial cancers. The microarrays encompassed a series of 492 sequence-defined glycan probes in the form of glycolipids and neoglycolipids. We have thus established that the antigen recognized by antibody AE3 is a carbohydrate sequence distinct from the A, B, H, Lewis^a/b, Lewis^x/y and T antigens, but that it is strongly expressed on the monosulfated tetra-glycosyl ceramide, SM1a, Galβ1-3GalNAcβ1-4(3-O-sulfate)Galβ1-4GlcCer. This is the first report of an anti-HCA to be characterized with respect to its recognition sequence and of the occurrence of the antigen on a glycolipid as well as on glycoproteins. Knowledge of a discrete glycan sequence as target antigen now opens the way to its exploration as a serologic cancer biomarker, namely to determine if the antigen elicits an autoantibody response in early non-metastatic cancer, or if it is shed and immunochemically detectable in more advanced disease.     

Murine embryonic antigen (SSEA-1) is expressed on human cells and structurally related human blood group antigen I is expressed on mouse embryos

The stage-specific embryonic antigen (SSEA-1), present on embryonal carcinoma cells and on murine preimplantation embryos, is defined by a monoclonal antibody. The antigenic determinant of SSEA-1 is a carbohydrate structurally related to the human blood group antigen I. Since it has been suggested that the I antigen might represent a precursor or SSEA-1, we used antibodies to SSEA-1 and to I to analyze their expression on mouse preimplantation embryos. Both are expressed on mouse embryos; moreover, I is expressed on earlier embryos than SSEA-1. The I antigen is defined by its expression on human erythrocytes; accordingly, we examined expression of I and SSEA-1 on human peripheral blood elements. We find SSEA-1 to be expressed exclusively on human granulocytes while I is found only on erythrocytes. These results suggest that these closely related antigens can be independently expressed. Analysis of the expression of I and SSEA-1 was then extended to a series of mouse and human cell lines; some express both, some express only one, and some express neither of these antigens. The activation of specific glycosyltransferases and/or glycosidases during development and differentiation appears to be the biochemical mechanism regulating expression of these antigens.     

Stage-specific embryonic antigens (SSEA-3 and -4) are epitopes of a unique globo-series ganglioside isolated from human teratocarcinoma cells.

Two monoclonal antibodies (MC631 and MC813-70) raised against 4- to 8-cell stage mouse embryos and a human teratocarcinoma cell line, respectively, detect the stage-specific embryonic antigens, the previously defined SSEA-3 and SSEA-4, described herein. These antibodies were both reactive with a unique globo-series ganglioside with the structure shown below: (formula; see text) The antibodies were found to recognize sequential regions of this ganglioside, i.e., MC813-70 recognizes the terminal 'a' structure whereas antibody MC631 recognizes the internal 'b' structure. Thus, a set of two antibodies defines this unique embryonic antigen. During differentiation of human teratocarcinoma 2102Ep cells, the globo-series glycolipids defined by these antibodies decrease and the lacto-series glycolipids, reacting with the SSEA-1 antibody appear. This antigenic conversion suggests that a shift of glycolipid synthesis from globo-series to lacto-series glycolipids occurs during differentiation of human teratocarcinoma and perhaps of pre-implantation mouse embryos.     

Monoclonal antibody CC3C195, which detects cancer-associated antigens in serum, binds to the human Lea blood group antigen and to its sialylated derivative

Mouse monoclonal antibody CC3C195, which detects elevated levels of its antigen in sera from many patients with colon and pancreatic cancer, binds with high affinity to the sialylated human Lea blood group antigen NeuAc alpha 2-3Gal beta 1-3 [Fuc alpha 1-4]GlcNac . . . and with lower affinity to the Lea blood group antigen itself.     

Complex <Emphasis Type="Italic">N</Emphasis>-glycans or core 1-derived <Emphasis Type="Italic">O</Emphasis>-glycans are not required for the expression of stage-specific antigens SSEA-1, SSEA-3, SSEA-4, or Le<Superscript>Y</Superscript> in the preimplantation mouse embryo

The glycan epitopes termed stage-specific embryonic antigens (SSEA) occur on glycoproteins and glycolipids in mammals. However, it is not known whether these epitopes are attached to N- or O-glycans on glycoproteins and/or on glycolipids in the developing mouse embryo. In this paper the expression of the antigens SSEA-1, SSEA-3, SSEA-4 and Le^Y was examined on ovulated eggs, early embryos and blastocysts lacking either complex and hybrid N-glycans or core-1 derived O-glycans. In all cases, antigen expression determined by fluorescence microscopy of bound monoclonal antibodies to embryos at the stage of development of maximal expression was similar in mutant and control embryos. Thus, none of these developmental antigens are expressed solely on either complex N- or core 1-derived O-glycans attached to glycoproteins in the preimplantation mouse embryo. Furthermore, neither of these classes of glycan is essential for the expression of SSEA-1, SSEA-3, SSEA-4 or Le^Y on mouse embryos.     

