Induction of an immune response through the idiotypic network with monoclonal anti-idiotype antibodies in the carcinoembryonic antigen system.

Anti-idiotype antibodies can mimic the conformational epitopes of the original antigen and act as antigen substitutes for vaccination and/or serological purposes. To investigate this possibility concerning the tumor marker carcinoembryonic antigen (CEA), BALB/c mice were immunized with the previously described anti-CEA monoclonal antibody (MAb) 5.D11 (AB1). After cell fusion, 15 stable cloned cell lines secreting anti-Ids (AB2) were obtained. Selected MAbs gave various degrees of inhibition (up to 100%) of the binding of 125I-labeled CEA to MAb 5.D11. Absence of reactivity of anti-Id MAbs with normal mouse IgG was first demonstrated by the fact that anti-Id MAbs were not absorbed by passage through a mouse IgG column, and second because they bound specifically to non-reduced MAb 5.D11 on Western blots. Anti-5.D11 MAbs did not inhibit binding to CEA of MAb 10.B9, another anti-CEA antibody obtained in the same fusion as 5.D11, or that of several anti-CEA MAbs reported in an international workshop, with the exception of two other anti-CEA MAbs, both directed against the GOLD IV epitope. When applied to an Id-anti-Id competitive radioimmunoassay, a sensitivity of 2 ng/ml of CEA was obtained, which is sufficient for monitoring circulating CEA in carcinoma patients. To verify that the anti-Id MAbs have the potential to be used as CEA vaccines, syngeneic BALB/c mice were immunized with these MAbs (AB2). Sera from immunized mice were demonstrated to contain AB3 antibodies recognizing the original antigen, CEA, both in enzyme immunoassay and by immunoperoxidase staining of human colon carcinoma. These results open the perspective of vaccination against colorectal carcinoma through the use of anti-idiotype antibodies as antigen substitutes.     

Endocytosis of antigen, anti-idiotype, and anti-immunoglobulin antibodies and receptor re-expression by murine B cells

The endocytosis of Ag mediated by membrane-associated Ig (mIg) molecules has been spectrophotometrically monitored using a cell line (2C3) specific for the hapten phthalate (Xmp) and employing conjugates of Xmp and horseradish peroxidase (HRP) as the labeled ligand. Approximately 50% of both Xmp-HRP, or the larger ligand, Xmp-keyhole limpet hemocyanin-HRP, are internalized rapidly, reaching an initial plateau by 30 min. The rate of endocytosis of anti-idiotype-HRP is similar to the rates that were observed for the hapten-bearing ligands, while a slower rate of endocytosis of anti-Ig-HRP was observed. The percent of ligand bound that is internalized and the rate of endocytosis appear to be largely independent of the size and amount of ligand bound per cell. However, mIg-mediated endocytosis is markedly reduced when mIg-ligand complexes are more extensively cross-linked by the binding of a second antibody. In addition to the initial rapid phase of endocytosis, there is a prolonged phase during which more of the bound ligand is internalized, and up to 90% of the internalized ligand is degraded. Re-expression of Ag-binding receptors by the 2C3 cells is independent of new protein synthesis and is accomplished in part by the translocation of a presynthesized pool of mIg molecules from the cytoplasm to the plasma membrane of the cell. The kinetics of endocytosis of HRP-labeled anti-Ig antibodies by BALB/c splenic B-lymphocytes and other B-lymphocyte cell lines is very similar to the endocytosis of Ag and anti-idiotype observed with the 2C3 cell line. Light and electron microscopy are also performed to visually confirm that the HRP-labeled ligands are being internalized and to determine the percentage of cells involved in this process. Finally it was determined that the transmembrane and cytoplasmic domains of the mIg molecules are required for endocytosis since the secreted form of the molecule (which lacks these domains) fails to mediate the internalization of bound ligand.     

