Detection of leishmania antigen in kala azar patients using monoclonal antibodies.

Twenty-one monoclonal antibodies were produced against promastigote antigens of Leishmania donovani. Five monoclonal antibodies (Hyb.17, 6, 5, 4 and 2) identifying molecules associated with various L. donovani antigenic determinants ranging from 42-116 kDa were selected as 'capture antibodies' and compared with specific anti-leishmania antisera for detection of circulating leishmania antigens in kala azar patients' sera in a competitive-enzyme-linked immunosorbent assay system (ELISA). The anti-leishmania antisera could detect circulating antigen in 30% of kala azar cases while out of the five monoclonals, Hyb.17 could effectively detect circulating leishmania antigen in 85.4%. The efficacy of Hyb.6 was however low (31.7%). The antigens recognized by these monoclonal antibodies in the western blot assay could possibly represent the ones circulating in sera of patients suffering from kala azar. A cocktail of these monoclonal antibodies may be more useful than the conventional polyclonal antisera in detection of circulating antigen for clinical diagnosis of kala azar.     

Molecular organization of glutamate-sensitive chemo-stimulated nerve cell membranes. Interaction of monoclonal antibodies with glutamate-binding membrane proteins in the rat brain, human neuroblastoma and molluscan neurons

Hybrid cells obtained by fusion of myeloma PX63-Ag8-653 with immune splenocytes of BALB/c mice were found to produce monoclonal antibodies with a high degree of specificity to rat and human brain. The kinetics of specific IgG binding to purified fractions of glutamate-binding membrane proteins from rat and human brain were analyzed in Scatchard plots. The presence of a single type of binding sites with Kd = 100 nM was demonstrated. The monoclonal antibodies were shown to inhibit the specific binding of tritium-labeled L-glutamate to different brain synaptic membranes. Addition of monoclonal antibodies to the incubation medium induced a modulating effect of physiological responses to L-glutamate in Planorbarius corneus neurons. The possible use of specific antibodies to glutamate-binding proteins as immunochemical markers for the study of glutamate receptor topography on membrane surface was demonstrated with the aid of neuroblastoma cells N18 Tg2a and rat brain tissue slices. An analysis of glutamate receptor binding sites with the use of monoclonal antibodies revealed that these antibodies specifically recognize the active center in the receptor molecules which have identical antigen determinant sites in different biological systems.     

The pharmacological characteristics, immunochemical identification and study of the location of quisqualate receptors in the rat and human brains]

The kinetics of [3H]-L-glutamate binding to brain synaptic membranes (SM) and to glutamate-binding proteins (GBP) was determined with agonist and monoclonal antibodies (MAbs). It was revealed, that rat and human brain GBP have individual protein components with M(r) from 14 to 92 kDa. Quisqualate inhibited [3H]-L-glutamate binding to solubilized and to purified 68 kDa protein component. MAbs have the most activity, and NMDA was failure. It has been shown that 68 kDa component antigen determinants are similar to those of bovine, frog and rat brain synaptic membranes. Anti-GBP monoclonal antibodies blocked functional non-NMDA receptors in isolated frog spinal cord. Immunocytochemistry was done on rat and human brain sections. Distribution of quisqualate receptors was determined with light and electron microscopy. Some properties of vertebrate CNS non-NMDA receptors are discussed.     

A carbohydrate-directed heterobifunctional cross-linking reagent for the synthesis of immunoconjugates

A novel, highly water-soluble, heterobifunctional cross-linking reagent, S-(2-thiopyridyl)-L-cysteine hydrazide (TPCH), was synthesized which contains a hydrazide moiety for coupling to aldehyde groups generated in the carbohydrate residues of antibodies by mild periodate oxidation, and a pyridyl disulfide moiety for coupling to molecules with a free sulfhydryl group. Since the carbohydrate moieties are distal to the antigen binding region of antibodies, derivatization with this cross-linker minimizes impairment of the antigen binding function. Derivatization of the human monoclonal IgM antibody 16-88 against human colon carcinoma cells with as many as 16 TPCH cross-linker molecules did not impair its antigen binding capability. Using mild oxidation conditions for antibody derivatization, sialic acid residues were identified as attachment sites for the cross-linker molecules, since after desialylation of antibody 16-88 by neuraminidase virtually no cross-linker molecules could be incorporated. Comparison of TPCH with S-(2-thiopyridyl)mercaptopropionic acid hydrazide and S-(2-thiopyridyl)-L-cysteine, two related cross-linking reagents, revealed that TPCH is most efficiently incorporated into periodate-treated antibody. Based on the structural differences of the cross-linkers, the more efficient incorporation of TPCH appears to be a function of the presence of a hydrazide moiety with an adjacent amino group. When three to four molecules of pyridyl disulfide-derivatized barley toxin were coupled to TPCH-derivatized antibody 16-88, the antigen binding capability remained uncompromised. In addition, no significant impairment of toxin activity upon coupling to the antibody was observed. Based on these data, TPCH may be very useful for the synthesis of immuno-conjugates with no or only minimal impairment of the antigen binding function.     

