Bacterial surface antigen-specific monoclonal antibodies used to detect beer spoilage pediococci.

Fourteen monoclonal antibodies (Mabs) were isolated that react with surface antigens of Pediococcus beer spoilage organisms, including P. damnosus, P. pentosaceous, P. acidilactici, and unspeciated isolates. Immunoblotting, enzyme immunoassays (EIAs) of protease- and neuraminidase-treated surface antigen extracts, carbohydrate competition EIAs, and cardiolipin EIAs were used to characterize the bacterial antigens involved in Mab binding. Antigen stability in situ was tested by protease treatment or surface antigen extraction of washed bacteria. In most cases, the Mabs bind to Pediococcus surface antigens that appear to be covalently bound cell wall polymers resistant to alteration or removal from the bacterial surface. These bacterial surface antigen reactive Mabs show good potential for rapid, sensitive, and specific immunoassay detection of Pediococcus beer spoilage organisms.     

Latex-based thin-layer immunoaffinity chromatography for quantitation of protein analytes.

A rapid immunochromatographic method for qualitative and quantitative analysis of protein antigens is described. The method is based on the "sandwich" assay format using monoclonal antibodies (Mabs) of two distinct specificities. Mabs of one specificity are covalently immobilized to a defined detection zone on a porous membrane while Mabs of the other specificity are covalently coupled to blue latex particles which serve as a label. The sample is mixed with the Mab-coated particles and allowed to react. The mixture is then passed along a porous membrane by capillary action past the Mabs in the detection zone, which will bind the particles which have antigen bound to their surface, giving a blue color within this detection zone with an intensity logarithmetrically proportional to the antigen concentration in the sample. Analysis is complete in less than 10 min, requires a minimum amount of sample (4 microliters), and has a detection limit below the nanomolar range for the antigen we studied, human chorionic gonadotropin.     

Brewing spoilage Lactobacilli detected using monoclonal antibodies to bacterial surface antigens.

A panel of thirteen monoclonal antibodies (Mabs) was assembled that reacts with surface antigens on eight of eleven Lactobacillus brewing spoilage organisms, including one or more of L. brevis, L. buchneri, L. casei-alactosus, L. plantarum, or unspeciated isolate(s). Immunoblotting was done to identify the antigens involved in Mab binding. Antigen stability in situ was tested by protease treatment and by surface antigen extraction of washed bacteria. Protease susceptibility of extracted surface antigens was also examined. In most cases, Lactobacillus surface antigens detected by the Mabs appear to be noncovalently bound proteins readily altered or removed from the bacterium by various environmental conditions. This research identifies brewing conditions that need to be tested to ascertain whether bacterial surface antigen-reactive Mabs can be used for the rapid, sensitive, and specific detection of Lactobacillus brewing spoilage organisms.     

Production of murine monoclonal antibodies to the major axial filament polypeptide of Treponema pallidum

A suitable immunization protocol for the stimulation of a murine antibody response to the axial filament polypeptides of Treponema pallidum was established. A range of monoclonal antibodies (Mabs) specific for different epitopes of the major axial filament polypeptide (37 kDa) was generated which demonstrated diversity in their ability to react with other treponemal species. Immunogold electron microscopy located the 37 kDa antigen on the surface of the axial filament structure. The early appearance of specific antibody to this polypeptide in infected man and rabbit indicates that such Mabs are potentially useful for the diagnosis of early syphilis.     

Epitopic analysis of monoclonal antibodies based on countercurrent isotachophoresis on nitrocellulose membranes

A variant of the counterflow isotachophoresis on nitrocellulose membranes (NCM) was applied for the analysis of the epitope specificity of monoclonal antibodies (Mabs). Different Mabs against mouse and human alpha-fetoprotein were fixed on the membrane and the immunoreagents were transferred consequently to these dots by the electroendo-osmotic flow. The epitope specificity of the Mabs was estimated by the competition for the homologous antigen between the Mab added to the antigen and the one fixed on the membrane.     

