Production of a Plant-Derived Immunogenic Protein Targeting ApoB100 and CETP: Toward a Plant-Based Atherosclerosis Vaccine
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In an effort to initiate the development of a plant-based vaccination model against atherosclerosis, a cholera toxin B subunit (CTB)-based chimeric protein was designed to target both ApoB100 and CETP epitopes associated with immunotherapeutic effects in atherosclerosis. Epitopes were fused at the C-terminus of CTB to yield a protein called CTB:p210:CETPe. A synthetic gene coding for CTB:p210:CETPe was successfully transferred to tobacco plants with no phenotypic alterations. Plant-derived CTB:p210:CETPe was expressed and assembled in the pentameric form. This protein retained the target antigenic determinants, as revealed by GM1-ELISA and Western blot analyses. Higher expresser lines reached recombinant protein accumulation levels up to 10 µg/g fresh weight in leaf tissues and these lines carry a single insertion of the transgene as determined by qPCR. Moreover, when subcutaneously administered, the biomass from these CTB:p210:CETPe-producing plants was able to elicit humoral responses in mice against both ApoB100 and CETP epitopes and human serum proteins. These findings evidenced for the first time that atherosclerosis-related epitopes can be expressed in plants retaining immunogenicity, which opens a new path in the molecular farming field for the development of vaccines against atherosclerosis. © 2014, Springer Science%2bBusiness Media New York.
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ApoB100; Atherosclerosis; CETP; Immunotherapy; Plant-derived vaccine Diseases; Epitopes; Mammals; Polymerase chain reaction; Vaccines; ApoB100; Atherosclerosis; CETP; Cholera toxin B subunit; Human serum proteins; Immunotherapy; Protein accumulation; Western-blot analysis; Recombinant proteins; apolipoprotein B100; atherosclerosis vaccine; BCR ABL protein; chimeric protein; cholera toxin B subunit; cholesterol ester transfer protein; epitope; immunoglobulin G antibody; immunoglobulin G1 antibody; immunoglobulin G2a antibody; recombinant protein; synthetic DNA; unclassified drug; vaccine; apolipoprotein B100; cholera toxin; cholesterol ester transfer protein; hybrid protein; vaccine; animal experiment; antibody response; antibody titer; Article; atherosclerosis; biomass; carboxy terminal sequence; controlled study; copy number variation; drug formulation; drug manufacture; enzyme linked immunosorbent assay; female; gene amplification; humoral immunity; immune response; immunization; immunogenicity; immunotherapy; leaf tissue; molecular cloning; molecular farming; mouse; Nicotiana tabacum; nonhuman; phenotype; plant leaf; polymerase chain reaction; protein assembly; protein expression; quantitative analysis; Th2 cell; transgene; Western blotting; animal; atherosclerosis; biosynthesis; genetics; immunology; tobacco; transgenic plant; Mus; Nicotiana obtusifolia; Animals; Apolipoprotein B-100; Atherosclerosis; Cholera Toxin; Cholesterol Ester Transfer Proteins; Epitopes; Mice; Plants, Genetically Modified; Recombinant Fusion Proteins; Tobacco; Vaccines
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