Localization Analysis of Heterophilic Antigen Epitopes of H1N1 Influenza Virus Hemagglutinin

Previous studies have indicated that two monoclonal antibodies(mAbs; A1-10 and H1-84) of the hemagglutinin(HA)antigen on the H1 N1 influenza virus cross-react with human brain tissue. It has been proposed that there are heterophilic epitopes between the HA protein and human brain tissue(Guo et al. in Immunobiology 220:941–946, 2015). However,characterisation of the two mAbs recognising the heterophilic epitope on HA has not yet been performed. In the present study, the common antigens of influenza virus HA were confirmed using indirect enzyme-linked immunosorbent assays and analysed with DNAMAN software. The epitopes were localized to nine peptides in the influenza virus HA sequence and the distribution of the peptides in the three-dimensional structure of HA was determined using PyMOL software. Key amino acids and variable sequences of the antibodies were identified using abYsis software. The results demonstrated that there were a number of common antigens among the five influenza viruses studied that were recognised by the mAbs. One of the peptides, P2(LVLWGIHHP191–199), bound both of the mAbs and was located in the head region of HA. The key amino acids of this epitope and the variable regions in the heavy and light chain sequences of the mAbs that recognised the epitope are described. A heterophilic epitope on H1 N1 influenza virus HA was also introduced. The existence of this epitope provides a novel perspective for the occurrence of nervous system diseases that could be caused by influenza virus infection, which might aid in influenza prevention and control.     

Basement membrane proteoglycan in various tissues: characterization using monoclonal antibodies to the Engelbreth-Holm-Swarm mouse tumor low density heparan sulfate proteoglycan

The Engelbreth-Holm-Swarm mouse tumor has been found to produce at least two molecular species of heparan sulfate proteoglycan, a low density one (LD) and a high density one, which differ not only in core proteins but also in glycosaminoglycan structures (Kato, M., Y. Koike, Y. Ito, S. Suzuki, and K. Kimata. 1987. J. Biol. Chem. 262:7180-7188). With aim at investigating their distribution and possible functions in tissues, monoclonal antibodies were produced. Hybridomas obtained by fusion of NS-1 mouse myeloma cells with spleen cells from the rat immunized with a mixture of these proteoglycans were selected by their ability to react with the antigen. Two of them secreted monoclonal antibodies (IgG2a), designated HK-84 and HK-102, that recognize specifically the core protein moiety of LD. Immunofluorescent staining of various tissues (skeletal muscle, cardiac muscle, lung, brain, and kidney) with these monoclonal antibodies has demonstrated that the antigen molecules were present in all basement membranes of these tissues. SDS-PAGE of heparitinase-treated proteoglycan fractions prepared from these tissues and subsequent immunoblotting using these monoclonal antibodies have confirmed that the antigen molecule was LD, and further suggested that there was a tissue-specific variation in the core molecular size. Based on these results, we propose that LD may be an essential component in all basement membranes.     

Identification of proteolysis-resistant fragments carrying P-type antigenic determinants in chordin and immunologically related human brain antigen

An antigen immunologically related to chordin was identified in white and gray matter of large hemispheres of human brain as well as in one of glial tumours. It was shown that human and rabbit brain extract components cross-react with eight monoclonal antibodies directed against chordin-specific epitopes of P-group. Exhaustive proteolysis of giant sturgeon notochord and human brain extracts resulted in fragments interacting with anti-chordin antibodies and eluted in an equal volume during chromatography on TSK HW-40 gel. At the same time, gel electrophoresis performed under denaturing conditions revealed that the mobility of chordin subunits strikingly differs from that of brain antigen immunologically related to chordin. Thus, the cross-reactivity of antichordin antibodies with the human brain extract component is due to the presence in this antigen of a P-type determinant which, after exhaustive proteolysis of both antigens, is detected in structures (presumably, glycopeptides) having an identical molecular mass.     

