Schistosoma mansoni: identification, characterization, and purification of the spine glycoprotein by monoclonal antibody

A tegumental surface membrane antigen of Schistosoma mansoni has been identified by use of a monoclonal antibody. The binding of ¹²⁵I-labeled monoclonal antibody showed that proteins sharing antigenic determinants recognized by this monoclonal antibody were present in cercariae and worms of both sexes, but were absent from schistosome egg extract. The protein molecules expressing these antigenic determinants differed in molecular weight: 120,000 in cercaria and 170,000 in male and female worms. The cercarial glycoprotein immunoprecipitated with the monoclonal antibody was also immunoprecipited by sera of infected humans, as shown by two-dimensional gel electrophoresis and tryptic peptide mapping. The location of the glycoprotein identified by the monoclonal antibody was restricted to the spines of the schistosomular surface, the tubercle-associated spines of the male worm, and the dorsal spines of the female worm. The spine glycoprotein was readily purified by immunoaffinity chromatography. These findings are discussed in relation to parasite development and the relevance of this antibody for serodiagnosis and immunoprophylaxis.     

Mapping of segmental antigenic determinants on structurally related variant surface glycoproteins of Trypanosoma brucei

To study common and variant specific antigenic determinants on variant surface glycoproteins from Trypanosoma brucei, we have selected four serologically cross-reacting variant populations. Monoclonal antibodies were raised against the purified variant surface glycoproteins from each variant trypanosome population. Six monoclonal antibodies bind to segmental epitopes and one binds to a topographically assembled epitope. Amino acid compositions of these variant surface glycoproteins reveal striking conservation of certain residues including cysteine and charged amino acids. We also find that all seven monoclonal antibodies used in this study bind to protein determinants not exposed on the surface of the living trypanosome. Only one monoclonal antibody exhibits homologous specificity, while the remainder display cross-reactivity for three or all four variant surface glycoproteins. In addition, polyacrylamide gel electrophoresis peptide mapping and Western blots probed with each monoclonal antibody reveal significant peptide homologies. Furthermore, two pairs of monoclonal antibodies recognize two epitopes that are possibly immunodominant. The significance of these findings is discussed in terms of the structural similarities and differences among variant surface glycoproteins.     

Immunologic characterization and molecular profile of carcinoembryonic antigen detected by monoclonal antibodies

Four distinct monoclonal antibodies, which reacted with CEA preparations but not with nonspecific cross-reacting antigen or with nonspecific cross-reacting antigen 2, were established. Except for monoclonal antibody AS001 , all of these monoclonal antibodies immunoprecipitated molecular forms of 200K and 180K daltons that are not bridged by disulfide bonds. Immunodepletion experiments and sodium dodecyl sulfate polyacrylamide gel electrophoresis analysis revealed that these monoclonal antibodies recognized the same antigenic structure when 125I-CEA preparation was used. Monoclonal antibody AS001 is of particular interest, because this antibody reacted only with a 200K dalton molecule which is a part of the molecules recognized by the other three monoclonal antibodies. The rosette inhibition assay and the immunoprecipitation experiments suggest that each monoclonal antibody recognizes a different antigenic determinant. The antigenic determinants recognized by monoclonal antibodies YK013 and AS001 may be peptides in nature, whereas the determinants recognized by antibodies YK024 or AS005 might be carbohydrate. The radioimmunoassay with monoclonal antibody AS001 was established, and the results clearly indicate that the incidence of positivity for the sera from digestive tract cancer patients and from lung cancer patients obtained by monoclonal antibody AS001 was higher than that obtained by the polyclonal antibody. Monoclonal antibody AS001 was able to detect the corresponding antigen in the sera, which the polyclonal antibody failed to detect. This study therefore suggests that monoclonal antibodies may enhance and improve the diagnostic value in cancer patients with undetectable or lower CEA levels detected by conventional anti-CEA antibodies.     

