A naïve (unimmunized) human semisynthetic phage display library was employed to isolate recombinant antibody fragments against the cyanobacterial hepatotoxin microcystin-LR. Selected antibody scFv genes were cloned into a soluble expression vector and expressed in Escherichia coli for characterization against purified microcystin-LR by competition enzyme-linked immunosorbent assay (ELISA). The most sensitive single-chain antibody (scAb) isolated was capable of detecting microcystin-LR at levels below the World Health Organization limit in drinking water (1 g liter ؊1 ) and cross-reacted with three other purified microcystin variants (microcystin-RR, -LW, and -LF) and the related cyanotoxin nodularin. Extracts of the cyanobacterium Microcystis aeruginosa were assayed by ELISA, and quantifications of microcystins in toxic samples showed good correlation with analysis by high-performance liquid chromatography. Immobilized scAb was also used to prepare immunoaffinity columns, which were assessed for the ability to concentrate microcystin-LR from water for subsequent analysis by high-performance liquid chromatography. Anti-microcystin-LR scAb was immobilized on columns via a hexahistidine tag, ensuring maximum exposure of antigen binding sites, and the performance of the columns was evaluated by directly applying 150 ml of distilled water spiked with 4 g of purified microcystin-LR. The procedure was simple, and a recovery rate of 94% was achieved following elution in 1 ml of 100% methanol. Large-scale, low-cost production of anti-microcystin-LR scAb in E. coli is an exciting prospect for the development of biosensors and on-line monitoring systems for microcystins and will also facilitate a range of immunoaffinity applications for the cleanup and concentration of these toxins from environmental samples.
We describe the engineering, regeneration, and characterization of transgenic tobacco plants expressing a recombinant antibody specific to microcystin-LR (MC-LR), the environmental toxin pollutant produced by species of cyanobacteria. The antibody was created by a genetic fusion of the antigen-binding regions of the microcystin-specific single-chain antibody, 3A8, with constant regions from the murine IgG1kappa, Guy's 13. IgG transgenes were controlled by a leader peptide that targets the transgene products to the secretory pathway and also allows for rhizosecretion. The antibody, extracted from the leaves or rhizosecreted into hydroponic medium by transgenic plants, was shown to have functional binding to MC-LR. Antibody yields in transgenic plant leaves reached a maximum of 64 microg/g leaf fresh weight (0.6% total soluble protein), and the rate of antibody rhizosecretion reached a maximum of 5 microg/g root dry weight/24 h. Rhizosecreted antibody bound to MC-LR in hydroponic medium, and transgenic plants grew more efficiently on medium containing MC-LR compared to wild-type controls. This proof of concept paves the way for applications to produce diagnostic antibodies to microcystin-LR, remove it from the environment by phytoremediation, or enhance yields in crops exposed to MC-LR.-Drake, P. M. W., Barbi, T., Drever, M. R., van Dolleweerd, C. J., Porter, A. J. R., Ma, J. K.-C. Generation of transgenic plants expressing antibodies to the environmental pollutant microcystin-LR.
Antibody phage display libraries (Griffin and Tomlinson I) displaying antibody genes and maintained and amplified in Escherichia coli were used to isolate antibodies to the hapten target microcystin LR (1000 Da) conjugated to either bovine serum albumin or keyhole limpet haemocyanin. In competition enzyme-linked immunosorbent assay, bacterially expressed antibodies selected via the Griffin library showed at least 300 times greater sensitivity than those isolated from the Tomlinson library, for free microcystin. Bacterially expressed phage antibody libraries provide a rapid and relatively easy route for the selection of monoclonal antibodies specific for even the most difficult of antigenic targets such as free haptens.
In this paper we describe the engineering and regeneration of transgenic tobacco plants expressing a recombinant plasma membrane-retained antibody specific to microcystin-LR (MC-LR), the environmental toxin pollutant produced by cyanobacteria. The antibody was created by a genetic fusion of the antigen binding regions of the microcystin-specific single chain antibody, 3A8, with the constant regions from the murine IgG1κ, Guy's 13, including a membrane retention sequence at the C-terminal end of the antibody heavy chain. The antibody produced in the leaves was shown to be functional by binding to MC-LR in an ELISA with antibody yields in transgenic plant leaves reaching a maximum of 1.2 μg g(-1) leaf f.wt (0.005% total soluble protein). Antibody-MC-LR complexes formed in leaves after addition of MC-LR to hydroponic medium around the roots of transgenic plant cultures.
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