Northern hybridization analysis of VH gene expression in murine monoclonal antibodies directed to cancer-associated ganglioside antigens having various sialic acid linkages

The expression of the VH genes in 46 murine hybridoma cells that secrete mAb directed to the cancer-associated carbohydrate Ag, especially acidic glycolipids such as gangliosides and sulfated glycoplipids, was analyzed by Northern hybridization of poly(A)+ RNA of hybridoma with cDNA probes for nine VH gene families. Different hybridomas tended to express VH genes of the same family when the cognate Ag had the same or similar carbohydrate structures; i.e., the VH genes of the J558 family (group 1) were preferentially expressed in the mAb directed to various gangliosides that have NeuAc alpha (or NeuGc alpha) 2-3 and/or 2-8 linkage (71%), the most common linkage of sialic acid residues in the gangliosides of higher animals, and the hybridomas directed to sulfated glycolipids also expressed mainly the VH genes of the J558 family (80%). In contrast, the five mAb directed to various gangliosides with NeuAc alpha 2-6 linkage were exclusively encoded by the VH genes of Q52 family (group 2, 100%), and three antibodies directed to gangliosides with a NeuAc alpha 2-9 linkage all expressed genes of J606 family (group 6, 100%). The VH family usage was largely correlated with the linkage of sialic acid residues in the cognate carbohydrate Ag, but was not correlated at all with the difference in the fine specificities toward the core neutral carbohydrate chain, to which the sialic acid residues were attached. These findings suggest that the VH gene family in these anticarbohydrate antibodies is selected, depending primarily on the linkage of the sialic acid residues in carbohydrate Ag; these residues form the immunodominant sugar residue in the respective antigenic determinant.     

Blockade of Fc receptor-mediated binding to U-937 cells by murine monoclonal antibodies directed against a variety of surface antigens

The effect of murine IgG hybridoma antibodies directed against leukocyte antigens on the Fc receptor function of human cells was studied. For this purpose, the specific binding of 125I-labeled monomeric human IgG1 to a macrophage-like cell-line (U-937) was quantitated before and after incubation in the presence of murine monoclonal hybridoma antibodies. Four monoclonal hybridoma antibodies (A1G3, 23D6, 4F2, and 3A 10), each of which binds to different antigens on the surface of U-937 cells, rapidly and potently inhibited the specific binding of labeled IgG1 to these cells. Inasmuch as inhibition was mediated only by IgG antibodies with an intact Fc fragment and antibody activity against surface antigens found on U-937, inhibition appears to have resulted from the formation of a three-component complex composed of antibody bound by its Fab portion to antigen and by its Fc fragment to a Fc receptor. Equilibrium binding studies performed on treated cells confirmed that reduced Fc receptor-mediated binding was due to a reduction in the number of available receptors. Binding studies employing double isotope labeling methods demonstrated that about 0.5 to 1.0 Fc receptor was blocked for each molecule of intact antibody bound to a U-937 cell. Using several techniques, it was shown that most of the monoclonal antibody bound to cells and the Fc receptors blocked by antibody remained on the cell surface despite incubation at 37 degrees C for 3 hr. Thus, the loss of receptor function observed in these experiments was almost exclusively due to reversible receptor blockade rather than receptor internalization or degradation. The antibodies identified in these studies also markedly inhibited Fc receptors on one other human cell line (HL-60) as well as those on normal human peripheral blood monocytes.     

Human monoclonal antibodies to a genus-specific chlamydial antigen, produced by EBV-transformed B cells

Stable B cell lines producing human monoclonal antibodies to Chlamydia were established from salpingitis patients in the early convalescence phase. The antibody-producing cells were immortalized by Epstein Barr virus (EBV) transformation. Specific antibody-secreting clones were enriched by a stepwise microtiter plate cloning procedure. The selected B cell clones showed stable antibody production for more than 1 yr in continuous culture. Serologic specificity was demonstrated by micro-immunofluorescence (micro-IF) tests against a panel of Chlamydia reference strains. The antibodies were of the IgG1 subclass, and complement fixation could be demonstrated for one clone. There was no cross-reactivity against a large number of other bacteria. The monoclonal antibodies are directed against a common genus-specific surface antigen of the Chlamydia organism. Infected McCoy cells showed a brilliant, punctuated fluorescence surrounded by an inclusion membrane. Compared with conventional antisera, the monoclonal antibodies showed a clearer fluorescence pattern with very low background.     