Monoclonal antibodies to rabbit and pig zonae pellucidae distinguish species-specific and shared antigenic determinants

Monoclonal antibodies against rabbit or porcine zonae pellucidae (ZP) demonstrate species-specific and shared antigenic determinants. In addition, these antibodies are used to characterize the biochemical nature of these determinants. All of six monoclonal antibodies developed against porcine ZP react with porcine but not with rabbit ZP. Only one of seven monoclonal antibodies developed against rabbit ZP cross-reacts with porcine ZP. None of these antibodies recognized antigens associated with other tissues tested. High-resolution, two-dimensional polyacrylamide gel electrophoresis (2D-PAGE) followed by immunoblotting was used to demonstrate that the cross-reactive antibody recognizes an antigenic determinant which is associated with the major low molecular weight glycoprotein of both the pig and rabbit ZP. Since this antibody recognizes all charge species of this glycoprotein, it is apparent that the antigenic determinant recognized by this antibody involves protein. Further studies demonstrate that proteolytic digestion of ZP will destroy the antigenic determinant while glycosidic digestion of ZP has no effect on antibody binding. Although polyclonal antibodies to this glycoprotein inhibit sperm from binding to the zona pellucida, this monoclonal antibody does not affect sperm binding. None of the species-specific antibodies recognize ZP glycoproteins following 2D-PAGE. This is a property typical of antibodies directed against conformational antigenic determinants. The presence of common as well as unique zona antigenic determinants could explain why ZP proteins induce heteroantibodies which result in infertility while alloimmunization has no effect on fertility.     

Characterization of developmentally regulated epitopes of Schistosoma mansoni egg glycoprotein antigens

The chemical and antigenic composition of a major group of concanavalin A-binding glycoprotein antigens of Schistosoma mansoni eggs was examined by the use of monoclonal antibodies. The individual glycoproteins of this group each displayed a very wide range of apparent m.w. and had isoelectric points of less than 5 when analyzed by two-dimensional sodium dodecyl sulfate polyacrylamide gel electrophoresis. These glycoproteins could be chemically labeled with 125Iodine by two different methods and biosynthetically labeled with 35S-methionine during in vitro synthesis by isolated eggs. By using five monoclonal antibodies, the individual egg glycoproteins were shown to share several antigenic determinants when analyzed by radioimmunoprecipitation and solid-phase binding assays. These epitopes were present in a high level, and the degree of expression appeared to be developmentally regulated. In addition, Schistosoma haematobium and Schistosoma japonicum eggs contained antigenically related glycoprotein antigens. Preliminary evidence suggests that the epitopes involve carbohydrate moieties.     

Biochemical characterization of H9/25, an allospecificity encoded by the Ly-6 region

H9/25, an allospecificity encoded by the Ly-6 region, was biochemically characterized. It was sensitive to pepsin and heat treatment, but was resistant to periodate oxidation. Its apparent molecular weight was approximately 12 000 daltons by gel filtration. The antigenic molecule was partially purified by gel filtration and antibody affinity chromatography. The partially purified antigen molecule was radioiodinated, immunoprecipitated with monoclonal antibody H9/25, and analyzed by SDS-polyacrylamide gel electrophoresis. The autoradiograph showed the molecular weight of H9/25 to be approximately 15000 daltons under reducing conditions. These results indicate that H9/25 is a protein with a single polypeptide chain of 12000–15000 daltons molecular weight, and the antigenic specificity is carried by a peptide but not a carbohydrate moiety.     

Use of specific monoclonal and polyclonal antibodies to define distinct antigens of the porcine zonae pellucidae

Specific monoclonal and polyclonal antibodies to solubilized porcine and rabbit zonae pellucidae (ZP) and to purified ZP glycoprotein components have been used to define distinct ZP antigens. These studies demonstrate that the individual ZP glycoproteins contain both unique and shared determinants. One monoclonal antibody (R5) has been used to demonstrate that the major porcine ZP glycoprotein, which has multiple charge species ranging in molecular weight from 42,000 to 120,000, is composed of two distinct polypeptide antigens unique to this glycoprotein class. These distinct antigens can be differentiated by immunoblotting after high-resolution two-dimensional polyacrylamide gel electrophoretic separation of trypsin-treated or deglycosylated glycoproteins. The two polypeptides also differ in their staining properties with the silver-based color stain and in their susceptibility to proteolysis. A second monoclonal antibody (PSI) has been used to define a determinant shared by all three major porcine ZP glycoprotein classes. This determinant appears to involve either a carbohydrate moiety or some other molecular feature related to post-translational modification, since the antibody recognizes only the acidic species of each glycoprotein class, and does not recognize the deglycosylated forms of the proteins. This work demonstrates that there are both unique and shared antigenic determinants present in the individual components of the ZP, but that the immunodominant determinants appear to be unique to each glycoprotein.     

