Highlights: [•] Asd-based balanced-lethal system for DNA vaccine was evaluated in this paper. [•] The C501(pVGS/2SS-asd) vaccine could induce systemic and mucosal immune responses. [•] The C501 (pVGS/2SS-asd) vaccine is safe and stable for clinical use in large animals. [•] The risk of gene integration into the host cellular genome was negligible. [Copyright &y& Elsevier]
Abstract: The molecular methods used in DNA vaccination and gene therapy resemble in many ways the methods applied in genetic modification of organisms. In some regulatory regimes, this creates an overlap between ‘gene medication’ and genetic modification. In Norway, an animal injected with plasmid DNA, in the form of DNA vaccine or gene therapy, currently is viewed as being genetically modified for as long as the added DNA is present in the animal. However, regulating a DNA-vaccinated animal as genetically modified creates both regulatory and practical challenges. It is also counter-intuitive to many biologists. Since immune responses can be elicited also to alter traits, the borderline between vaccination and the modification of properties is no longer distinct. In this paper, we discuss the background for the Norwegian interpretation and ways in which the regulatory challenge can be handled. [Copyright &y& Elsevier]
Boyer, Jean D., Maciag, Paulo C., Parkinson, Rose, Wu, Ling, Lewis, Mark G., Weiner, David B., and Paterson, Yvonne
Subjects
*HIV, *VACCINES, *IMMUNE response, *PREVENTIVE medicine
Abstract
Abstract: HIV-1 specific cellular immune responses play a significant part in controlling HIV-1 viral replication and are an important component of an HIV-1 vaccine induced immune response. We reported earlier that recombinant DNA vaccine delivered intramuscularly, and recombinant Listeria monocytogenes, delivered orally induced CD8+ and CD4+ T cell immune responses in rhesus macaques and that this vaccine protocol showed partial protection against an SIV239 challenge. In this paper, we have analyzed the SIV antigen-specific immune responses at the time of challenge and during the subsequent infection course. We find that the immune status of the animals, as measured by the frequency of antigen-specific IFN-gamma secreting peripheral blood mononuclear cells, at the time of challenge correlates more strongly with viral loads at set point than peak viral loads. The correlation between the immune response and viral load was strongest early, as viral set-point was just being established and disintegrates overtime. This study demonstrates the cellular immune response to SIV at the time of challenge of a nonhuman primate is able to impact on viral set-point following SIV239 challenge. Further, this study demonstrates that as virus replicates the T cell immune response to SIV antigens induced by the vaccine is modulated by antigen encountered by immune cells during viral replication. [Copyright &y& Elsevier]