Molecular recognition of a peptide mimic of the Lewis Y antigen by an anti-Lewis Y antibody

Peptides as mimics of carbohydrates display a distinct advantage in vaccine design because of ease of synthesis and their inherent T cell-dependent nature as immunogens. While peptides that mimic carbohydrates have been described, it is not clear how they do so. To further our insight into structural relationships between peptide-mimics and carbohydrate structures, we have analyzed a potential recognition scheme between the murine monoclonal antibody, B3, directed against the tumor-associated antigen Lewis Y oligosaccharide and a peptide identified from phage display screening with B3. The Lewis Y core antigen is a difucosylated structure consisting of four hexose units. The B3 antibody binds to the peptide sequence APWLYGPA in which the putative sequence APWLY is critical for binding to the antibody. Not having experimental structural information for B3, the crystal structure of another anti-Lewis Y antibody, BR96, solved in complex with a nonoate methyl ester Lewis Y tetrasaccharide, provides a molecular basis for LeY antigen recognition and specificity, and how this binding relates to peptide binding. As a guide to place the APWLY motif in the B3 combining site, a fragment library was searched for analogous compounds that have the potential to bind to B3. Our modeling study shows that the B3-peptide complex shares similar recognition features for the difucosylated type 2 lactoseries' structure. This analysis provides a molecular perspective for peptide mimicry of a carbohydrate epitope. © 1998 John Wiley & Sons, Ltd.     

A murine monoclonal antibody directed against a yeast cell wall glycoprotein antigen of the yeast genus Saccharomyces

Abstract Murine monoclonal antibodies (mAbs) were selected against a cell wall glycoprotein of Saccharomyces cerevisiae . One of the mAbs (92-276/018) specifically identified S. cerevisiae and the sibling species S. paradoxus, S. pastorianus and S. bayanus in immunofluorescence studies and immunoblot analyses, while no other yeast genera except Saccharomyces were recognized. Further analysis indicated that the mAb 92-276/018 reacts with an epitope in the carbohydrate chain of the cell wall glycoproteins.     

The epitope of mouse embryonic antigen(s) recognized by monoclonal antibody TEC-02 is a carbohydrate carried by high-molecular-weight glycoconjugates

The expression and properties of mouse embryonic antigens, recognized by monoclonal antibody TEC-02, were analyzed in teratocarcinoma-derived cell lines. TEC-2 antigens were found in the majority of the parietal endoderm cells PYS-2 and in a fraction of cultured embryonal carcinoma cells but not in other cell lines tested. During the course of retinoic acid-induced differentiation of embryonal carcinoma cells F9, the expression of TEC-2 was transiently increased. Immunolabeling of extracts from F9 and PYS-2 cells separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed that TEC-2 antigens are polydisperse glycoconjugates of high molecular weight (mostly greater than 100,000). The TEC-2 epitope was shown to be carbohydrate which in F9 cells might be attached to the same carrier as another developmentally regulated carbohydrate epitope TEC-1. The TEC-2 antigens, isolated by indirect immunoprecipitation, were degraded by extensive pronase digestion or mild alkaline treatment to mostly large products. Immunostaining of glycolipid standards suggested that TEC-2 epitope involves the GalNAc beta 1----4Gal beta 1----4R sequence. Combined data indicate that TEC-2 is a new developmentally regulated carbohydrate epitope carried in embryonal carcinoma cells predominantly on glycoprotein-bound large carbohydrates.     