Monoclonal antibodies against SSEA-1 antigen: binding properties and inhibition of human natural killer cell activity against target cells bearing SSEA-1 antigen

We describe the properties of three monoclonal antibodies (Mab) against stage-specific embryonic antigen-1 (SSEA-1) in terms of their binding activity to HL60, K562, OTF9, and SOTF9 tumor target cells and their functional activity in modulating human natural killer (NK) cytotoxicity assays in vitro against these target cells. Indirect binding, competition, and Western blot analyses indicate that the Mab AEC3A1-9 (3A1), ASSEA-1, and AECAB1-32 (AB1) recognize cell-defined SSEA-1 antigen with activity characteristic of the cell source (HL60 greater than OTF9 greater than K562 much greater than SOTF9). The addition of anti-SSEA-1 Mab to the NK cytotoxicity assay resulted in an inhibition of LU per 1 X 10(6) PBL that correlated closely with the expression of SSEA-1 antigen on the target cell. No significant inhibition was seen for seven other Mab. Inhibition of NK activity (greater than 30%) was observed in the presence of anti-SSEA-1 Mab for 18 of 21 and 6 of 7 human donors examined for HL60 and OTF9 target cells, respectively. The pretreatment of fixed competing cells with anti-SSEA-1 Mab reduced the efficacy of those cells to act as cold competitors in a standard NK cytotoxic assay. Taken together these data suggest that SSEA-1 determinants are important at some stage in the cytolysis produced by NK cells.     

High-molecular-weight glycoproteins are the major carriers of the carbohydrate differentiation antigens I, i and SSEA-1 of mouse teratocarcinoma cells.

The carriers of the carbohydrate differentiation antigens I, i and SSEA-1 were investigated in embryonal carcinoma cell lines of mouse and differentiated cell lines derived from them. Glycoproteins were studied by immunostaining ('Western blotting') of total cell lysates and immunoprecipitation from lysates of galactose oxidase/NaB3H4-labelled cells; glycolipids were investigated by immunostaining of thin layer chromatograms. The antigenic activities detected by immunofluorescence of cell smears were reflected in the antigenicities of high-molecular-weight glycoproteins. These were polydisperse and markedly susceptible to digestion with endo-beta-galactosidase. Only the I antigen was detected on minor glycolipids. These observations indicate that glycoproteins rather than glycolipids are the major carriers of carbohydrate differentiation antigens I, i and SSEA-1 in the teratocarcinoma cell lines.     

Biosynthesis and Immunolocalization of Lewis a-Containing N-Glycans in the Plant Cell

We recently demonstrated the presence of a new asparagine-linked complex glycan on plant glycoproteins that harbors the Lewis a (Lea), or Galbeta(1-3)[Fucalpha(1-4)]GlcNAc, epitope, which in mammalian cells plays an important role in cell-to-cell recognition. Here we show that the monoclonal antibody JIM 84, which is widely used as a Golgi marker in light and electron microscopy of plant cells, is specific for the Lea antigen. This antigen is present on glycoproteins of a number of flowering and non-flowering plants, but is less apparent in the Cruciferae, the family that includes Arabidopsis. Lea-containing oligosaccharides are found in the Golgi apparatus, and our immunocytochemical experiments suggest that it is synthesized in the trans-most part of the Golgi apparatus. Lea epitopes are abundantly present on extracellular glycoproteins, either soluble or membrane bound, but are never observed on vacuolar glycoproteins. Double-labeling experiments suggest that vacuolar glycoproteins do not bypass the late Golgi compartments where Lea is built, and that the absence of the Lea epitope from vacuolar glycoproteins is probably the result of its degradation by glycosidases en route to or after arrival in the vacuole.     

