Hormonal induction of glutamine synthetase in cultures of embryonic retina cells: requirement for neuron-glia contact interactions

Cortisol induces glutamine synthetase (GS) in gliocytes of chick embryo neural retina. Using adherent cultures of retina cells we have demonstrated that responsiveness of the gliocytes to GS induction by the hormone requires contact with neurons. GS is not inducible in high-density cultures depleted of neurons and consisting only of gliocytes. In neuron-containing cultures, induced GS was detected immunohistochemically only in those gliocytes that were closely juxtaposed with clusters of neurons. Unlike the induction of GS, the expression of carbonic anhydrase-C (which does not require cortisol) persisted in these glia cells also in the absence of neurons. The nature and role of glia-neuron interactions in the hormonal induction of GS are briefly discussed.     

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.     

Protein refolding assisted by molecular tube based α-cyclodextrin as an artificial chaperone

In this study, we evaluated, for the first time, the application of molecular tube based alpha-cyclodextrin for improving the refolding yields of two different enzymes: carbonic anhydrase and alkaline phosphatase. Our results indicate that under the optimal developed refolding environments, the denatured carbonic anhydrase and alkaline phosphatase were refolded with a yield of 51 and 61% using 15 and 5 mg/ml of the molecular tube, respectively. Regardless of lower refolding yields compared with liquid-phase artificial chaperone assisted approach, the new technique (solid-phase artificial chaperone assisted refolding) benefits from easier and faster separation of the refolded product from the refolding environment, recycling of the stripping agent, and finally, significantly less environmental effect at the industrial levels. However, further improvements in solid-phase artificial chaperone assisted technique are needed either through synthesizing better stripping agents or by optimizing and defining better refolding environments.     

CA215 and GnRH receptor as targets for cancer therapy

Two monoclonal antibodies (Mabs), RP215 and GHR106, were selected for the preclinical evaluations of anti-cancer drugs targeting various human cancers including those of the ovary, cervix, lung, and liver. Both Mabs were shown to react with pan cancer markers, which are over-expressed on the surface of almost all human cancers. RP215 Mab was shown to react with the carbohydrate-associated epitope(s) of cancer cell-expressed glycoproteins, mainly consisting of immunoglobulin superfamily (IgSF) proteins and mucins, generally known as CA215. GHR106 Mab was generated against the extracellular domain of human GnRH receptor, which is also highly expressed on the cancer cell surface. Preclinical studies were performed to evaluate the efficacy of these two Mabs as anti-cancer drugs for treating human cancers. High tumor specificity of RP215 Mab was demonstrated with immunohistochemical staining studies of various cancer cell lines, as well as normal and cancerous tissue sections. These two Mabs were shown to induce apoptosis as well as complement-dependent cytotoxicity upon treatment to many cultured cancer cells. Significant dose-dependent growth inhibition of tumor cells from several different tissue origins were demonstrated by nude mouse experiments. It was further demonstrated that GHR106 Mab can function as long-acting GnRH analogs in its biological actions. Efforts were made to generate human/mouse chimeric forms of the GHR106 Mab. Based on the results of these preclinical studies, we believe that these two Mabs, in chimeric or humanized forms, can be developed into suitable therapeutic agents for treatment of human cancers as anti-cancer drugs.     

Immunoprotective human monoclonal antibodies against five major serotypes of Pseudomonas aeruginosa