Varicella-zoster viral glycoproteins analyzed with monoclonal antibodies.

Monoclonal antibodies to varicella-zoster virus were used to study viral glycoproteins by immunoprecipitation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Based on the viral glycoproteins immunoprecipitated, the five monoclonal antibodies fell into three groups. Two antibodies, 4B7 and 8G9 (group 1), immunoprecipitated a single glycoprotein of molecular weight (MW) 118,000 (118K glycoprotein) and had high neutralizing activity in the absence of complement. One antibody, 3C7 (group 2), which lacked neutralizing activity, immunoprecipitated two glycoproteins of MWs 120,000 and 118,000 and a glycoprotein giving a diffuse band in the region of 64,000 to 65,000. Pulse-chase experiments and experiments with monensin as an inhibitor of glycosylation suggested that the 120K polypeptide was derived by glycosylation of the 118K polypeptide and that a 43K antigen was processed into the 64 to 65K glycoprotein. Two antibodies, 3G8 and 4E6 (group 3), both had neutralizing activity only in the presence of complement, and both immunoprecipitated at least five polypeptides, with MWs ranging from 50,000 to 90,000. Antibody 3G8 was isotype immunoglobulin G2b (IgG2b), and its immunoprecipitating activity was stronger than that of 4E6, which was isotype IgG1. Pulse-chase experiments with antibody 3G8 showed that lower-MW glycopeptides chased into three polypeptides of MWs 90,000, 80,000, and 60,000 by 24 h. Immunoprecipitation experiments with antibody 3G8 on infected cells treated with glycosylation inhibitors 2-deoxyglucose, monensin, and tunicamycin, suggested that a prominent, early-appearing 70K polypeptide may have been processed into the glycoproteins of higher MWs and that the 60K polypeptide may have been derived by glycosylation of polypeptides of lower MWs.     

Characterization of cell surface glycoproteins recognized by the granulocyte-specific monoclonal antibody, AHN-1

Major surface-iodinated proteins of Mr 105,000 and 145,000 of normal human neutrophils are immunoprecipitated by a number of monoclonal antibodies (AHN-1 to AHN-6), which react specifically with granulocytes among peripheral blood cells and selectively inhibit phagocytosis. These proteins, and an Mr 60,000 component, were purified by monoclonal antibody affinity chromatography, molecular sieve chromatography, and preparative polyacrylamide gel electrophoresis. Each of the three purified proteins was immunoprecipitated by all six antibodies. Nevertheless, tryptic peptide maps of the three proteins indicated that each was a distinct component. AHN-1 to AHN-6 also bound to glycolipid fractions of human neutrophils, and the binding of each antibody to human neutrophils was blocked by the carbohydrate sequences, lacto-N-fucopentaose III. The data indicate that a predominant antigenic determinant of human neutrophils is lacto-N-fucopentaose III, or related carbohydrates, present on three distinct proteins as well as glycolipids. At least one of these molecules appears to be involved in the process of phagocytosis.     

Immunochemical characterization of related families of glycoproteins in desmosomes

Using several biochemical approaches, we have characterized the relatedness of the various glycoprotein components of the bovine epidermal desomosome. Sodium dodecyl sulfate-polyacrylamide gel electrophoretic analysis of purified epidermal desmosomes reveals 12 proteins, of which 8 are glycosylated. Analysis with monoclonal antibodies indicates that the 8 glycoproteins comprise 3 antigenically distinct protein families. Members of the highest molecular weight glycoprotein family (a triplet of Mr = 150,000) were not distinguishable by partial proteolytic peptide mapping. At least 6 different monoclonal antibodies have been identified that recognize unique antigenic determinants shared by these proteins. Members of a 97,000-118,000-dalton glycoprotein family (about 4 bands) generate very similar but not identical partial proteolytic peptide maps. At least 3 different monoclonal antibodies have been identified that recognize unique antigenic determinants shared by these proteins. A Mr = 22,000 glycoprotein is immunologically unrelated to either of the high molecular weight glycoprotein families. Lectin-binding profiles indicate that within each immunologically related family the glycoproteins are similar in their oligosaccharide composition. Some lectins distinguish among the families. These glycoproteins probably mediate the specific intercellular recognition and adhesive functions of the desmosome.     