Analyses of epididymal sperm surface antigens by monoclonal antibodies against hamster spermatozoa

BALB/c mice were immunized with spermatozoa from cauda epididymides of hamsters and the immune spleen cells were fused with mouse myeloma cells (P3U1). Seven hybridomas (GHS-1,-2,-3,-4,-5,-6, and -7) that produced monoclonal antibodies (Mabs) binding to the epididymal spermatozoa were established. Three Mabs (GHS-3,-4, and -6) were IgM and the other four were IgG1. All Mabs reacted to hamster spermatozoa from cauda epididymides but none of the Mabs except GHS-5 and -7 reacted to spermatozoa in testis. GHS-5 and -7 Mabs bound to the acrosome region of spermatozoa in both testis and epididymis. The antigens corresponding to GHS-2, -4, and -6 Mabs appeared to be excreted from epithelial cells of caput epididymis, while those to GHS-1 and -3 Mabs seemed to be produced in cauda epididymis. Both groups of the antigens bound to the surface of spermatozoa during their epididymal transit. Immunoblotting analyses of epididymal fluid showed that the antigen epitopes corresponding to GHS-1,-2,-3,-4, and -6 Mabs were distributed to multiple components with different molecular weights ranging from over 100 to 25 kd. The distribution patterns of the epitopes corresponding to GHS-1 and -3 Mabs and GHS-2,-4, and -6 Mabs were very similar, respectively, but each group pattern was quite different from each other. GHS-5 Mab reacted to a component of sperm extract with a molecular weight of around 94 kd, while GHS-7 Mab failed to recognize any components transblotted.     

Monoclonal antibodies directed against surface-associated polypeptides of Treponema pallidum define a biologically active antigen

Murine monoclonal antibodies (Mabs) were raised against two outer-membrane-associated polypeptides of Treponema pallidum (47 and 44 kDa). Three Mabs against each polypeptide were investigated further and only those directed against the 44 kDa polypeptide were demonstrated to have immobilizing activity. The specificity of the Mabs for T. pallidum was determined by Western blotting procedures and the surface association of the antigens was inferred by immunogold electron microscopy. The clear distinction between these two polypeptides in their biological activity could help to explain the pathobiology of syphilis infections as the 47 kDa antigen has been shown to be associated with the outer membrane of this organism. Inactivity of such a surface-located protein in antibody-mediated anti-treponemal mechanisms could account for the observed ability of this organism to survive in the face of strong antibody responses in infection.     

Light-optical and ultrastructural immunohistochemistry of antigen H-4, a common marker of epithelial cells]

Epitope localization reacting with mice monoclonal antibodies (Mabs) H 4 was investigated using the specimen of epithelium of skin, human uterine cervix as well as in the culture of epithelium cells of guinea-pig duct deferent. Mice monoclonal antibodies against antigen H 4 obtained by the hybridoma method after immunization of mice with rat colon epithelium cytoskeletal fractions were used. Mabs H 4 were shown to react with antigen of intermediate filaments of all studied normal epithelial, cancer cells as well as culture epithelial cells. Mabs H 4 are supposed to be used as a unique immunohistochemical marker of epithelium cells under normal and malignant growth conditions.     

Anti-human red cell monoclonal antibodies produced by macaque-mouse heterohybridomas.

Eight monoclonal antibodies (Mabs) against human red cells were produced by macaque-mouse heterohybridomas. All Mabs uniformly reacted with all human red blood cells tested, but only some agglutinated the red cells of anthropoid apes occasionally detecting intraspecies polymorphisms. None was reactive with blood of Old and New World monkeys. One of the Mabs recognized the Vc antigen of the chimpanzee V-A-B-D system, the homologue of the human M-N blood group system.     