Human monoclonal antibodies (Mabs) against the O antigens of Pseudomonas aeruginosa lipopolysaccharides (LPS) were produced by cell fusion between human tonsillar lymphocytes and P3-X63-Ag8-U1 (P3U1) mouse myeloma cells. To obtain human Mabs efficiently, 6 d culture supernatants of pokeweed-mitogen-stimulated lymphocytes (21 cultures from peripheral blood and 76 from tonsils) were assayed by ELISA. Five tonsillar lymphocytes which produced IgG antibody specific for P. aeruginosa LPS were preselected for fusion. The human Mabs, named P1-1 (IgG2, kappa), P5-1 (IgG2, lambda), P7-1 (IgG2, lambda), P8-1 (IgG2, lambda) and P10-1 (IgG2, kappa), bound with high specificity to Homma standard serotype strains A, E, B, G and I, respectively, and recognized O antigens. Each Mab showed opsonophagocytic killing activity of the corresponding serotype strain. Four of the Mabs caused agglutination at a very low concentration; a rather higher concentration of P7-1 was required for this effect. Although all the Mabs conferred type-specific protection against peritoneal infection, the strongly agglutinating Mabs provided better protection than the moderately agglutinating P7-1. The protective activity of P8-1 was estimated in compromised mice. A low dose (PD50 0.5-0.6 microgram per mouse) of P8-1 prevented subcutaneous infection in burned mice and peritoneal infection in leucopenic mice. All the hybridomas described here could be cultured in serum-free medium, and they have continued to secrete human Mabs for more than 14 months at rates of 10-20 micrograms per 10(6) cells in 24 h. These results suggested that these five human Mabs specific for O antigens might be useful in the prophylaxis and treatment of P. aeruginosa infections.     

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.     

Immunocytochemical detection of the growth-associated protein B-50 by newly characterized monoclonal antibodies in human brain and muscle.

The growth-associated protein B-50 also termed GAP-43, F1, pp46, P-57 and neuromodulin is a nervous tissue-specific protein kinase C (PKC) substrate that is considered to play a major role in neurite formation, regeneration, and neuroplasticity. We describe the isolation of seven mouse monoclonal antibodies (Mabs) directed against B-50. The Mabs are produced against the bovine B-50, selected by ELISA for cross-reactivity with its human counterpart, and evaluated on Western blots in comparison with the well-characterized affinity-purified rabbit polyclonal antibodies to rat-B-50. The Western blots show that the Mabs NM1, NM4, and NM6 recognize specifically the B-50 of bovine, human, and rat brain extract and the purified PKC phosphorylated and unphosphorylated rat B-50 isoforms. The Mabs NM2 and NM3 cross-react with bovine B-50 immunoreactive c-kinase substrate (BICKS), a protein sharing a 17 amino acid sequence homology with B-50. Two Mabs are useful for the detection of B-50 immunoreactivity in formalin-fixed human and rat brain tissues. In human specimen of the hippocampus, a characteristic neuropil distribution of B-50 is detected by the Mabs. In human muscle, Mabs reveal B-50 in nerve bundles and in axons at motor end plates. Thus, these Mabs are useful in investigating the function and localization of the B-50 protein.     

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-human IgG/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 (K _a) of antiperoxidase parental Mabs to immobilized HRP is 21 and 38 times higher than K _afor 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.     

Immunocytochemical detection of the growth-associated protein B-50 by newly characterized monoclonal antibodies in human brain and muscle

The growth-associated protein B-50 also termed GAP-43, F1, pp46, P-57 and neuromodulin is a nervous tissuespecific protein kinase C (PKC) substrate that is considered to play a major role in neurite formation, regeneration, and neuroplasticity. We describe the isolation of seven mouse monoclonal antibodies (Mabs) directed against B-50. The Mabs are produced against the bovine B-50, selected by ELISA for cross-reactivity with its human counterpart, and evaluated on Western blots in comparison with the well-characterized affinity-purified rabbit polyclonal antibodies to rat-B-50. The Western blots show that the Mabs NM1, NM4, and NM6 recognize specifically the B-50 of bovine, human, and rat brain extract and the purified PKC phosphorylated and unphosphorylated rat B-50 isoforms. The Mabs NM2 and NM3 cross-react with bovine B-50 immunoreactive c-kinase substrate (BICKS), a protein sharing a 17 amino acid sequence homology with B-50. Two Mabs are useful for the detection of B-50 immunoreactivity in formalin-fixed human and rat brain tissues. In human specimen of the hippocampus, a characteristic neuropil distribution of B-50 is detected by the Mabs. In human muscle, Mabs reveal B-50 in nerve bundles and in axons at motor end plates. Thus, these Mabs are useful in investigating the function and localization of the B-50 protein.     

