Plant-produced hepatitis B core protein chimera carrying anthrax protective antigen domain-4
Hybridoma, 2008•liebertpub.com
The hepatitis B core antigen (HBcAg) can generate a strong immune response and is
recognized as an effective carrier for foreign epitopes. The domain-4 epitope of the anthrax
protective antigen (PA-D4) plays an essential role in generating protective immunity against
virulent Bacillus anthracis. Here we report the successful production of a recombinant
protein comprised of the antigenic PA-D4 integrated into the c/e1 loop of HBcAg in
transgenic low-alkaloid Nicotiana tabacum. Sera of mice injected with the plant-derived …
recognized as an effective carrier for foreign epitopes. The domain-4 epitope of the anthrax
protective antigen (PA-D4) plays an essential role in generating protective immunity against
virulent Bacillus anthracis. Here we report the successful production of a recombinant
protein comprised of the antigenic PA-D4 integrated into the c/e1 loop of HBcAg in
transgenic low-alkaloid Nicotiana tabacum. Sera of mice injected with the plant-derived …
Abstract
The hepatitis B core antigen (HBcAg) can generate a strong immune response and is recognized as an effective carrier for foreign epitopes. The domain-4 epitope of the anthrax protective antigen (PA-D4) plays an essential role in generating protective immunity against virulent Bacillus anthracis. Here we report the successful production of a recombinant protein comprised of the antigenic PA-D4 integrated into the c/e1 loop of HBcAg in transgenic low-alkaloid Nicotiana tabacum. Sera of mice injected with the plant-derived purified HB/PA-D4 protein exhibited significant anti-PA- and anti-HBcAg-specific IgG titers; however, formation of virus-like particles (VLP) was not observed. These data support the feasibility of producing complex protein chimeras in plants.
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