Comparative quantitation of abscisic acid in plant extracts by gas-liquid chromatography and an enzyme-linked immunosorbent assay using the avidin-biotin system

In this report we describe an enzyme-linked immunosorbent assay (ELISA) for the quantitation of abscisic acid (ABA) in plant extracts. A microtitration plate is coated with an ABA-protein complex. The ABA, standard or sample, is then added to each well with a limiting quantity of rabbit anti-ABA antibodies. During the following incubation period, antibodies bind either to free or to bound ABA on the plates. After washing, bound antibodies are indirectly labelled in two steps by the means of biotinylated goat antirabbit immunoglobulin-G antibodies which act as a link between rabbit anti-ABA antibodies and an avidin-alkaline phosphatase complex. The relative enzyme activity bound is measured spectrophotometrically. The detection limit of this method is 5 pg ABA and the measuring range extends to 10 ng. Gas-liquid-chromatography controls, with an electron capture detector, show a good correlation with ELISA results obtained using extracts of Lycopersicon esculentum, Nicotiana tabacum and Pseudotsuga menziesii samples purified by high-performance liquid chromatography. This provides a good argument for the accuracy of the immunoenzymatic method. The indirect labelling of antibodies, with the avidin-biotin amplifying system, should make this technique suitable for the quantitation of other plant growth substances against which specific antibodies are available.Abbreviations ABA abscisic acid - BSA bovine serum albumin - ELISA enzyme-linked immunosorbent assay - GLC gas liquid chromatography - HPLC high-performance liquid chromatography - IgG Immunoglobulin G - PBS phosphate-buffered saline     

A novel enzyme immunoassay of anti-insulin IgG in guinea pig serum

A novel enzyme immunoassay of anti-insulin IgG in guinea pig serum is described. Guinea pig anti-insulin serum diluted with nonspecific guinea pig serum was incubated with dinitrophenyl biotinyl nonspecific rabbit IgG-insulin conjugate and a rabbit (anti-dinitrophenyl bovine serum albumin) IgG-coated polystyrene ball. After washing to eliminate nonspecific guinea pig IgG in the diluted serum, the polystyrene ball was incubated with dinitrophenyl-L-lysine to elute the complex of anti-insulin IgG and the conjugate. The eluate was incubated with an avidin-coated polystyrene ball. Finally, the amount of guinea pig anti-insulin IgG in the complex trapped onto the avidin-coated polystyrene ball was measured by incubation with rabbit (anti-guinea pig IgG) Fab'-peroxidase conjugate. This enzyme immunoassay was 10,000-fold more sensitive than the conventional enzyme immunoassay using insulin-coated polystyrene ball and rabbit (anti-guinea pig IgG) Fab'-peroxidase conjugate.     

An immunological assay for chloramphenicol acetyltransferase

We report the production and utility of rabbit polyclonal antisera to the bacterial protein chloramphenicol acetyltransferase (CAT). The anti-CAT antibodies specifically react with CAT protein produced in bacterial or avian cells. Results reported here demonstrate that detection of CAT by immuno-dot blot techniques is at least as sensitive as the currently used in vitro enzymatic assay. The availability of antibodies to CAT offers a number of potential advantages to investigators who now use the CAT gene to study factors influencing gene regulation.     

Characterization of methylsulfinylalkyl glucosinolate specific polyclonal antibodies

Antibodies towards small molecules, like plant specialized metabolites, are valuable tools for developing quantitative and qualitative analytical techniques. Glucosinolates are the specialized metabolites characteristic of the Brassicales order. Here we describe the characterization of polyclonal rabbit antibodies raised against the 4-methylsulfinylbutyl glucosinolate, glucoraphanin that is one of the major glucosinolates in the model plant Arabidopsis thaliana (hereafter Arabidopsis). Analysis of the cross-reactivity of the antibodies against a number of glucosinolates demonstrated that it was highly selective for methionine-derived aliphatic glucosinolates with a methyl-sulfinyl group in the side chain. Use of crude plant extracts from Arabidopsis mutants with different glucosinolate profiles showed that the antibodies recognized aliphatic glucosinolates in a plant extract and did not cross-react with other metabolites. These methylsulfinylalkyl glucosinolate specific antibodies have prospective use in multiple applications such as ELISA, co-immunoprecipitation and immunolocalization of glucosinolates.     