The lithium-chloride-soluble cell-wall layers of Chlamydomonas reinhardii contain several immunologically related glycoproteins

Cell-wall glycoproteins of the unicellular green alga Chlamydomonas reinhardii have been purified from LiCl extracts of intact cells by gel exclusion chromatography and preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Antibodies were raised against several polypeptide components isolated from the LiCl extracts. All these antibodies specifically reacted with the cell surface of formaldehyde-fixed cells. They showed cross-reactivity with the different antigens and were also reactive against some other polypeptides present in the LiCl extracts of intact wild-type cells as shown by double-diffusion assays and immunoblot analyses. These antigens were largely missing in LiCl extracts from the cell-wall-deficient mutant CW-15. The pattern of immunologically related cell-wall polypeptides of C. reinhardii varied during the vegetative cell cycle and was found to be also dependent on the growth conditions. Dot-immunobinding assays on chemically modified cell-wall glycoproteins demonstrated differences between the various antibodies with respect to their specificities. Differences were observed especially with respect to their reactivities against chemically deglycosylated cell-wall polypeptides. Chemical deglycosylation generally reduced the binding of the different antibodies indicating that all these antibodies recognize carbohydrate side chains. Only two of these antibody preparations, raised against cell-wall glycoproteins of relative molecular mass 35 and 150 kilodaltons, were found to be strongly reactive against deglycosylated cell-wall polypeptides. When these antibodies were saturated with cell-wall-derived glycopeptides in order to abolish the binding to carbohydrate side chains, they still recognized the same cell-wall polypeptides as did the untreated antibodies. These findings indicate that the cross-reactivity of the different cell-wall polypeptides with the antibodies is not exclusively the consequence of similar glycosylation patterns but is also the result of the presence of similar structures within the non-glycosylated stretches of the polypeptide backbones. Cell walls isolated from growing tobacco pollen tubes contained a single polypeptide component which showed crossreactivity with the antibodies to the cell-wall glycoproteins of C. reinhardii.Abbreviations BSA bovine serum albumin - IgG immunoglobulin G - kDa kilodalton - M_r relative molecular mass - PBS phosphate-buffered saline - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol     

Expression of a T cell receptor-like molecule on normal and malignant murine T cells detected by rat monoclonal antibodies to nonclonotypic determinants

A T cell receptor-like molecule with a dimer structure of 45 kilodaltons (Kd) under reducing and 90 Kd under nonreducing conditions was detected on the surface of two murine T lymphoma lines, EL-4 and MBL-2, by two rat monoclonal antibodies. The two antibodies seemed to react with different determinants on the same molecule. The antibodies did not react with the surface of normal T cells as tested by flow cytometric analysis of cell surface staining. Two-dimensional gel electrophoresis (IEF vs SDS-PAGE) and tryptic peptide analysis revealed the molecule to consist of two chains with different isoelectric points and different tryptic peptides. A conventional antiserum was raised against the heterodimer purified from EL-4 cells. The immune serum did not bind to the surface of normal T cells. However, the immune serum as well as the monoclonal antibodies immunoprecipitated the dimer molecules from detergent-solubilized normal thymocytes and spleen cells. The dimer molecule was detected on both immature and mature thymocytes. These results suggest that the antibodies detect non-clonotypic determinants on a T cell receptor-like protein. The determinants are masked on the surface of normal T cells, whereas they are exposed on the surface of at least two T lymphoma cell lines. Three polypeptides of 30 Kd, 25 Kd, and 15 Kd were also coprecipitated with the heterodimer from MBL-2 cells. These proteins may associate with the heterodimer and may be masking the antigenic determinants on normal T cells. The relationship between the heterodimer molecule described here and the T cell antigen receptor or the human T cell antigen 9.3 is still unknown.     

Coexpression of cancer-associated carbohydrate antigens,Tn and sialyl Tn

The expression of cancer-associated antigens, Tn and sialyl Tn, was examined using monoclonal antibodies, MLS 128 and MLS 102, recognizing these two antigens, respectively. A cell lysate from a human carcinoma cell line, LS 180 cells, was analysed by Western blotting using these two antibodies. Three glycoprotein bands were discernible with each antibody, of which two, corresponding to 250 and 210 kDa, were reactive with both the antibodies. LS 180 cells were metabolically labelled with³H-glucosamine and then the lysate from these cells was applied to two immunoaffinity columns. Sixty-five per cent of the Tn antigenic glycoproteins, based on radioactivity, bound to the MLS 102 affinity column. On the other hand, 45% of the sialyl Tn antigenic glycoproteins bound to the MLS 128 affinity column. These results indicate that some Tn and sialyl Tn antigens were expressed on the same polypeptide chains.The presence of non-sialylated GalNAc residues on the polypeptide chain with many Sia-GalNAc residues appears to be due to the incapability of three consecutive moieties of GalNAc-Ser/Thr to accept sialic acid.Abbreviations PSMF phenylmethylsulfonyl fluoride - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis - GalNAc N-acetylgalactosamine - Sia sialic acid     