Conformational analysis of the tumor-associated carbohydrate antigen 19-9 and its Lea blood group antigen component as related to the specificity of monoclonal antibody CO19-9

A structural comparison between the synthetic, tumor-associated 19-9 tetrasaccharide, NeuAc alpha 2----3Gal beta 1----3GlcNAc(4----1 alpha Fuc)-O(CH2)8CO2CH3 and its Lea blood group antigen component, Gal beta 1----3GlcNAc(4----1 alpha Fuc)-O(CH2)8CO2CH3 was carried out by two-dimensional 1H NMR spectroscopy and hard-sphere energy calculations. Significant chemical shift differences between the two molecules were detected only for protons at or near the linkage site of NeuAc to the Lea trisaccharide core. Coupling constants for the ring protons of both molecules did not suggest major deviation from the 4C1 chair conformation for Gal and GlcNAc, the 1C4 conformation for Fuc, or the 2C5 conformation for NeuAc. Two-dimensional nuclear Overhauser enhancement experiments revealed through-space, inter-proton interactions that corresponded to some extent with those predicted by diffraction data and hard-sphere energy minimization programs for both saccharides. However, a significant number of interactions did not obey the distance dependence predicted from a rigid structure model. These data suggest that, while the average conformation of the 19-9 antigen's Lea core may be invariant to NeuAc alpha 2----3Gal linkage, the dynamics of the Lea trisaccharide are altered upon sialylation. Data also indicate that the terminal NeuAc linkage is more flexible than the inter-residue bonds of the core trisacharide. This analysis, in combination with the fact that the monoclonal anti-19-9 antibody CO 19-9 does not cross-react with the Lea antigen, provides evidence in favor of NeuAc as an epitope-creating unit involved directly at the antibody binding site. However, given the possible role of variable dynamics in epitope formation, these results do not preclude crucial roles in antibody recognition for regions on the 19-9 antigen that are distanced from NeuAc.     

Anti-human tumor antibodies induced in mice and rabbits by "internal image" anti-idiotypic monoclonal immunoglobulins

MBr1 is a murine monoclonal antibody, defining a saccharidic epitope [CaMBr1] of a human tissue-specific, tumor-associated globoside, present on the mammary carcinoma cell line MCF-7. The same epitope is shared by glycoproteins present on normal and neoplastic mammary epithelial cells, and by mucins from some ovarian cyst fluids. We have used MBr1 as the monoclonal antitumor antibody in an idiotypic sequence of immunizations in order to obtain and characterize "internal images" of the original epitope to be used as substitutes of the nominal antigen in serologic immunoassays. Two monoclonal anti-idiotypic antibodies (beta-1 and beta-2), which reacted with paratope-related idiotopes on MBr1, were obtained. The analysis of the antigenic and immunogenic properties of these molecules by both "antigen" and "antibody" competition assays provided evidence that both beta-1 and beta-2 bear "internal images" of the MBr1-defined epitope. Moreover, when injected in mice and rabbits both beta-1 and beta-2 induced anti anti-idiotypic antibodies, which mimicked MBr1 in binding MCF-7 as well as normal and neoplastic mammary gland epithelial cells. These data are discussed in terms of their possible application to the production of tumor-associated antigen substitutes and their use in serologic immunoassays.     

Expression of GD2 and GD3 gangliosides in human embryonic neural stem cells

NSCs (neural stem cells) are undifferentiated neural cells endowed with a high potential for proliferation and a capacity for self-renewal with retention of multipotency to differentiate into neurons and glial cells. It has been recently reported that GD3, a b-series ganglioside, is a marker molecule for identifying and isolating mouse NSCs. However, the expression of gangliosides in human NSCs is largely unknown. In the present study, we analysed the expression of gangliosides, GD2 and GD3, in human NSCs that were isolated from human brains at gestational week 17 in the form of neurospheres, which are floating clonal aggregates formed by NSCs in vitro. Employing immunocytochemistry, we found that human NSCs were strongly reactive to anti-GD2 antibody and relatively weakly reactive to anti-GD3 antibody. Treatment of these cells with an organic solvent such as 100% methanol, which selectively removes glycolipids from plasma membrane, abolished the immunoreactivity with those antibodies, indicating that the reactivity was due to GD2 and GD3, but not to GD2-/GD3-like glycoproteins or proteoglycans. The immunoreactivity of human NSCs to antibody against SSEA-1 (stage-specific embryonic antigen-1), a well-known carbohydrate antigen of NSCs, was not decreased by the treatment with 100% methanol, indicating that SSEA-1 is mainly carried by glycoproteins and/or proteoglycans in human NSCs. Our study suggests that GD2 and GD3 can be marker gangliosides for identifying human NSCs.     