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.     

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.     

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.     

Monoclonal antibodies to Rous sarcoma virus pp60src react with enzymatically active cellular pp60src of avian and mammalian origin

The derivation and characterization of 22 hybridoma clones producing monoclonal antibodies (Mabs) specific for the transforming protein of Rous sarcoma virus, pp60src, are described. All Mabs reacted with pp60v-src encoded by Prague, Schmidt-Ruppin, and Bratislava 77 strains of Rous sarcoma virus. Of these Mabs, 10 efficiently immunoprecipitated pp60c-src from chicken embryo cells. Of these 10 Mabs, 2 (GD11 and EB8) readily detected pp60c-src from a variety of rodent and human cultured cells and from rat brain tissue in an in vitro immune complex kinase assay. Mapping experiments have tentatively localized the determinant(s) recognized by GD11 and EB8 to a region of the src protein bounded by amino acid residues 82 to 169, whereas the remaining Mabs appeared to recognize determinants residing within residues 1 to 82 or 169 to 173. Most of the Mabs complexed denatured pp60v-src in a Western immunoblot, and several were used to localize pp60v-src in Rous sarcoma virus-transformed chicken embryo cells by indirect immunofluorescence microscopy.     

Identification of an epitope in the C terminus of normal prion protein whose expression is modulated by binding events in the N terminus

We have characterized the epitopes of a panel of 12 monoclonal antibodies (Mabs) directed to normal human cellular prion protein (PrP(C)) using ELISA and Western blotting of recombinant PrP or synthetic peptide fragments of PrP. The first group of antibodies, which is represented by Mabs 5B2 and 8B4, reacts with PrP(23-145), indicating that the epitopes for these Mabs are located in the 23 to 145 N-terminal region of human PrP. The second group includes Mabs 1A1, 6H3, 7A9, 8C6, 8H4, 9H7 and 2G8. These antibodies bind to epitopes localized within N-terminally truncated recombinant PrP(90-231). Finally, Mabs 5C3, 2C9 and 7A12 recognize both PrP(23-145) and PrP(90-231), suggesting that the epitopes for this group are located in the region encompassing residues 90 to 145. By Western blotting with PepSpot(TM), only three of Mabs studied (5B2, 8B4 and 2G8) bind to linear epitopes that are present in 13-residue long synthetic peptides corresponding to human PrP fragments. The remaining nine Mabs appear to recognize conformational epitopes. Two N terminus-specific Mabs were found to prevent the binding of the C terminus-specific Mab 6H3. This observation suggests that the unstructured N-terminal region may influence the local conformation within the folded C-terminal domain of prion protein.     

Obtaining of monoclonal antibodies to human growth hormone and their characteristics

The aim of present study was to obtain the hybridomas producing monoclonal antibodies against human growth hormone (Mabs hGH), to investigate the properties of the obtained Mabs and the possibility of their application in immunoanalytical systems. Two hybridomas secreting Mabs against hGH and belonging to the IgGI subclass have been obtained. The cross-reactivity of the Mabs with structurally similar to hGH hormones (hGHbio, hPL, hPRL, bGH, bPRL, pPRL) using indirect IFA has been studied. It has been shown that Mabs hGHI and Mabs hGH2 are directed to common specific antigenic determinant i.e. they have the same epitope specificity and don't react with other structurally related hormones, i.-e. this determinant is unique for hGH. The obtained Mabs hGH2 would find application for determination hGH by immunochemical methods in fractions while the hormone isolation from pituitaries and hGH obtained recombinant DNA methodology. The development of immunosorbents on the basis Mabs hGH2 seems to be perspective. Application of this immunosorbent may give possibility to optimize hormone isolation process.     