Identification of a 37 kDa plant protein that interacts with the turnip mosaic potyvirus capsid protein using anti-idiotypic-antibodies

Experimental data are provided for the presence of a plant protein that interacts with the capsid protein (CP) of turnip mosaic potyvirus (TuMV). The receptor-like protein was identified by exploiting the molecular mimicry potential of anti-idiotypic antibodies. A single-chain Fv molecule derived from the monoclonal antibody 7A (Mab-7A), which recognizes the CP of TuMV, was produced in Escherichia coli and the recombinant protein was used to raise rabbit antibodies. The immune serum reacted with Mab-7A but not with a monoclonal antibody of the same isotype, indicating that anti-idiotypic antibodies were produced. These anti-idiotypic antibodies recognized a 37 kDa protein from Lactuca sativa. Complex formation between the anti-idiotypic antibodies and the plant protein was inhibited by the CP of TuMV which indicates that the plant protein interacts with the viral protein. The 37 kDa protein was localized in chloroplasts and was detected in other plant species.     

Immunocytochemical localization of the Lathyrus ochrus (L.) DC seed lectin in seeds and seedlings

Lathyrus ochrus (L.) DC lectin was found to be localized within the protein bodies of both the cotyledons and embryo axis of mature seeds, by using immunocytochemical-labelling techniques involving rabbit antibodies against lectin, followed by goat antibodies against rabbit immunoglobulins (IgG) either fluoresceine-labelled (light microscopy) or adsorbed on colloidal gold particles (electron microscopy). Deposition of lectin inside the protein bodies was studied during seed development, together with its disappearance associated with the protein bodies coalescence occurring during seed germination. In both cases, a parallel quantification of lectin in ripening seeds and seedlings was carried out by radial immunodiffusion with rabbit antibodies against lectin. Our failure to detect lectin in other parts of the plant during its life-cycle suggests that lectin remains associated only with the protein bodies of seeds and seedlings.     

Endogenous lectins from cultured soybean cells: isolation of a protein immunologically cross-reactive with seed soybean agglutinin and analysis of its role in binding of Rhizobium japonicum

Incubation of Rhizobium japonicum with the cultured soybean cell line SB-1, originally derived from the roots of Glycine max, resulted in specific adhesion of the bacteria to the plant cells. This binding interaction appears to be mediated via carbohydrate recognition, since galactose can inhibit the heterotypic adhesion but glucose cannot. Affinity chromatography, on a Sepharose column derivatized with N-caproyl-galactosamine, of the supernatant fraction of a SB-1 cell suspension after enzymatic removal of cell wall yielded a single polypeptide (Mr approximately 30,000) on immunoblotting analysis with rabbit antibodies directed against seed soybean agglutinin. Fluorescently labeled rabbit anti-seed soybean agglutinin also yielded specific immunofluorescent staining on the cell wall and plasma membrane of the SB-1 cells. These results suggest that one likely candidate that may mediate the recognition between the Rhizobium and the soybean cells is the endogenously produced SB-1 lectin. This notion is supported by the observation that rabbit anti-seed soybean agglutinin blocked the Rhizobium-soybean cell adhesion, whereas control antibodies did not.     

A synthetic peptide-directed antibody as a probe of the phosphorylation site of pyruvate dehydrogenase

A synthetic peptide, corresponding to the 14-amino acid tryptic fragment containing phosphorylation sites one and two of bovine mitochondrial pyruvate dehydrogenase, was coupled to Limulus polyphemus hemocyanin and used to produce rabbit polyclonal antibodies. A positive signal was observed when Western blots of bovine, porcine, or yeast mitochondrial pyruvate dehydrogenase complexes were probed with the antibodies but not with blots of bacterial, cellular slime mold, plant mitochondrial, or plant plastid pyruvate dehydrogenase complexes. The antibodies also gave a positive signal when used to probe blots of the bovine kidney branched chain 2-oxo acid dehydrogenase complex. The ATP-dependent phosphorylation/inactivation of rat liver mitochondrial pyruvate dehydrogenase complex could be inhibited by prior incubation with the anti-peptide antibodies.     

