Silvina Chimeno Zoth scite author profile

Vaccination has been extensively used to prevent, eradicate and control infectious diseases. However, the development and implementation of new vaccines remains prohibitively expensive for middle and low income countries where such measures are surely needed most. The production of plant-based vaccines provides a promising alternative to create affordable biological products. In the past decade, a growing number of research groups worldwide have studied plant expression and parenteral or oral delivery of vaccine antigens, some showing promising potential. Here, we describe the basis of the system and the state of the art of developments regarding diseases of concern in developing countries.

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Induction of virus-neutralizing antibodies by immunization with Rachiplusia nu per os infected with a recombinant baculovirus expressing the E2 glycoprotein of bovine viral diarrhea virus

Ferrer

Zoth

Calamante³

et al. 2007

Journal of Virological Methods

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Locally produced mucosal IgG in chickens immunized with conventional vaccines for Newcastle disease virus

Zoth

Gómez

Carrillo

et al. 2008

Braz J Med Biol Res

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Newcastle disease virus (NDV) is the causative agent of an economically important disease, which affects all species of birds worldwide. Current vaccination programs for NDV include the use of either low-virulent live-virus vaccines or inactivated vaccines to induce protective immunity while producing minimal adverse effects in birds. In order to further characterize the immune response elicited by live virus and inactivated NDV conventional vaccines in chickens, we evaluated the presence of specific antibodies in different secretions and in tissue culture supernatants of immunized birds. To this end, we analyzed all the samples by ELISA, using an indirect assay set up in the laboratory. Specific anti-NDV IgG antibodies were detected in tracheal and cloacal swabs and tracheal and intestinal washes of immunized animals. We also found specific anti-NDV IgG antibodies in tracheal and intestinal tissue culture supernatants, indicating that the IgG found in swabs and washes was not transudated from serum or, at least, was not all transudated from serum. Knowledge about the mechanisms involved in the immune response of chickens to different NDV vaccines should increase our understanding of the mucosal response against the virus and, eventually, provide new useful information for the development and evaluation of synthetic vaccines.

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Plant-based vaccines for potential human application

Gómez¹,

Zoth²,

Berinstein³

2009

Human Vaccines

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The worldwide need to produce safe and affordable vaccines with a minimum requirement of manufacture and processing, together with the advancements achieved in biotechnology, have promoted the development of efficient alternatives to traditional ones. One of the available options is the use of transgenic plants, not only as a protein production system but as an antigen transportation system as well, being capable of delivering antigens to the mucosal immune targets, becoming what is known as edible vaccines. The versatility of the plant production system allows for instance, to express and to accumulate foreign antigens in edible plant tissues. Thus, the hypothesis for the choice of plant-based vaccines is that once a plant-based vaccine is eaten, the susceptible host mounts a mucosal immune response against the antigen that is expressed in the plant, becoming protected against the pathogen from which the antigen was selected. This idea is still under study. Here, we described the basis of the system, the promising future and the possible drawbacks.

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