Isolation, purification, and amino acid composition of the tunicate hemocyte Thy-1 homolog

A serologic cross-reacting homolog to rodent Thy-1 glycoproteins has been isolated from hemocyte cell surfaces of the advanced invertebrate group of tunicates. The Thy-1.1 cross-reacting antigenic activity was followed during purification by inhibiting the binding of MRC OX7 monoclonal antibody to pure rat brain Thy-1 in a soluble phase radioimmunoassay. After solubilization in deoxycholate, tunicate hemocyte Thy-1.1 antigenic activity was purified by affinity chromatography using an MRC OX7 monoclonal antibody affinity column, followed by gel filtration. A 602-fold enrichment in the Thy-1.1 antigenic activity, with a yield of 55.6% compared to the starting crude membrane fraction, was obtained. The antigenic activity was associated with a single glycoprotein of molecular size of 3.1 nm and molecular weight estimated at 27,000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (15% gels). Amino acid composition of the purified molecule was compared by the S delta Q index of differences in composition to mammalian and non-mammalian Thy-1 glycoproteins, Ig, major histocompatibility complex-encoded polypeptides, beta 2-microglobulin, and other recognition molecules. With this parameter, the tunicate hemocyte Thy-1 homology revealed significant relatedness to avian and mammalian Thy-1 molecules and was interestingly more related to mu chains of primitive vertebrates and to HLA class I and II encoded polypeptides than to Thy-1 molecules of higher vertebrates. Based upon these observations, the tunicate hemocyte Thy-1 homolog seems to represent an ancestral Thy-1 molecule which, in structural terms, may represent an invertebrate member of the Ig superfamily.     

Molecular characterization of Marek's disease herpesvirus B antigen.

The Marek's disease herpesvirus (MDHV) B antigen (MDHV-B) was identified and molecularly characterized as a set of three glycoproteins of 100,000, 60,000, and 49,000 apparent molecular weight (gp100, gp60, and gp49, respectively) by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) after immunoprecipitation from [35S]methionine-labeled infected cells by specific rabbit antiserum directed against MDHV-B (R alpha B), as previously determined by immunodiffusion. Further identification was accomplished by blocking this immunoprecipitation with highly purified MDHV-B. The same set of three polypeptides was also immunoprecipitated from [35S]methionine- and 14C-labeled infected cells with two other sera shown to have anti-B activity, i.e., rabbit anti-MDHV-infected-cell plasma membrane (R alpha PM) and immune chicken serum from birds naturally infected with MDHV. The three herpesvirus of turkeys (HVT) B-antigen (HVT-B) glycoproteins immunoprecipitated with all three sera containing anti-B activity were also shown to be identical in size to those of MDHV-B by immunoprecipitation and SDS-PAGE. These data serve to clarify the molecular identification of the polypeptides found in common between MDHV and HVT by linking them to MDHV-B, previously identified only by immunodiffusion, and to a similarly sized set of immunologically related common glycoproteins called gp100, gp60, and gp49, detected with monoclonal antibody by other workers. Tunicamycin inhibition of N-linked glycosylation resulted in either nonglycosylated or O-linked glycosylated putative precursors of MDHV-B and HVT-B with apparent molecular weights of 88,000, called pr88, and 44,000, tentatively called pr44, both immunoprecipitable with all three sera. However, the relationships of these two polypeptides to each other and to the overall precursor-processing relationship of the MDHV-B complex remains to be elucidated. The three fully glycosylated B-antigen polypeptides were not connected by disulfide linkage. Collectively, the data presented here and by others support the conclusion that all three glycoproteins now identified as gp100, gp60, and gp49 have MDHV-B determinants. Finally, detection of the same three polypeptides with well-absorbed R alpha PM, which was directed against purified infected-cell plasma membranes, suggests that at least one component of the B-antigen complex has a plasma membrane location in the infected cell.(ABSTRACT TRUNCATED AT 400 WORDS)     