Identification of Eps15 as antigen recognized by the monoclonal antibodies aa2 and ab52 of the Wuerzburg Hybridoma Library against Drosophila brain

The Wuerzburg Hybridoma Library against the Drosophila brain represents a collection of around 200 monoclonal antibodies that bind to specific structures in the Drosophila brain. Here we describe the immunohistochemical staining patterns, the Western blot signals of one- and two-dimensional electrophoretic separation, and the mass spectrometric characterization of the target protein candidates recognized by the monoclonal antibodies aa2 and ab52 from the library. Analysis of a mutant of a candidate gene identified the Drosophila homolog of the Epidermal growth factor receptor Pathway Substrate clone 15 (Eps15) as the antigen for these two antibodies.     

A double determinant radioimmunoassay Mov2-MOv8 for monitoring ovarian carcinomas: definition of the methodology

A double-determinant radioimmunoassay for the detection of circulating antigens associated with human ovarian carcinoma was developed using two monoclonal antibodies: MOv2 and MOv8 employed respectively as catcher and tracer. The development of the method through three different procedures enabled us to detect the presence of CaMOv2-CaMOv8 carrying molecules in 14 out of 15 ascitic fluids from ovarian carcinoma patients whose tumors were found to be positive with MOv2 and MOv8 monoclonal antibodies by immunofluorescence. Moreover, 13 out of 15 ovarian carcinoma patients presented high levels of antigen in their serum (60-170 Ua/ml). Low levels of antigen were observed in the normal population, the values ranging from 30-40 Ua/ml. However, in 13 out of 100 apparently healthy women high levels of antigen were found in the serum.     

Monoclonal anti-idiotypic antibodies to opioid receptors

Two monoclonal anti-idiotypic antibodies (anti-Id-135 and anti-Id-14, both of the IgM class) which interact with the binding site of opioid receptors were generated. A monoclonal anti-beta-endorphin antibody (3-E7) which displays binding characteristics for opioid ligands similar to opioid receptors served as the antigen (Gramsch, C., Meo, T., Riethmüller, G., and Herz, A., (1983) J. Neurochem. 40, 1220-1226; Meo, T., Gramsch, C., Inan, R., H?llt, V., Weber, E., Herz, A., and Riethmüller, G. (1983) Proc. Natl. Acad. Sci. U.S.A. 80, 4048-4088) and the hybridomas obtained were screened for anti-idiotypic antibodies with Fab fragments of 3-E7. The anti-idiotypes were then screened for opioid binding to rat brain membrane receptors, yielding several positive clones two of which were more intensively studied. Both anti-idiotypic antibodies were about equally potent in displacing the mu- and delta-opioid receptor ligands [3H]dihydromorphine, 125I-labeled beta-endorphin, [D-Ala2, D-Leu5-3H]enkephalin and [3H]naloxone from rat brain membrane opioid receptors; no interaction was observed with the kappa-ligands [3H]ethylketazocine or [3H]bremazocine. The anti-idiotypic antibodies were able to precipitate [3H] diprenorphine binding sites from solubilized opioid receptor preparations. In addition, both antibodies showed opioid antagonistic properties as demonstrated by their abilities to block the inhibitory effect of [D-Ala2, D-Leu5-3H]enkephalin on prostaglandin E1-stimulated cAMP accumulation in NG 108-15 hybrid cells. Our findings demonstrate the successful generation of monoclonal antibodies interacting with membrane-bound and solubilized opioid receptors of the mu- and delta-type.     

The isolation and characteristics of monoclonal antibodies to the HNK-1 antigen of natural killers]

Monoclonal antibodies to the HNK-1 differentiated antigen of natural killer cells have been obtained. A glycoprotein of the white human brain connected with myelin was used as an antigen for immunization of mice. The monoclonal antibodies obtained are shown to reduce the cytotoxic activity of a human blood mononuclear fraction as much as by 65% in relation to the human lymphoblastoma cell culture K-562. Their interaction with the surface antigen of mononuclears was shown by immunofluorescent method. Monoclonal antibodies belong to the class of immunoglobulins M.     