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

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

Immunology of the pathogen virulence and phytotoxin production in relation to disease severity: a case study in sheath blight of rice

Polyclonal antibodies against purifiedRhizoctonia solani toxin obtained from infected rice sheath tissues (sheath blight toxin, SBT) and culture filtrates (culture filtrate toxin, CFT) were developed in rabbit and chicken. The IgG was isolated from serum and egg yolk of rabbit and chicken, respectively, and their specificity was investigated by indirect ELISA. Antibodies developed against CFT and SBT in rabbits exhibited relatively higher titer values when compared to chicken antibodies. Positive correlation was observed between the degree of sheath blighting and the levels of antigens induced by each isolate during sheath blight symptome development as detected by rabbit SBT antibody and the isolate RS7 was identified as most virulent. Optimization of incubation period for maximum toxin production in liquid medium and rice sheaths indicated that the production of CFT and SBT is maximum after 15 d and 6 d of pathogen inoculation. Studies of the possible translocation of RS-toxin in rice plants upon inoculation withR. solani showed downward translocation as detected by rabbit/chicken SBT antibodies. Since plant inoculation required a higher concentration of inoculum and maintenance of plants, serological assay by ELISA is more sensitive than whole-plant assays in detecting RS-toxin, with the advantage that ELISA also allows rapid determination of RS-toxin production.     

Antibodies to cell-surface antigens of plant protoplasts

Both mouse and rabbit polyclonal antibodies to plant cell-surface antigens were developed by immunization with cell membrane material from oat (Avena sativa L. cv. Garry) roots. We were able to quickly assess the activity of antisera by monitoring the degree of protoplast agglutination and by using an indirect immunofluorescence assay. Using polyclonal antibodies to cell-surface antigens, we have found that oat root protoplasts share common surface antigens with protoplasts from other plant tissues and species. From experiments with antisera treated with excess oat leaf or oat root protoplasts before our immunoassays, we have obtained evidence for the existence of organ-specific cell-surface antigens in higher plants.     

Cosecretion of protease inhibitor stabilizes antibodies produced by plant roots

A plant-based system for continuous production of monoclonal antibodies based on the secretion of immunoglobulin complexes from plant roots into a hydroponic medium (rhizosecretion) was engineered to produce high levels of single-chain and full-size immunoglobulins. Replacing the original signal peptides of monoclonal antibodies with a plant-derived calreticulin signal increased the levels of antibody yield 2-fold. Cosecretion of Bowman-Birk Ser protease inhibitor reduced degradation of the immunoglobulin complexes in the default secretion pathway and further increased antibody production to 36.4 microg/g root dry weight per day for single-chain IgG1 and 21.8 microg/g root dry weight per day for full-size IgG4 antibodies. These results suggest that constitutive cosecretion of a protease inhibitor combined with the use of the plant signal peptide and the antibiotic marker-free transformation system offers a novel strategy to achieve high yields of complex therapeutic proteins secreted from plant roots.     

Recurrent idiotopes and internal images.

A rabbit was immunized with rabbit immunoglobulins of a different allotype. The anti-allotypic antibodies produced by this rabbit were used to immunize a second rabbit which produced anti-idiotypic antibodies. To explain the occurrence, among these anti-idiotypic antibodies, of "internal images" of the original immunizing allotype, a restricted and a more general hypothesis are developed. The first assumes that B-cells can be triggered when idiotopes on their receptor molecules are recognized by the paratopes of the immunizing antibody. The second denies the existence of a specially constructed combining site on the variable domain of an antibody molecule.     

