Comparative Analysis of Antigen-Targeting Sequences Used in DNA Vaccines

Carvalho, Joana; Azzoni, Adriano Rodrigues; Prazeres, D.M.F.; Monteiro, Gabriel A.

doi:10.1007/s12033-009-9229-x

Cited by 8 publications

(1 citation statement)

References 46 publications

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“…The question arises as to where in the cell does dsRNA act to enhance recruitment of innate immunity to result in the desired cellular immunities? Another potentially useful attribute has been described by Carvalho et al (2010), in which DNA vaccine vectors specify fusions to target encoded antigens to extracellular spaces, lysosomes, and/or the endoplasmic reticulum.…”

Section: Recombinant Attenuated Bacterial Dna Vaccine Delivery Systemmentioning

confidence: 99%

Antigen Delivery System II

Curtiss

2015

Mucosal Immunology

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Section: Recombinant Attenuated Bacterial Dna Vaccine Delivery Systemmentioning

confidence: 99%

Antigen Delivery System II

Curtiss

2015

Mucosal Immunology

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Strategies for Improving DNA Vaccine Performance

Iurescia

Fioretti

Rinaldi

2014

Methods in Molecular Biology

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The goal of active vaccination is to induce all the immune effector pathways and to establish immunological memory allowing prolonged surveillance against pathogens or cancer cells. DNA vaccination platform is an intriguing strategy owing to its ability to mobilize both branches of the immune system (i.e., innate immunity as well as adaptive immunity). Since plasmids offer several advantages for biotechnological applications due to their modular structure and easy manipulation, a wide range of strategies can be applied to improve DNA vaccine performance. This chapter discusses this topic in detail taking into account antigen/epitope selection and optimization, inclusion of intracellular targeting sequences and genetic adjuvants, and provision of T cell help.

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Enhancement of DNA Vaccine Efficacy by Intracellular Targeting Strategies

Freitas

Henriques

Fevereiro

et al. 2014

Methods in Molecular Biology

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Immune response against an encoded antigenic protein can be elicited by including targeting sequences to DNA vaccines that promote protein sorting to processing pathways, related with antigen presentation by major histocompatibility complexes (MHC). Candidate DNA vaccines coding for neuraminidase 3 of the avian influenza virus were designed to encode different sequences that direct the protein to specific cellular compartments such as endoplasmic reticulum (i.e., adenovirus E1A), lysosomes (i.e., LAMP), and the combination of protein targeting to the endoplasmic reticulum and lysosome (i.e., E1A-LAMP). The DNA vaccine prototypes were engineered by biomolecular techniques and subsequently produced in E. coli cells. The biological activity of the vaccines was tested firstly in vitro, in Chinese hamster ovary cells, through flow cytometry and real-time polymerase chain reaction analysis. Then, an essential in vivo study was performed in chickens, in order to evaluate the efficacy of DNA prototype vaccines, by measuring the antibody production by enzyme-linked immunosorbent assay.

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Comparative Analysis of Antigen-Targeting Sequences Used in DNA Vaccines

Cited by 8 publications

References 46 publications

Antigen Delivery System II

Antigen Delivery System II

Strategies for Improving DNA Vaccine Performance

Enhancement of DNA Vaccine Efficacy by Intracellular Targeting Strategies

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