Differing reactions of monoclonal anti-A antibodies with oligosaccharides related to blood group A

Inhibition radioimmunoassays with blood group A-related oligosaccharides have been used to investigate the specificities of six monoclonal anti-A antibodies, three of which had been intentionally generated by immunization of mice with blood group A erythrocytes and A-active blood group substance, and three were incidentally produced following immunization of mice with human tonsil cell membranes or a human colon cancer cell line. By hemagglutination, these antibodies are highly specific for human blood group A erythrocytes. However, they differ from one another in their reaction patterns with mono- and difucosyl A antigen structures and the corresponding afucosyl sequences on Type 1 and Type 2 backbone structures. The six antibodies, together with four previously characterized anti-A monoclonal antibodies (originally raised against the receptor for epidermal growth factor) have been classified into five groups. The first two groups consist of antibodies with broad specificities for A-related structures. There are five antibodies in the first group (TL5, 29.1, A17/3D1, MH2/6D4, and MH1/5D1) reacting to varying degrees with the mono- and difucosyl A antigen structures on either type of backbone sequence. In the second group are two antibodies (A15/3D4 and A15/3D3) which are difficult to inhibit with the oligosaccharides tested, but they reacted best with monofucosyl A structure on either type of backbone. Each of the remaining three antibodies had a distinct and more restricted reaction pattern, with a specificity for the difucosyl A antigen on both types of backbone (antibody EGR/G49) or the Type 1-based mono- and difucosyl A antigen structures (antibody MAS 016c) or the Type 2-based monofucosyl A antigen structure (antibody 455). The reactions of four of the antibodies with N-acetylgalactosamine or with oligosaccharides containing the afucosyl sequence GalNAc alpha 1-3Gal suggest that they may react with certain glycoconjugates with alpha-N-acetylgalactosaminyl termini ("A-like" structures) that are unrelated to the products of the blood group A gene-specified alpha-N-acetylgalactosaminyl-transferase. Knowledge of the differing reactions of these monoclonal antibodies is important for interpreting their reactions with glycoproteins and glycolipids of diverse origins.     

Analysis,characterization and diagnostic use of circulating filarial antigen in bancroftian filariasis

Sodium dodecyl sulphate-polyacrylamide gel electrophoresis of circulating filarial antigen fraction-2 isolated from plasma of microfilaraemic patients withWuchereria bancrofti infection has shown 21 bands with molecular weights ranging from 12 to 120 kDa. The gel (12 cm) was sliced at an interval of one cm and the eluates of all the gel slicesviz., CFA2-1 to CFA2-12 showed the presence of filarial antigen by sandwich enzyme-linked immunosorbent assay. The low molecular weight circulating filarial antigen fractions were found to share a common epitope withWuchereria bancrofti microfilariae excretory-secretory antigen and urinary filarial antigen. The 3 antigen fractions CFA2-1, CFA2-9 and CFA2-12 showed higher sensitivity in detecting filarial immunoglobulin M antibodies than immunoglobulin G antibodies. However CFA2-9 fraction was found useful in serological differentiation of microfilaraemics from those with disease manifestations when filarial immunoglobulin G antibodies were detected. The antigenic epitope of CFA2-1 appears to be a carbohydrate, whereas CFA2-9 appears to be protein in nature.     

Degradation of human intestinal glycosphingolipids by extracellular glycosidases from mucin-degrading bacteria of the human fecal flora

Certain normal strains of human fecal bacteria are unique in producing extracellular glycosidases that degrade the oligosaccharide chains of gut mucin glycoproteins. We have studied the action of such glycosidases partially purified from the cell-free supernates of five of these strains on intestinal glycosphingolipids isolated from human meconium. The glycolipids were sialosyl-lactosylceramide, lactosylceramide, and fucolipids with A, B, H, Lea, or Leb blood group determinants. In addition to the strain-specific high blood group A-degrading activities (Ruminococcus torques strains VIII-239 and IX-70), B-degrading activity (Ruminococcus AB strain VI-268), and H-degrading activities (all strains) corresponding to alpha 1-3-N-acetylgalactosaminidase, alpha 1-3-galactosidase and alpha 1-2-fucosidase, respectively, all strains also degraded sialosyl-lactosylceramide and Lea and Leb antigenic glycolipids, indicating the presence of alpha 2-3-neuraminidases and alpha 1-4-fucosidases. Enzyme preparations from Bifidobacterium infantis strain VIII-240 and R. torques strain VIII-239 hydrolyzed the Lea active glycolipid directly to lactosylceramide, suggesting the presence of endo-beta 1-3-N-acetylglucosaminidase activities. Similar endo-beta-N-acetylglucosaminidase activities were identified in four of the five enzyme preparations. The enzymes produced by R. AB strain VI-268 lacked this activity as well as beta 1-3-galactosidase, and thus degradation stopped at lactotetraosylceramide. With enzyme preparations from the other strains lactosylceramide was the single major degradation product from complex glycosphingolipids with less than 30% further degradation to glucosylceramide within 48 h. We conclude that glycosidases from mucin-degrading strains of human enteric bacteria degrade oligosaccharide chains of lactoseries fucolipids and gangliosides of intestinal origin primarily to lactosylceramide. Since several genera of enteric bacteria bind preferentially to lactosylceramide in vitro, mucin-degrading strains may have an important ecological role in host-microbial associations in the human gut.     