Cell-surface associated proteins of corneal fibroblasts: dissection with monoclonal antibodies

It is now generally accepted that the cell surface is involved in the interaction of the cells with the extracellular matrix. To identify and characterize cell-surface-associated components of corneal fibroblasts, several monoclonal antibodies were developed. Hybridomas were developed by fusing mouse myeloma cells SP2/OAg14 with spleen cells from mice immunized with membrane fractions of corneal fibroblasts grown in culture. Twenty-five hybridomas secreting monoclonal antibodies to cell-surface components were selected by an enzyme-linked immunosorbent assay using corneal fibroblasts grown in microtiter plates as the substrate. Immunohistochemical staining demonstrated that the antigenic determinants recognized by these antibodies were not present on corneal epithelial cells, but were present on skin fibroblasts. The antigenic determinants recognized by two of these antibodies, designated 10D2 and 716, were matrix components of the corneal stroma. Immunochemical characterization of the antigens was carried out by indirect precipitation of the radioactively labeled cellular proteins with the monoclonal antibodies and sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis of the precipitates. Four antibodies were able to precipitate antigens from cell extract in detectable amounts. Antibodies designated 5E2, 9G2, and 10D2 recognized antigens consisting of polypeptides of approximate molecular weights 105K and 110K, while antibody 716 recognized an antigen of 100K molecular weight. However, based on the tissue distribution and cell-surface distribution, these antibodies reacted with different antigenic determinants. The antigen recognized by 716 was also secreted by cells in culture but consisted of 220K and 200K polypeptide chains. It was tentatively identified as cellular fibronectin, based on the reaction of this antigen with polyclonal antibodies to plasma fibronectin.     

Antigenic variants of herpes simplex virus selected with glycoprotein-specific monoclonal antibodies.

Monoclonal antibodies specific for herpes simplex virus type 1 (HSV-1) glycoproteins were used to demonstrate that HSV undergoes mutagen-induced and spontaneous antigenic variation. Hybridomas were produced by polyethylene glycol-mediated fusion of P3-X63-Ag8.653 myeloma cells with spleen cells from BALB/c mice infected with HSV-1 (strain KOS). Hybrid clones were screened for production of HSV-specific neutralizing antibody. The glycoprotein specificities of the antibodies were determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of immunoprecipitates of radiolabeled infected-cell extracts. Seven hybridomas producing antibodies specific for gC, one for gB, and one for gD were characterized. All antibodies neutralized HSV-1 but not HSV-2. Two antibodies, one specific for gB and one specific for gC, were used to select viral variants resistant to neutralization by monoclonal antibody plus complement. Selections were made from untreated and bromodeoxyuridine- and nitrosoguanidine-mutagenized stocks of a plaque-purified isolate of strain KOS. After neutralization with monoclonal antibody plus complement, surviving virus was plaque purified by plating at limiting dilution and tested for resistance to neutralization with the selecting antibody. The frequency of neutralization-resistant antigenic variants selected with monoclonal antibody ranged from 4 X 10(-4) in nonmutagenized stocks to 1 X 10(-2) in mutagenized stocks. Four gC and four gB antigenic variants were isolated. Two variants resistant to neutralization by gC-specific antibodies failed to express gC, accounting for their resistant phenotype. The two other gC antigenic variants and the four gB variants expressed antigenically altered glycoproteins and were designated monoclonal-antibody-resistant, mar, mutants. The two mar C mutants were tested for resistance to neutralization with a panel of seven gC-specific monoclonal antibodies. The resulting patterns of resistance provided evidence for at least two antigenic sites on glycoprotein gC.     

Protective monoclonal antibody against Schistosoma mansoni: antigen isolation, characterization, and suitability for active immunization

Monoclonal antibodies that bind to the surface of developing schistosomula were generated from the spleens of chronically infected mice that were boosted with cercarial glycoproteins. The two most reactive monoclonal antibodies, denoted 152-66-9B and 152-66-1C, were used for identification of surface antigens. The antigen detected by these monoclonal antibodies persisted on the surface of the developing larva for 72 hr posttransformation. This monoclonal antibody effected complement-mediated killing of schistosomula in vitro as efficiently as infected mouse sera. It was also very efficient in inhibiting the infectivity of both cercariae and schistosomula. The antigen reactive with the 152-66-9B monoclonal antibody contains two major polypeptides (45 and 30 KD). These polypeptide chains might have originated from the same protein, because they have the same isoelectric point in two-dimensional gel electrophoresis. Moreover, the affinity-purified antigen migrated as only one protein band of approximately 200 KD in SDS-PAGE in nonreducing conditions. The 9B antigen was isolated, purified, and used for immunization, resulting in an antigen dose-dependent partial protection against S. mansoni infection.     