Expression of the carbohydrate tumour marker Sialyl Lewis A, Sialyl Lewis X, Lewis Y and Thomsen-Friedenreich antigen in normal squamous epithelium of the uterine cervix, cervical dysplasia and cervical cancer

The carbohydrate molecules Sialyl Lewis X (SLeX), Sialyl Lewis A (SLeA), Lewis Y (LeY) and Thomsen-Friedenreich antigen (TF) are known to mediate the adhesion between tumor cells and endothelium. They are used as serum markers in diagnosis and treatment in a broad spectrum of human carcinomas, but their expression profile and role in the development of cervical cancer remains unclear. The aim of this study was to investigate the expression of SLeX, SLeA, LeY and TF in normal cervical squamous epithelium, cervical dysplasia and cervical cancer. Slides of paraffin-embedded tissue were fixed and incubated with monoclonal antibodies against SLeX, SLeA, LeY and TF. Immunohistochemical staining was evaluated by using a semi-quantitative score (IRS Score). We found a significant difference of SLeA expression in invasive cervical cancer compared to normal epithelium (p=0.006) and all grades of dysplasia (p=0.002). The expression of SLeX in normal epithelium was less intense than in carcinoma in situ (p=0.036). Staining for LeY showed the weakest results of the investigated markers. Significant differences were found when normal epithelium was compared to CIN I (p=0.011), to CIN II (p=0.013) and to invasive cervical cancer (p=0.005). For TF, significant differences were found in normal epithelium compared to CIN I (p=0.011), CIN II (p=0.013) and compared to invasive cervical cancer (p=0.005). This is the first study on the expression of SLeA, SLeX, LeY and TF in normal cervical endothelium, cervical dysplasia, carcinoma in situ and invasive cervical cancer. Further studies and higher numbers are desirable.     

Immunohistochemical distribution of the antigenic determinants detected by monoclonal antibodies to carcinoembryonic antigen

By using four distinct monoclonal antibodies to CEA, the molecular profile of which was clarified in our accompanying companion paper, immunohistochemical distribution of the antigenic determinants on both cancerous and noncancerous tissues as well as fetal tissues was studied with the use of the immunoperoxidase method. All of the monoclonal antibodies recognize different antigenic determinants on the tissue section. None of the antibodies stained granulocytes in the peripheral blood or in the normal liver tissues tested. Three of our monoclonal antibodies stained columnar epithelial cells in morphologically normal colonic mucosa; however, monoclonal antibody YK024 did not stain them. This antibody was also found to be unreactive with intestinal metaplasia lesions of the stomach, but reacted with a 16-wk-old fetal stomach as well as with cancerous parts of the colon and of the stomach. Moreover, it was found that this monoclonal antibody mainly reacted with moderately or poorly differentiated adenocarcinoma lesions of the colon and the stomach. Periodic acid treatment in this study, together with trypsin treatment on the antigen as described in our accompanying companion paper, may suggest that this antibody recognizes the carbohydrate antigenic determinant in nature.     

Macrophage activation factor from EL-4, a murine T-cell line: antigenic characterization by hamster monoclonal antibodies to murine interferon-gamma

A cloned variant of the EL-4 murine T-cell line treated with phorbol myristate acetate (PMA) releases a factor that activates macrophages for nonspecific tumor cytotoxicity. This macrophage activation factor (MAF) is both physicochemically (Mr 25,000; pH 2 stable) and biologically different from interferon-gamma (IFN-gamma). However, EL-4 MAF may represent a breakdown product or otherwise altered fragment of IFN-gamma. We examined this possibility with a unique pair of hamster monoclonal antibodies against different epitopes of murine IFN-gamma. Both antibodies inhibited IFN-gamma-induced fibroblast antiviral activity; H21 but not H1 antibody also inhibited lymphokine (LK)-induced macrophage-mediated tumor cytotoxicity. Neither antibody, however, had any effect on the EL-4 MAF throughout a broad dose response. Moreover, passage through a H21 immunoaffinity chromatography column or addition of staphylococcal protein A and antibody completely inhibited LK-induced macrophage tumoricidal activity but did not affect the activity in EL-4 MAF. Identical effects in both fluid and solid phase were observed with polyclonal rabbit antisera to murine IFN-gamma. Results with all of these antibodies strongly suggest that the EL-4 MAF and murine IFN-gamma are antigenically distinct.     