Properties of monoclonal antibodies specific for determinants of a protein antigen, myoglobin

Monoclonal hybridoma antibodies specific for the protein antigen sperm whale myoglobin were produced using hyperimmune spleen cells from mice with the genetic trait of high responsiveness to myoglobin. Antibodies from the several clones tested were found to produce linear Scatchard plots, as predicted for homogeneous antibodies, and to possess high affinities for the immunogen (KA congruent to 10(9) M-1). None of the monoclonal antibodies tested reacted with either fragment (1-55) or fragment (132-153) of sperm whale myoglobin. Competitive binding assays using human and horse myoglobins suggested that several of these monoclonal antibodies, which can readily distinguish these myoglobins, recognize different antigenic determinants on the myoglobin molecule. Studies using additional myoglobin sequence variants as competitors should be able to more closely define these antigenic determinants.     

Idiotypic replica of an anti-human tumor-associated antigen monoclonal antibody. Analysis of monoclonal Ab1 and Ab3 fine specificity

CaMBr1 is a tissue-specific and tumor-associated saccharidic epitope, defined by mAb MBr1 (Ab1), expressed on glycoconjugates of the human mammary carcinoma cell line MCF-7 and of normal and neoplastic mammary epithelial cells. An anti-anti-idiotypic monoclonal Ab3, 2G-3, identifying a human breast tumor associated antigen, was raised by using as immunogen a mouse anti-idiotypic monoclonal Ab2, A3B10, which behaves as the internal image of CaMBr1. mAb 2G-3, as well as MBr1, defines a saccharidic epitope on glycoconjugates extracted from MCF-7 cells and shows MBr1-like reactivity on normal and neoplastic-tissues. Experimental evidence, however, suggests that the fine immunoreactivity of the two antibodies is not identical, because MBr1 has a preferential reactivity with glycolipids and 2G-3 with glycoproteins. We suggest that a possible biologic explanation for our findings could reside in the nature of the immunogens used to raise the two mAb (glycolipid vs protein "internal image").     

A metastasis-associated antigen is present on a 60 kDa glycoprotein in transitional cell carcinoma of the human urinary bladder

Summary We have previously shown that the degree of expression of Le^x-related carbohydrate epitopes, namely,Lotus tetragonolobus agglutinin (LTA) receptors, SSEA-1 and FH6, correlates with the metastatic potential of transitional cell carcinoma of the human urinary bladder. In an effort to obtain a better reagent with which to detect a metastasis-associated epitope, monoclonal antibodies were produced against LTA receptors from BOY bladder carcinoma cells. One antigen defined by such a monoclonal antibody, MM4, indeed showed better correlation with the metastatic potential of the tumour than did other carbohydrate markers. In the LTA receptors, MM4 antigen was located only on a 60 kDa glycoprotein. In extracts from primary carcinomas and lymph node metastases, the 60 kDa glycoprotein was the principal carrier of MM4 antigen. LTA receptors from these sources were composed of arrays of glycoproteins, while the 60 kDa one was invariably present. Metastasis-associated carbohydrate epitopes on the 60 kDa glycoprotein may promote metastasis by interaction with carbohydrate-recognizing proteins such as selectins on host cells.     

Immunohistochemical localization of the early embryonic antigen (SSEA-1) in postimplantation mouse embryos and fetal and adult tissues

Distribution of the stage-specific embryonic antigen (SSEA-1) was studied in postimplantation murine embryos, fetuses, and adult mice by immunohistochemical techniques. SSEA-1 was also localized on the stem cells of differentiating solid teratocarcinomas and on the surface of core cells of solid embryoid bodies. At the egg cylinder stage the antigen is restricted to embryonic ectoderm and visceral endoderm. During subsequent development SSEA-1 becomes localized to portions of the brain and primordial germ cells. In addition some sites of the urogenital anlage are SSEA-1 positive. In adult mice, the epithelium of the oviduct, the endometrium, and the epididymis are the cells most reactive with the monoclonal antibody to SSEA-1; although some areas of the brain and kidney tubules are weakly positive. Study of this antigenic determinant might disclose some previously unexpected cell lineage relationships and/or might elucidate events necessary for reproduction.