Rat monoclonal antibodies to human apolipoprotein B: advantages and applications

Eight monoclonal antibodies (Mabs) to human serum low density lipoprotein (LDL) were derived from the fusion of spleen cells, from LOU rats immunized with human LDL, and the rat myeloma line IR983F. These Mabs were characterized in terms of isotype, specificity, and affinity. Competitive experiments indicated that the epitopes that were recognized could be grouped into three patterns depending on their apparent affinity for apoB-containing lipoprotein particles such as LDL, very low density lipoproteins (VLDL), or intermediate density lipoproteins (IDL). Six epitopes have been mapped in relation to elements of the sequence of apolipoprotein B-100 (apoB-100) and some have been assigned to the middle part of the median thrombolytic fragment T3, a region not yet well targeted by mouse Mabs. The presence of lipids for the expression of the epitopes was studied and confirmed a lipid dependence for epitopes that are close to the T2/T3 cleavage site. The capacity of binding to the LDL receptor was also tested; among the Mabs we described, one inhibited the uptake and degradation of LDL to HeLa cells receptor. Finally, some antibodies were able to precipitate LDL in gel.     

Monoclonal antibodies against different epitopes of a 40 Kd capsid protein of infectious bursal disease viruses.

Nine monoclonal antibodies (Mab) against a 40 Kd capsid protein of infectious bursal disease virus (IBDV) strain P3009 were isolated. They were characterized by enzyme-linked immunosorbent assay, indirect fluorescent antibody staining and virus neutralization. They were divided into two groups concerning virus neutralization. Group I Mabs were able to neutralize virus infectivity; however, group II Mabs were not. Competitive binding assays using these Mabs demonstrated the existence of two distinct antigenic regions (A and B) on the 40 Kd protein. Region A was recognized by group I Mabs and region B was by group II Mabs. The binding reaction with group I Mabs was affected by denaturing of the viral proteins, indicating that the antigenic region involving neutralization was conformation-dependent. The results of enzyme-linked immunosorbent assays and virus neutralization tests suggested that group I Mabs might react with one epitope within region A and group II Mabs with 2 or 3 epitopes within region B.     

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.     

Monoclonal antibodies to human fibroblast procollagenase. Inhibition of enzymatic activity, affinity purification of the enzyme, and evidence for clustering of epitopes in the NH2-terminal end of the activated enzyme

This study describes 11 monoclonal antibodies (Mabs) against human fibroblast collagenase that (i) inhibit the specific catalytic activity of the enzyme and/or (ii) react with one or more forms of the enzyme on Western blots. Each of the Mabs specifically immunoprecipitated the Mr 57,000/52,000 procollagenase from [35S]methionine-labeled culture medium. Five Mabs, designated VI-3, VI-4, 2C5, 4A2, and 7C2, inhibited the activity of fibroblast-type collagenase against soluble monomeric collagen and against reconstituted collagen fibrils but did not inhibit the genetically distinct human PMN leukocyte collagenase. The interstitial collagenase produced by human mucosal keratinocytes (SCC-25) was also inhibited, whereas the corresponding enzyme from rat was not. Assignment of epitopes to structural domains within the molecule based on immunoperoxidase staining of Western blots of collagenase and its autocatalytic fragments revealed that 9 of 11 epitopes, including those recognized by 4 inhibitory Mabs, were clustered in a 169-residue domain, which constitutes the NH2-terminal part of the Mr 46,000/42,000 active enzyme. One Mab (X-2a) specifically recognized the Mr 57,000/52,000 zymogen species and failed to react with the active Mr 46,000/42,000 form. The inhibitory Mab VI-3 was used for immunoaffinity purification of procollagenase from culture media with a recovery better than 80% and a yield of approximately 1.4 mg of enzyme/L of medium.