Modulation of the murine immune response to streptococcal group A carbohydrate by immunization with monoclonal anti-idiotope

Using monoclonal anti-idiotopes with previously defined specificities for the variable (V) domain of HGAC 39, a monoclonal antibody against streptococcal group A carbohydrate (GAC), we have studied the effect of anti-idiotope on an anticarbohydrate immune response. Anti-IdI-3a and anti-IdI-3b are anti-idiotopes which recognize binding site-associated determinants, whereas anti-IdX recognizes a framework-associated determinant on the HGAC 39 V kappa domain. Each of three anti-idiotopes elicited a specific idiotope response, as measured by inhibition radioimmunoassay, in A/J and C57BL/6J mice. A single immunization with conjugated anti-IdI-3a elicited an idiotope(+), GAC-binding(+) response in C57BL/6J and (BALB/c X CBA/N)F1 male mice, but not in A/J or (CBA/N X BALB/c)F1 male, X-linked immunodeficient mice. When C57BL/6J mice immunized initially with anti-idiotope were further treated with group A vaccine, those receiving anti-IdX had the greatest increase in anti-GAC activity. Stimulation of an anticarbohydrate response with anti-idiotope may therefore be enhanced by selecting anti-idiotopes against both binding site- and framework-associated determinants.     

SSEA-1, a stage-specific embryonic antigen of the mouse, is carried by the glycoprotein-bound large carbohydrate in embryonal carcinoma cells

Molecules carrying SSEA-1 were isolated from [3H]galactose-labeled embryonal carcinoma cells by detergent solubilization followed by indirect immunoprecipitation. The antigenic molecules were degraded by extensive pronase digestion or mild alkaline treatment, and the majority of the products thus formed were so large as to be excluded from a column of Sephadex G-50. Therefore, the major carbohydrate constituent of the antigenic molecule was embryoglycan, the glycoprotein-bound large glycan in early embryonic cells. Furthermore, the binding of isolated embryoglycan with anti-SSEA-1 was directly shown by a modified Farr's assay. From these results we concluded that SSEA-1 determinant was carried by the large glycan.     

The production and characterization of monoclonal antibodies to a human colonic antigen associated with ulcerative colitis: cellular localization of the antigen by using the monoclonal antibody

We detected in human colon extracts a 40 kDa protein(s) that specifically reacts with tissue-bound IgG obtained from the colon of patients with ulcerative colitis or CCA-IgG. Using the hybridoma technology, we developed monoclonal antibodies to this 40 kDa protein. The specific immunoreactivity of one of the monoclonal antibodies (7E12H12, IgM isotype) against the 40 kDa protein was demonstrated both by ELISA and by immunotransblot. Competitive binding experiments showed that CCA-IgG inhibits the binding of 7E12H12 to the 40 kDa protein, suggesting the recognition of common epitope(s) on the 40 kDa protein by the monoclonal antibody and CCA-IgG. 7E12H12 was used to determine cellular localization of the 40 kDa protein. Biopsy tissue specimens from colon, esophagus, stomach, duodenum, jejunum, ileum, liver, pancreas, lungs, kidneys, salivary, and mammary glands were obtained. Tissue specimens were fixed in 4% paraformaldehyde or in 10% formalin. Sections were sequentially incubated with the hybridoma supernatant, biotinylated anti-mouse IgM, avidin-biotin-peroxidase complex, and 3,3'-diaminobenzidine. An unrelated hybridoma supernatant was used as control. The monoclonal antibody exclusively recognized colonic epithelial cells both in the crypt and on the luminal surface. Immunoreactivity was present on the plasma membrane chiefly along the basolateral areas of the cells. Plasma membrane localization of the 40 kDa protein was confirmed by immunoelectron microscopy. All colonic mucosal biopsy specimens from both adult and fetal colon reacted with the monoclonal antibody. None of the biopsy specimens from stomach, duodenum, jejunum, ileum, liver, pancreas, or non-gastrointestinal tissue reacted with the antibody, confirming the organ specificity of the 40 kDa protein. The interaction between this colonic epithelial membrane protein and the CCA-IgG may play an important role in the pathogenesis of ulcerative colitis.     