Antigenic comparison of five species of mammalian zonae pellucidae

A comparison of glycoproteins of the zona pellucida (ZP) of five different mammalian species (cat, dog, rabbit, pig, and rat) has been made using polyclonal and monoclonal antibodies. In an enzyme-linked immunosorbent assay (ELISA), polyclonal antisera against total rabbit and pig ZP recognize their homologous ZP to the greatest extent but also detect crossreactive antigenic determinants in the ZP of all other species tested. Polyclonal antibodies against each of two purified rabbit ZP glycoproteins or one purified pig ZP glycoprotein also show some recognition of heterologous (pig, cat, and dog) ZP, but not rat ZP. Monoclonal antibodies (McR5-rabbit ZP protein determinant; McPSI-determinant associated with post-translational modifications of pig ZP proteins such as carbohydrates) further demonstrate that specific determinants are shared between some but not all of these mammalian species. For example, both of these antibodies recognize distinct determinants which are most abundant in pig and cat ZP. However, McR5 recognizes a determinant on all species of ZP except the rat, while McPSI does not recognize either the rabbit or rat ZP. Collectively, these studies suggest that the molecules of the pig, dog, and cat ZP are more closely related to each other than to those of the rabbit ZP, while there is little similarity with rat ZP molecules. Immunoblot analysis of ZP glycoproteins separated by two-dimensional polyacrylamide gel electrophoresis was used to identify antigenic relationships among four different species. The polyclonal antisera show that all of the major proteins of pig, rabbit, cat, and dog ZP are antigenically related.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of monoclonal antibodies reactive to several biochemically distinct human cytomegalovirus glycoprotein complexes.

Three monoclonal antibodies were characterized by examining their reactivity to human cytomegalovirus (HCMV) glycoproteins under reducing and nonreducing conditions and their reactivity to glycoproteins and disulfide-linked glycoprotein complexes isolated by ion-exchange high-performance liquid chromatography. One monoclonal antibody, 9E10, reacted with glycoprotein complexes which had molecular weights of 93,000 and 450,000 and eluted from the ion-exchange column at 0.3 and 0.9 M NaCl, respectively. All glycoproteins associated in these complexes could be immunoprecipitated under reducing conditions by 9E10, suggesting that they were related to one another. The most abundant glycoproteins immunoprecipitated by 9E10 had molecular weights of 50,000 to 52,000. In contrast to this antibody, two other monoclonal antibodies, 9B7 and 41C2, reacted with glycoprotein complexes which had molecular weights of 130,000 and greater than 200,000 and eluted from the ion-exchange column at 0.6 M NaCl. All glycoproteins associated in these complexes could be immunoprecipitated by 9B7 or 41C2 under reducing conditions, suggesting that they were also related to one another. The most abundant glycoprotein immunoprecipitated by 41C2 or 9B7 had a molecular weight of 93,000. In addition, it was also determined that a 93,000-molecular-weight glycoprotein which was not associated with other glycoproteins by disulfide bonds could not be precipitated by any of the three antibodies, suggesting that it was different from the other glycoproteins. The monoclonal antibodies were also examined for specificity and neutralizing activity. Monoclonal antibodies 41C2 and 9B7 were specific to HCMV as determined by immunofluorescent staining of skin fibroblast cells infected with several different viruses. However, 41C2 did not neutralize Towne strain HCMV, while 9B7 did. The neutralizing activity of 9B7 did require complement. These results suggested that 41C2 and 9B7 reacted with different antigenic sites on the same glycoproteins. Unlike 41C2 and 9B7, monoclonal antibody 9E10 was found to cross-react with adenovirus and herpes simplex virus as determined by immunofluorescent staining of infected skin fibroblast cells. Furthermore, 9E10 neutralized the Towne and Toledo strains of HCMV in the absence of complement.