2007
DOI: 10.1007/s00005-007-0044-4
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DNA vaccines: are they still just a powerful tool for the future?

Abstract: Vaccination is historically one of the most successful strategies for the prevention of infectious diseases. For safety reasons, modern vaccinology tends toward the usage of inactivated or attenuated microorganisms and uses predominantly subunit vaccines. The antigens need to be clearly defined, pure, stable, appropriately composed, and properly presented to the immune system of the host. Differing ratios of various proportions between specific CD4+ and CD8+ T cell responses are essential for conferring the re… Show more

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Cited by 48 publications
(24 citation statements)
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References 110 publications
(162 reference statements)
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“…DNA vaccination can protect animals and human beings against pathogenic microorganisms, particularly intracellular parasites (1). In the present study, BALB/c mice immunized intramuscularly with pGRA7, pROP1, or pGRA7-ROP1 produced specific antibodies against T. gondii GRA7 and/or ROP1, and protective immunity was induced.…”
Section: Discussionmentioning
confidence: 56%
See 1 more Smart Citation
“…DNA vaccination can protect animals and human beings against pathogenic microorganisms, particularly intracellular parasites (1). In the present study, BALB/c mice immunized intramuscularly with pGRA7, pROP1, or pGRA7-ROP1 produced specific antibodies against T. gondii GRA7 and/or ROP1, and protective immunity was induced.…”
Section: Discussionmentioning
confidence: 56%
“…DNA vaccines have become a major focus, because they promote the specific expression of an encoded vaccine antigen by host cells and have the ability to deliver multivalent vaccines to a host in a single dose. Additionally, DNA vaccines can also elicit potent, long-lasting humoral and cell-mediated immunity (1). The family of vaccine candidate antigens includes T. gondii membrane-associated surface antigens SAG1 (10,18) and SAG2 (4); excreted-secreted dense-granule proteins GRA1 (8,9), GRA2 (11), GRA4, GRA6 (8), and GRA7 (3,8,9,16); rhoptry proteins ROP1 (3,10) and ROP2 (9,18); and micronemal proteins MIC1, MIC2, MIC3 (14), and MIC6 (13).…”
mentioning
confidence: 99%
“…The strategy of bactoinfection (live bacterial vectors for transfection of mammalian cells) opened the field to use L. lactis as a DNA delivery vehicle 8, 9. DNA delivery by bacteria into eukaryotic cells leads to host expression of post-translational modified antigens and consequently the presentation of conformational-restricted epitopes to the immune system 10 . Several studies have used native 11 or recombinant L. lactis expressing different invasin, describing their potential uses as DNA delivery vectors either in vivo or in vitro assays 12, 13, 14…”
Section: Introductionmentioning
confidence: 99%
“…We have focused on the development of a DNA-based vaccine because such vaccines have been shown to elicit potent, long-lasting humoral and cell-mediated immunity, as well as providing protection against viral, bacterial, and parasitic infections (Beláková et al 2007). The most common method used to deliver DNA vaccines is intramuscular injection which is known to induce a Th1-type response.…”
Section: Introductionmentioning
confidence: 99%