Rabbit immune repertoires as sources for therapeutic monoclonal antibodies: the impact of kappa allotype-correlated variation in cysteine content on antibody libraries selected by phage display

The rabbit immune repertoire has long been a rich source of diagnostic polyclonal antibodies. Now it also holds great promise as a source of therapeutic monoclonal antibodies. On the basis of phage display technology, we recently reported the first humanization of a rabbit monoclonal antibody. The allotypic diversity of rabbit immunoglobulins prompted us to compare different rabbit immune repertoires for the generation and humanization of monoclonal antibodies that bind with strong affinity to antigens involved in tumor angiogenesis. In particular, we evaluated the diversity of unselected and selected chimeric rabbit/human Fab libraries that were derived from different kappa light chain allotypes. Most rabbit light chains have an extra disulfide bridge that links the variable and constant domains in addition to the two intrachain disulfide bridges shared with mouse and human kappa light chains. Here we evaluate the impact of this increased disulfide bridge complexity on the generation and selection of chimeric rabbit/human Fab libraries. We demonstrate that rabbits with mutant bas and wild-type parental b9 allotypes are excellent sources for therapeutic monoclonal antibodies. Featured among the selected clones with b9 allotype is a rabbit/human Fab that binds with a dissociation constant of 1nM to both human and mouse Tie-2, which will facilitate its evaluation in mouse models of human cancer. Examination of 228 new rabbit antibody sequences allowed for a comprehensive comparison of the LCDR3 and HCDR3 length diversity in rabbits. This study revealed that rabbits exhibit an HCDR3 length distribution more closely related to human antibodies than mouse antibodies.     

Antibody-mediated neutralization in vivo of infectious papillomaviruses.

Specific antibody-mediated neutralization of infectious human papillomavirus type 11 (HPV-11) was achieved in the athymic mouse xenograft system, in which HPV-11 induced morphological transformation of human foreskin. Virus-specific neutralization was demonstrated by the ability of an HPV-11-specific polyclonal antiserum to neutralize HPV-11 infectivity and not bovine papillomavirus type 1 (BPV-1) or cottontail rabbit papillomavirus (CRPV) infectivity. In all three virus infectivity systems, neutralization was detected by the failure of the virus suspension to induce morphological transformation of the appropriate skin xenografts placed under the renal capsule of athymic mice. Rabbit polyclonal antisera were also generated against intact virions of both BPV-1 and CRPV, and neutralizing activity was tested in the xenograft system with BPV-1 and fetal bovine skin and with CRPV and rabbit ear skin. The three polyclonal antisera contained virus-specific neutralizing antibodies, demonstrating that neutralizing epitopes existed on all three papillomaviruses and that these epitopes were antigenically non-cross-reactive. The athymic mouse xenograft system was a useful model for detecting papillomavirus-specific neutralizing antibodies and offers the only opportunity for the analysis of neutralizing antibodies to human papillomaviruses.     

Considerations for extraction of monoclonal antibodies targeted to different subcellular compartments in transgenic tobacco plants

Monoclonal antibody production from transgenic tobacco plants offers many advantages over other heterologous production systems, creating the prospect of production at a scale that will allow new prophylactic and therapeutic applications in global human and animal health. However, information on the major processing factors to consider for large-scale purification of antibodies from transgenic plants is currently limited, and is in urgent need of attention. The purpose of this project was to investigate methods for the initial extraction of recombinant immunoglobulin G (IgG) antibodies from transgenic tobacco leaf tissue. Three different transgenic plant lines were studied in order to establish the parameters for optimal extraction of monoclonal antibodies that accumulate in the apoplasm, at the plasma membrane or within the endoplasmic reticulum. For each transgenic line, seven techniques for physical extraction were compared. The factors that determine the optimal extraction of antibodies from plants have a direct influence on the initial choice of expression strategy, and so must be considered at an early stage. The use of small-scale techniques that are applicable to large-scale purification was a particularly important consideration. The optimal extraction technique varied with the target location of IgG in the plant cell, and the dependence of antibody yield on the physical extraction methodology employed, the pH of the extraction buffer and the extraction temperature was demonstrated in each case. The addition of detergent to the extraction buffer may improve the yield, but this was found to be dependent on the site of accumulation of IgG within the plant cell.     