Protective activity of monoclonal antibodies to genome-derived neisserial antigen 1870, a Neisseria meningitidis candidate vaccine

Genome-derived neisserial Ag (GNA) 1870 is a meningococcal vaccine candidate that can be subdivided into three variants based on amino acid sequence variability. Variant group 1 accounts for approximately 60% of disease-producing group B isolates. The Ag went unrecognized until its discovery by genome mining because it is expressed in low copy number by most strains. To investigate the relationship between Ab binding to GNA1870 and complement-mediated protective functions, we prepared a panel of four murine IgG mAbs against rGNA1870 (variant 1) and evaluated their activity against nine genetically diverse encapsulated Neisseria meningitidis strains expressing subvariants of variant 1 GNA1870. Based on flow cytometry with live encapsulated bacteria, surface accessibility of the epitopes recognized by the mAbs appeared to be low in most strains. Yet mAb concentrations <1 to 5 micro g/ml were sufficient to elicit bactericidal activity with human complement and/or activate C3b deposition on the bacterial surface. Certain combinations of mAbs were highly bactericidal against strains that were resistant to bactericidal activity of the respective individual mAbs. The mAbs conferred passive protection against bacteremia in infant rats challenged by strains resistant to bacteriolysis, and the protective activity paralleled the ability of the mAb to activate C3b deposition. Thus, despite low GNA1870 surface exposure, anti-GNA1870 variant 1 Abs are bactericidal and/or elicit C3b deposition and confer protection against bacteremia caused by encapsulated N. meningitidis strains expressing GNA1870 subvariant 1 proteins. The data support GNA1870 as a promising vaccine candidate for prevention of meningococcal group B disease caused by GNA1870 variant 1 strains.     

Immunocytological localization of the HNK-1 carbohydrate in murine cerebellum,hippocampus and spinal cord using monoclonal antibodies with different epitope specificities

The HNK-1 carbohydrate, an unusual 3′-sulfated glucuronic acid epitope characteristic of many neural recognition molecules, serves as a ligand in neural cell interactions and is differentially expressed in the quadriceps and saphenous branches of the femoral nerve in the PNS of adult mice. Based on these observations, we investigated the possibility that the HNK-1 carbohydrate may be differentially distributed in neurons and fiber tracts also in the CNS thereby contributing to different targeting and guidance mechanisms. We have used antibodies with different HNK-1 epitope specificities to probe for subtle differences in expression patterns. In the adult mouse cerebellum the HNK-1 carbohydrate is detectable in stripe-like compartments in the molecular and Purkinje cell layers, whereas N-CAM and its associated α2,8 polysialic acid does not show this compartmentation. In the adult hippocampus, the HNK-1 carbohydrate localizes to perineuronal nets of inhibitory interneurons and marks the inner third of the molecular layer of the dentate gyrus. In the adult spinal cord, HNK-1 labeling is most pronounced in gray matter areas. White matter enriched regions show differential labeling with regard to fiber tracts and antibody specificity. Whereas the different antibodies do not show differences in staining in the cerebellum and the hippocampus, they show differences in staining pattern of fiber tracts and motoneurons in the spinal cord. The HNK-1 expression pattern also differed in the adult spinal cord from that observed at embryonic day 14 and postnatal day 14. Our observations suggest a functional role in the specification of functionally discrete compartments in different areas of the CNS and during development.     

A series of human erythrocyte glycosphingolipids reacting to the monoclonal antibody directed to a developmentally regulated antigen SSEA-1

A series of glycolipid antigens reacting with the monoclonal antibody directed to the stage-specific embryonic antigen 1 was isolated and characterized from group O human erythrocyte membranes. A ceramide heptasaccharide (Structure 1), ceramide nonasaccharide (Structure 2), and ceramide decasaccharide (Structure 3) have been characterized (formula, see text) The main feature of this glycolipid series is its long core sugar chain with a nonbranched repeating N-acetyllactosamine (norpolylactosamine). This characteristic is in contrast to that of co-existing H-active glycolipid series in which the longer core structures are branched type repeating N-acetyllactosamine (isopolylactosamine). The reactivity of these glycolipids to monoclonal anti-stage-specific embryonic antigen 1 antibody varied proportionately to the length of their core sugar chains. A possible significance of these glycolipids as developmentally regulated antigens and as cancer-associated antigens was discussed.     