Screening and characterization of monoclonal antibodies to the surface antigens of Listeria monocytogenes serotype 4b

Aims:  This study aims to develop and characterize monoclonal antibodies (Mabs) with high specificity and affinity for surface antigens of an epidemiologically important serotype 4b of Listeria monocytogenes .
Methods and Results:  Hybridoma clones were derived from B lymphocytes of mice immunized with L. monocytogenes serotype 4b and screened against this strain by an enzyme-linked immunosorbent assay. Twenty-nine clones secreting Mabs reactive with formalin-killed bacteria were obtained; 15, 8, 5 and 1 Mabs were immunoglobulin subclasses IgG2a, IgG2b, IgM and IgG1, respectively. Immuofluoresence or immunogold labelling demonstrated all except five IgM and one IgG2a Mabs bound to the surface of a live L. monocytogenes serotype 4b. The majority of the 23 surface-binding Mabs recognized linear epitopes on a 77-kDa protein. These surface-binding Mabs exhibited little or no cross-reactivity with non-4b serotypes (1/2a, 1/2b, 3a, etc.) of L. monocytogenes , five other Listeria species, Escherichia coli O157:H7 and Salmonella enterica serovar Typhimurium.
Conclusions:  The Mabs recognizing a 77-kDa surface protein are novel antibodies with specificity and affinity for L. monocytogenes serotype 4b.
Significance and Impact of the Study:  These anti-77 kDa surface protein Mabs may be explored as reagents for the development of Mabs-based diagnostic immunoassays for L. monocytogenes serotype 4b strains.     

Expression of human apolipoprotein A-I epitopes in high density lipoproteins and in serum

The expression and immunoreactivity of apolipoprotein (apo) A-I epitopes in high density lipoproteins (HDL) and serum has been investigated using two series of monoclonal antibodies (Mabs) which have been described elsewhere. Series 1 Mabs, identified as 3D4, 6B8, and 5G6, were obtained by immunization and screening with apoA-I, and series 2 Mabs, identified as 2F1, 4H1, 3G10, 4F7, and 5F6, were obtained by immunization and screening with HDL. These Mabs were characterized with respect to their binding to HDL particles in solution. In series 2 Mabs, 2F1, 3G10, and 4F7, which react with apoA-I CNBr-fragments 1 and 2, could precipitate 100% of 125I-labeled HDL, while 4H1 and 5F6, which react with CNBr fragments 1 and 3, precipitated 90 and 60% of 125I-labeled HDL, respectively. Therefore, three distinct epitopes mapped to CNBr fragments 1 and 2 have been identified which are expressed on all HDL particles, indicating that several antigenic do mains exist on apoA-I which have the same conformation on all apoA-I-containing lipoproteins. The Mabs reacting at these sites have significantly higher affinity constants for 125I-labeled HDL than those that failed to precipitate 100% of HDL. This suggests that the high affinity Mabs react with apoA-I epitopes that are both expressed on all lipoproteins and located in thermo-dynamically stable regions of the molecules. All Mabs from series 1 precipitated 35% or less of 125I-labeled HDL prepared from freshly collected serum, but the proportion of HDL particles expressing the epitopes for these Mabs doubled or more upon serum storage at 4 degrees C. The time course of the alteration of apoA-I antigen in vitro was measured in three normolipemic donors. Upon storage of serum at 4 degrees C, the immunoreactivity of series 2 Mabs (4H1, 3G10) remained unchanged. However, the immunoreactivity of series 1 Mab 3D4 increased linearly at 38%/day for 4 weeks and by 12 weeks had plateaued at about 280-fold compared to day 1. The immunoreactivity of other series 1 Mabs also increased significantly with time in vitro. This process was partially inhibited in the presence of EDTA and by addition of antioxidants, however, the exact molecular nature of this in vitro alteration of apoA-I antigen was not identified.     

A tightly bound chromosome antigen is detected by monoclonal antibodies in a ring-like structure on human centromeres

Monoclonal antibodies (Mabs) were raised against isolated Chinese hamster protein-depleted chromosomes Chromosome scaffolds) in order to probe for components involved in the higher-order structure of mammalian chromosomes. One of the Mabs detected a ring-like structure in metaphase at the centromere, which is conserved between Chinese hamster and human cells. Additionally, the Mab stained the centrioles in interphase cells in these two species. The antigen was enriched in chromosomal protein preparations by comparison with nuclear protein samples, and has an apparent Mr=170,000. The centromere antigen remained present in chromosome scaffold preparations, indicating that it was tightly associated with DNA. The antigen was distinct in its centromeric localisation from any of the centromere antigens reported to date. A possible role of the antigen in stabilising the centromere, by holding the sister chromatids together until their separation at the metaphase-anaphase transition is presented.     