Monoclonal antibodies that target pathological assemblies of Abeta

Amyloid beta (Abeta) immunotherapy for Alzheimer's disease has shown initial success in mouse models of Alzheimer's disease and in human patients. However, because of meningoencephalitis in clinical trials of active vaccination, approaches using therapeutic antibodies may be preferred. As a novel antigen to generate monoclonal antibodies, the current study has used Abeta oligomers (amyloid beta-derived diffusible ligands, ADDLs), pathological assemblies known to accumulate in Alzheimer's disease brain. Clones were selected for the ability to discriminate Alzheimer's disease from control brains in extracts and tissue sections. These antibodies recognized Abeta oligomers and fibrils but not the physiologically prevalent Abeta monomer. Discrimination derived from an epitope found in assemblies of Abeta1-28 and ADDLs but not in other sequences, including Abeta1-40. Immunoneutralization experiments showed that toxicity and attachment of ADDLs to synapses in culture could be prevented. ADDL-induced reactive oxygen species (ROS) generation was also inhibited, establishing this response to be oligomer-dependent. Inhibition occurred whether ADDLs were prepared in vitro or obtained from Alzheimer's disease brain. As conformationally sensitive monoclonal antibodies that selectively immunoneutralize binding and function of pathological Abeta assemblies, these antibodies provide tools by which pathological Abeta assemblies from Alzheimer's disease brain might be isolated and evaluated, as well as offering a valuable prototype for new antibodies useful for Alzheimer's disease therapeutics.     

Antigenic Pattern of Human Brain Glycoproteins as Described by Monoclonal Antibodies

A battery of monoclonal antibodies was raised against a preparation of lentil lectin-binding membrane glycoproteins from human brain. Out of 26 established hybridomas, nine produced antibodies against the human Thy-1 antigen. For the remaining 17 lines, reactivity with at least six other antigens could be identified after immunoprecipitation and immunoblotting. Several of the antigens were di- or trimeric, mainly in the molecular weight range of 60-120 kDa. Two of the antibodies were reactive with high-molecular-weight aggregates and four targets for the antibody reactivity were not identifiable by immunoprecipitation of iodinated antigens. Three of the identified antigens were shown by quantitative enzyme-linked immunosorbent assay tests on various human tissues to be specifically expressed in the brain.     

Characterization of antigens recognized by new monoclonal antibodies raised against culture filtrate proteins of Mycobacterium bovis bacillus Calmette-Guérin

Effective protection against Mycobacterium tuberculosis may be achieved in experimental animals by immunization with proteins secreted by tuberculous bacilli in the extracellular milieu during growth. In this study, monoclonal antibodies were raised against Mycobacterium bovis bacillus Calmette-Guérin (BCG) culture filtrate proteins or live BCG, in an attempt to identify novel mycobacterial secretion antigens: the localization of the antigens recognized by the monoclonal antibodies within the mycobacterial cell was studied and interspecies reactivity was also investigated. The monoclonal antibodies obtained recognized proteins of molecular mass ranging from 5 to 82 kDa, with a prevailing frequency in the 30 kDa region. Three of the monoclonal antibodies recognized proteins present only in culture filtrates, one reacted with a cytoplasmic antigen, while the remaining antibodies recognized components which were mainly associated with the cell wall and the cytoplasmic membrane. The chemical nature and possible identity of the antigens was checked. Three monoclonal antibodies are likely to react with novel mycobacterial antigens of 5, 42 and 82 kDa, respectively.     

Monoclonal antibodies as probes for differentiation and tumor-associated antigens: a Forssman specificity on teratocarcinoma stem cells

A set of monoclonal antibodies derived by fusing P3-NS1/1-Ag4-1 myeloma cells with spleen cells from a rat immunized with mouse spleen were screened for activity against a tumor cell panel. One of these antibodies was found to react only with mouse embryonal carcinoma cells and no other tumor cell type tested, including differentiated derivatives of teratocarcinomas. In the adult mouse, this antigen is expressed by subpopulations of cells in the spleen, bone marrow, lymph node, brain, kidney and testes, although not in liver and thymus. This antigen has a species and tissue distribution consistent with that of Forssman antigen. The molecules which carry this specificity on the embryonal carcinoma cells appear to be glycolipids.     

Triple-site antigen capture ELISA for human myoglobin can be more effective than double-site assay

Using a panel of monoclonal antibodies against human myoglobin (Mb), we have shown that the sensitivity of antigen-capture ELISA can be significantly increased by simultaneous immobilization of two cooperating capture monoclonal antibodies on a solid phase. This method ("triple-site ELISA") uses three monoclonal antibodies to different epitopes of the same antigen (two capture/one tracer) unlike the traditional double-site assay using one capture and one tracer monoclonal antibody. We developed double- and triple-site ELISA for Mb by varying the capture and tracer monoclonal antibodies. Triple-site assays showed 4-6-fold increase in sensitivity compared to the double-site assays. A model for this effect is suggested; according to the model, in triple-site ELISA, high-affinity cyclic configurations can be formed by an antigen, two capture monoclonal antibodies, and the surface of the solid phase.     