Preparation and characterization of antibodies against 6-O-alpha-D-xylopyranosyl-beta-D-glucopyranose (beta-isoprimeverose), the disaccharide unit of xyloglucan in plant cell-walls

The p-aminophenyl beta-glycoside of 6-O-alpha-D-xylopyranosyl-D-glucopyranose (isoprimeverose), the disaccharide unit of plant xyloglucan, was coupled to bovine serum albumin, and the resulting glycoconjugate was used as an immunogen for the immunization of a rabbit. The immunochemical specificities of the rabbit antiserum raised against the glycoconjugate were characterized by immunodiffusion, quantitative precipitation, and hapten inhibition. After removal of anti-bovine serum albumin antibodies, the antiserum exhibited a specificity for the introduced disaccharide unit of the artificial antigen. The antibody-combining site was also shown to recognize the aglycon portion of the introduced hapten. The antiserum interacted with some xyloglucans, such as those from tamarind seed and the cell wall of pea stem. beta-Isoprimeverose and alpha-D-xylopyranosides were good inhibitors of the xyloglucan-antibody precipitation system, indicating that the antibodies recognize the beta-isoprimeverose unit of the xyloglucan.     

Reaching the Ball or Missing the Flight? Collective Dispersal in the Two-Spotted Spider Mite Tetranychus urticae

The two-spotted spider mite is a worldwide phytophagous pest displaying a peculiar dispersal. At high density, when plants are exhausted, individuals gather at the plant apex to form a collective silk-ball. This structure can be dispersed by wind or phoresy. Individuals initiating the ball are enclosed in the centre and have a high risk to die. For the first time, the ultimate and proximate mechanisms leading to this group dispersal are examined. To explore if a particular mite genotype was involved in the ball formation, plants were infested with individuals of different genetic background. After the silk-ball formation, the mites in the ball and those remaining on the plant were collected and genotyped. The balls were harvested after 4h and 24h to determine the role of timing between the formation and dispersal on the mortality of mites. Mites do not segregate according to their degree of relatedness, stage, or sex. Mites parallel humans using public transportation: they climb up in the ball whatever their genetic background. Silk-balls composed of unrelated individuals may help avoiding inbreeding when colonizing a new plant. Our results also emphasize the importance of an adequate timing for efficient dispersal between the time spent between ball formation and dispersal.     

Insulin and rabbit anti-insulin receptor antibodies stimulate additively the intrinsic receptor kinase activity.

This paper describes the properties of rabbit polyclonal antibodies directed against purified human insulin receptor which strongly stimulate the intrinsic tyrosine kinase activity. The stimulatory effect of the antibodies on the kinase activity was obtained on the insulin receptor autophosphorylation as well as on the kinase activity towards a synthetic substrate. This stimulation is additive to that induced by insulin. Moreover, rabbit antibodies do not impair insulin binding. These data strongly suggest that antibodies and insulin act through separate pathways. This conclusion is reinforced by the differences observed on the phosphopeptide maps of the receptor's beta subunit whose phosphorylation was performed either in the presence of insulin or rabbit antibodies. Interestingly, these polyclonal antibodies can also induce an activation of the receptor autophosphorylation by interacting only with extracellular determinants. The anti-insulin receptor antibodies mimic insulin in their stimulatory effect on amino acid (AIB) uptake, but they have a different effect to that found on the kinase activity; the simultaneous addition of the antiserum and insulin failed to stimulate this amino acid transport over the level induced by a saturating concentration of hormone.     

Controlled antibody immobilization onto immunoanalytical platforms by synthetic peptide

Antibody immobilization on a solid surface is inevitable in the preparation of immunochips/sensors. Antibody-binding proteins such as proteins A and G have been extensively employed to capture antibodies on sensor surfaces with right orientations, maintaining their full functionality. Because of their synthetic versatility and stability, in general, small molecules have more advantages than proteins. Nevertheless, no small molecule has been used for oriented and specific antibody immobilization. Here is described a novel strategy to immobilize an antibody on various sensor surfaces by using a small antibody-binding peptide. The peptide binds specifically to the Fc domain of immunoglobulin G (IgG) and, therefore, affords a properly oriented antibody surface. Surface plasmon resonance analysis indicated that a peptide linked to a gold chip surface through a hydrophilic linker efficiently captured human and rabbit IgGs. Moreover, antibodies captured by the peptide exhibited higher antigen binding capacity compared with randomly immobilized antibodies. Peptide-mediated antibody immobilization was successfully applied on the surfaces of biosensor substrates such as magnetic particles and glass slides. The antibody-binding peptide conjugate introduced in this work is the first small molecule linker that offers a highly stable and specific surface platform for antibody immobilization in immunoassays.