Immunological and biochemical analysis of glycosylated surface antigens and lipophosphoglycan of Tritrichomonas foetus

Immunoaffinity-purified TF1.17 adhesin antigen was compared biochemically and antigenically to Tritrichomonas foetus (TF) lipophosphoglycan (LPG) and a soluble glycosylated antigen (SGA) released from T. foetus and implicated in pathogenesis and immunity. The monoclonal antibodies (Mabs TF1.15 and TF1.17) specific for a glycosylated TF1.17 antigen were previously shown to prevent adhesion of the T. foetus parasites to bovine vaginal epithelial cells and to mediate killing by bovine complement. SGA was isolated from T. foetus-conditioned buffer and purified by octyl-Sepharose hydrophobic column chromatography. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of SGA showed a major SGA1 component (approximately 190 kDa) and a minor SGA2 component (50-70 kDa), which migrated close to TF-LPG and TF1.17. The carbohydrate and lipid compositional analyses of affinity-purified TF1.17 and SGA2 by high-performance liquid chromatography (HPLC) and gas-liquid chromatography revealed the presence of monosaccharides and fatty acids as found in TF-LPG. All antigens contained terminal fucose as determined by alpha-fucosidase digestion followed by HPLC. ELISA and western blots were used to further characterize these glycosylated antigens and to analyze their relationships. The Mabs TF1.15 and TF1.17 reacted very strongly to TF-LPG and SGA2. as well as TF1.17 antigen, indicating that these molecules share common epitopes. These Mabs did not react with the SGA1 component either in ELISA and western blot analyses. Also, the monosaccharide composition of SGA1 was very different from the other three antigen, suggesting SGA1 was different from LPG, SGA2 and TF1.17. Although LPG reacted with Mabs to native TF1.17 antigen, LPG did not induce an immune response in cattle with the same route and adjuvant used to produce strong antibody responses to the native antigen. The latter response suggests that the tightly bound peptide present in the immunoaffinity-purified antigen is necessary for induction of a response to (an) epitope(s) in TF-LPG and TF1.17. Furthermore, vaginal fluid from T. foetus-infected heifers and serum from a cow with a T. foetus-associated pyometra recognized both TF1.17 and TF-LPG in western blots. These results suggest that T. foetus LPG and SGA2 are related to TF1.17 antigen, which was previously shown to play an important role in the pathogenesis and host response in bovine trichomoniasis.     

Anti-human red cell monoclonal antibodies produced by macaque-mouse heterohybridomas: their reactivity with human and nonhuman primate erythrocytes.

Eighteen monoclonal antibodies (Mabs) against human red blood cells (RBCs) produced by macaque mouse heterobybridomas gave uniformly positive reactions with all human samples except for some with particular null phenotypes. Based on reactions with latter cells, the human antigenic targets of 11 antibodies could be identified: six were specific for glycophorin-related antigens (Wr(b), En(a), Ge4), and each of the live remaining antibodies showed one of the following specificities: CD55, CD44, CD59, Kell, and Rh proteins. Four Mabs recognized the Vc antigen of the chimpanzee V-A-B-D system. Six macaque Mabs detected polymorphisms in chimpanzee, gorilla, orangutan, and gibbon that did not correspond to any known blood group in these animals, while other Mabs gave monomorphic reactions with ape RBCs. The reagents produced by macaque hybridomas are useful tools not only for human blood grouping tests, but also for tracing the relationships among blood group antigens of man and anthropoid apes.     