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.     

Oligosaccharide-Related Epitope Specific for a Brain-Specific Glycoprotein, 1D4 Antigen

The characteristics of glycosylation of a brain-specific glycoprotein, 1D4 antigen, and the epitope recognized by its monoclonal antibody were studied. Removal of high-mannose and hybrid types of N-linked oligosaccharides by treatment with endoglycosidase H converted the molecular mass of the 1D4 antigen from 89 kDa to 78 kDa, but did not affect its reactivity with the 1D4 monoclonal antibody. Removal of all types of N-linked oligosaccharides by treatment with glycopeptidase F or removal of both N- and O-linked oligosaccharides by chemical treatment caused both reduction of the molecular mass of the antigen to 63 kDa and loss of its reactivity with the monoclonal antibody. These results suggest that the 1D4 monoclonal antibody recognizes a complex-type oligosaccharide-related epitope specific for the 1D4 antigen. Results also showed that N-linked glycosylation was not responsible for the charge heterogeneity of the 1D4 antigen. The oligosaccharide chain-related epitope was detected in rat brain but not in mouse, rabbit, or bovine brain, but the 1D4 antigen was recognized in rat and mouse brains with antiserum (polyclonal antibodies). These findings indicate that the oligosaccharide-related epitope is species specific. Furthermore, results with neuraminidase-treated 1D4 antigen indicated that sialic acids were not involved in the oligosaccharide-related epitope. These findings suggest that the 1D4 antigen may have the oligosaccharide structure specific for rat brain and itself.     

Purification and characterization of a protein antigen (p94) from human brain and its identification in other species.

A protein antigen was chromatographically purified from human brain by its immunoaffinity to 44E3 monoclonal IgG and its chemical nature was investigated. The yield of antigen was estimated at 71%, and a 3160-fold purification was achieved relative to the homogenate. The antigen preparation from brain showed a very high degree of purity when analysed by SDS/polyacrylamide-gel electrophoresis and was composed of a single polypeptide of Mr 94,000. Amino-sugar and neutral-sugar analyses indicated that the protein was not glycosylated. The amino acid composition of the purified protein from brain was compared with that of the analogous protein purified from an acute-lymphoblastic-leukaemic cell line, HOON. The compositions were very similar, suggesting that the two proteins were closely related. Both purified proteins were equivalent in their ability to inhibit the reactivity of monoclonal antibodies 44E3 and 44H4 with leukaemic cells. These two antibodies appear to recognize spatially related, if not identical, epitopes on the same molecule. The antibodies were shown to cross-react with a polypeptide of Mr 94,000 in homogenates of human, bovine and guinea-pig brain white matter. Indirect immunoperoxidase staining of human grey- and white-matter acetone-fixed tissue sections incubated with either antibody indicated that the antigen was present on neuronal and glial cells; the staining was seen as clusters in the cytoplasm, starting at the plasma membrane, but leaving the nucleus unstained. The concentration of the protein in human brain was shown to be similar throughout postnatal development and aging.     

An immunohistochemical analysis of rat hippocampal antigens in early postnatal ontogeny by using monoclonal antibodies]

In order to study the molecular mechanisms of neurogenesis, monoclonal antibodies (MAbs) were produced against antigens of the developing rat hippocampus. MAb 3G7-F8 was used for immunohistochemical localization of the corresponding antigen of paraffin sections of the rat brain at days 0, 5, 14, and 21 of the postnatal development. In the hippocampus of newborn and 5-day-old rats, positive immunostaining was observed in the cytoplasm and proximal segments of processes of neurons located in granular, polymorph, and pyramidal layers, as well as in entorhinal cortex. In granule cell bodies and neurons of entorhinal cortex specific staining decreased by day 14 and disappeared by day 21 after birth, whereas neurons of pyramidal and polymorph layers remained immunopositive. Diffuse specific staining in the cerebellum was observed beginning from day 5 after birth in the Purkinje cell layer. On days 14-21 positive reaction was observed in Purkinje cell bodies and in the layer containing dendrites of Purkinje cells and parallel fibers. External and internal granular layers remained immunonegative. No specific staining was observed in other regions of the brain, as well as in the control slices. These data suggest that the antigen detected by the 3G7-F8 antibody is involved in the formation of the neuronal connections.