Stimulus-response coupling in human platelets activated by monoclonal antibodies to the CD9 antigen, a 24 kDa surface-membrane glycoprotein.

The CD9 molecule is a 24 kDa surface-membrane glycoprotein present on platelets and a variety of haematopoetic and non-haematopoetic tissues. In the present study we utilized specific inhibitors of thromboxane A2 (TxA2) formation (aspirin), protein kinase C [H-7 [1-(5-isoquinolinesulphonyl)-2-methylpiperazine]] and autocrine stimulation by secreted ADP (apyrase) to modify platelet activation by a monoclonal antibody ALB-6 to the CD9 antigen. This activation is only partially inhibited by aspirin alone but, in combination with either H-7 or apyrase, more than 50% inhibition of platelet aggregation and secretion was observed. This combination of inhibitors was also required to inhibit effectively the phosphorylation of myosin light chain and the 47 kDa substrate of protein kinase C. Intracellular Ca2+ flux monitored by the fluorescent dye fura-2 showed that this was almost completely mediated by the aspirin-sensitive TxA2 pathway. We suggest that the aspirin-insensitive pathway is primarily mediated by phospholipase C formation of diacylglycerol to activate protein kinase C. The inhibition by apyrase suggests a strong dependency on autocrine stimulation by secreted ADP to fully activate both phospholipase C and express fibrinogen-binding sites mediating platelet aggregation. This alternate pathway of phospholipase C activation by ALB-6 may be mediated by cytoplasmic alkalinization [monitored by SNARF-1 (5'(6')-carboxy-10-bismethylamino-3-hydroxy-spiro-[7H- benzo[c]xanthine-1',7(3H)-isobenzofuran]-3'-one) fluorescence of the dye]. Both activation pathways are dependent on intact antibodies, since F(ab')2 fragments of SYB-1, a monoclonal antibody against the CD9 antigen with activation characteristics identical with those of ALB-6, do not elicit activation. Besides thrombin, collagen is another physiological agonist shown to induce aspirin-insensitive activation. Similarities to ALB-6 in collagen sensitivity to apyrase in combination with aspirin inhibitors were noted with respect to aggregation and secretion, as well as a complete block of Ca2+ flux by aspirin. However, it is unlikely that collagen activation is mediated by the CD9 antigen, since SYB-1 F(ab')2 fragments had no effect on collagen activation and aspirin also completely blocked the alkalinization response to collagen, in contrast with ALB-6.     

Properties of monoclonal antibodies to the genus-specific antigen of Chlamydia and their use for antigen detection by reverse passive haemagglutination

The chlamydial genus-specific antigen was extracted with phenol/chloroform/petroleum ether (PCP) from preparations of Chlamydia trachomatis and C. psittaci, and quantities measured using an assay for lipopolysaccharide (LPS). The LPS from C. trachomatis contained 2.2% (w/w) of ketodeoxyoctanoic acid. Five IgG monoclonal antibodies reacted in an ELISA with LPS from both species, the antigen being periodate-sensitive and heat-resistant, confirming that all antibodies were against the genus-specific antigen. All the antibodies bound to the PCP extract of C. trachomatis on an immunoblot, at a position corresponding to the periodate-Schiff-stained bands of both C. trachomatis extract and Salmonella Re-LPS. When linked to trypsin-treated sheep erthrocytes and used in reverse passive haemagglutination tests, all antibodies gave indicator cells capable of detecting chlamydial LPS or crude preparations of chlamydiae grown in McCoy cells, the sensitivity varying with the antibody used. The antibodies varied in IgG subclass (either IgG2a or IgG3), and in ability to precipitate in immunodiffusion tests. Two antibodies cross-reacted with one strain of Acinetobacter in ELISA and with Salmonella Re-LPS in both ELISA and immunodiffusion tests. The other three did not react in ELISA with Acinetobacter strains or Salmonella Re-LPS, and none of the five reacted with LPS of E. coli or Pseudomonas morsprunorum.