Analysis of bispecific monoclonal antibody binding to immobilized antigens using an optical biosensor

The interaction between two different monoclonal antibodies (Mabs) and their corresponding bispecific antibodies (Babs) with immobilized antigens was investigated using an optical biosensor (IAsys). The analyzed panel of affinity-purified antibodies included two parental Mabs (one of which was specific to human IgG (hIgG), and another one to horseradish peroxidase (HRP)), as well as Babs derived thereof (anti-hIgG/HRP). Babs resulting from the fusion of parental hybridomas bear two antigen-binding sites toward two different antigens and thus may interact with immobilized antigen through only one antigen-binding site (monovalently). Using an IAsys biosensor this study shows that the bivalent binding of Mabs predominates over the monovalent binding with immobilized HRP, whereas anti-hIgG parental Mabs were bound monovalently to the immobilized hIgG. The observed equilibrium association constant (K _ass) values obtained in our last work [1] by solid-phase radioimmunoassay are consistent with those constants obtained by IAsys. The K _ass of anti-HRP Mabs was about 50 times higher than that of anti-HRP shoulder of Babs. The dissociation rate constant (k _diss) for anti-HRP shoulder of Babs was 21 times higher than k _diss for anti-HRP Mabs. The comparison of the kinetic parameters for bivalent anti-HRP Mabs and Babs derived from anti-Mb/HRP and anti-hIgG/HRP, allowed to calculate that 95% of bound anti-HRP Mabs are bivalently linked with immobilized HRP, whereas only 5% of bound anti-HRP Mabs are monovalently linked. In general, the data obtained indicate that Babs bearing an enzyme-binding site may not be efficiently used instead of traditional antibody–enzyme conjugates in the case of binding of bivalent Mabs.     

Determination and analysis of antigenic epitopes of prostate specific antigen (PSA) and human glandular kallikrein 2 (hK2) using synthetic peptides and computer modeling.

Prostate specific antigen (PSA) and human glandular kallikrein 2 (hK2), produced essentially by the prostate gland, are 237-amino acid monomeric proteins, with 79% identity in primary structure. Twenty-five anti-PSA monoclonal antibodies (Mabs) were studied for binding to a large array of synthetic linear peptides selected from computer models of PSA and hK2, as well as to biotinylated peptides covering the entire PSA sequence. Sixteen of the Mabs were bound to linear peptides forming four independent binding regions (I-IV). Binding region I was localized to amino acid residues 1-13 (identical sequence for PSA and hK2), II (a and b) was localized to residues 53-64, III (a and b) was localized to residues 80-91 (= kallikrein loop), and IV was localized to residues 151-164. Mabs binding to regions I and IIa were reactive with free PSA, PSA-ACT complex, and with hK2; Mabs binding to regions IIb, IIIa, and IV were reactive with free PSA and PSA-ACT complex, but unreactive with hK2; Mabs binding to region IIIb detected free PSA only. All Mabs tested (n = 7) specific for free PSA reacted with kallikrein loop (binding region IIIb). The presence of Mabs interacting with binding region I did not inhibit the catalytic activity of PSA, whereas Mabs interacting with other binding regions inhibited the catalysis. Theoretical model structures of PSA, hK2, and the PSA-ACT complex were combined with the presented data to suggest an overall orientation of PSA with regard to ACT.     

The binding of bispecific monoclonal antibodies to the solid phase-adsorbed antigens

The ability of bispecific antibodies (Babs) formed by fusion of hybridomas and parent monoclonal antibodies (Mabs) to interact with the solid phase-adsorbed antigens was studied. Mabs specific to the three different antigens [horseradish peroxidase (HRP), human IgG (hIgG), and human myoglobin (Mb)] as well as Babs with the double specificity [antimyoglobin/antiperoxidase (anti-Mb/HRP) and anti-hIgG/antiperoxidase (anti-hIgG/HRP)] were used. It was shown by radioimmunological and immunoenzyme assays that parent Mabs bind to solid phase-adsorbed antigens considerably more effectively than Babs. The observed equilibrium binding constant (Ka) of antiperoxidase parental Mabs to immobilized HRP is 21 and 38 times higher than Ka for Babs binding sites (anti-Mb/HRP and anti-hIgG/HRP, respectively) to peroxidase. It was calculated that about 90-95% of all bound parental antiperoxidase Mabs were associated with immobilized HRP bivalently, and only about 5-10% were bound monovalently. On the contrary, parental Mabs against hIgG bind to the sorbed antigen essentially only monovalently. It was also shown that the avidity of anti-Mb/HRP Babs significantly increased when two antigens, Mb and HRP, were simultaneously adsorbed on the solid phase. These data imply that Babs bearing an enzyme-binding site (for example, binding to HRP) cannot be more effective than standard conjugates (e.g., enzyme-conjugated antibodies) in heterogeneous noncompetitive immunoassays.     

Endospore heterogeneity in Pasteuria penetrans related to adhesion to plant-parasitic nematodes

Hybridoma cell lines were screened by indirect immunofluorescence for the secretion of monoclonal antibodies (Mabs) to the surface of a population of endospores of the obligate nematode hyperparasite Pasteuria penetrans. Whereas polyclonal antibodies from test sera samples recognized 100% of the spores, five selected Mabs recognized different proportions of the spores ranging from 10 to 90% showing that the spore population was highly heterogeneous. Probing spores adhering to different nematode populations with the five Mabs showed that different subpopulations of the spores were specific to different nematode populations indicating cuticular heterogeneity among the nematode populations. Each of the five Mabs recognized a far larger proportion of the spores adhering to the nematode population on which the Pasteuria population was originally cultured than of those adhering to other populations.     

Plasmodium vivax: malarial proteins associated with the membrane-bound caveola-vesicle complexes and cytoplasmic cleft structures of infected erythrocytes

The identification of antigens of parasite origin associated with the altered membrane of Plasmodium vivax-infected erythrocytes was undertaken in this study. The 125I-lactoperoxidase catalyzed surface radiolabeling of trophozoite-infected erythrocytes revealed new bands of 95 and 70 kDa not labeled in normal erythrocytes. Erythrocyte membrane-enriched preparations from [35S]methionine biosynthetically labeled-infected erythrocytes also indicated that in addition to bands at 95 and 70 kDa, several other parasite proteins were possibly membrane associated. Five monoclonal antibodies (Mabs) reactive with P. vivax produced an immunofluorescent pattern of numerous small dots scattered over the entire infected erythrocyte. This pattern mimics that of Schuffner's stippling; small red dots seen in Giemsa-stained P. vivax-infected erythrocytes, which represent accumulations of dye in caveola-vesicle complexes (CVC). Four of the monoclonal antibodies immunoprecipitated a Triton X-100 detergent-insoluble 95-kDa parasite protein which was localized by immunofluorescent assay and immunoelectron microscopy exclusively to the CVC. Two of these Mabs were immunofluorescence reactive with the surface of intact infected erythrocytes in suspension. The fifth Mab, which also localized exclusively to the CVC structures, immunoprecipitated a Triton X-100 extractable protein of 70 kDa. Two other monoclonal antibodies reacted exclusively with the numerous membranous cleft structures found in the cytoplasm of infected erythrocytes. This cleft-associated parasite antigen was 28 kDa in size. Some of these Mabs recognize epitopes and produce similar IFA patterns on erythrocytes infected with P. cynomolgi, P. knowlesi, and P. ovale parasites, but not with P. falciparum- or P. brasilianum-infected erythrocytes.     

Identification of mutans streptococci with monoclonal antibodies

Mutans streptococci have been correlated with dental caries. The identification of the species within this group is still a problem. The characterization of a monoclonal antibody (Mab) OMVU10 against S. sobrinus as well as the isolation and characterization of Mabs against S. mutans (OMVU30 and OMVU31), S. cricetus (OMVU40) and mutans streptococci (OMVU2) is described. The epitope specificity for OMVU10 and OMVU31 was cell-wall antigen B in both cases although both Mabs recognized different species-specific epitopes. OMVU40 was cross reactive with Steptococcus sanguis taxon 3. All other Mabs were specific for one species. Using these Mabs, a key to the identification of mutans streptococci is developed. This key was tested for 85 wild type isolates of mutans streptococci and proved to be highly reliable and easy to perform.