Development of a vaccine to prevent, or reduce the rate of, HIV infections remains a high priority despite recent setbacks in the field. The lessons from failed and successful experimental programs indicate the need to apply new approaches to HIV vaccine design with the goal of inducing immune responses that are the appropriate type, quality, magnitude and active in the appropriate sites in the body. A promising approach is the use of the Adenovirus serotype 4 (Ad4) as a vaccine delivery vehicle. The Ad4 virus is a component in the US Military adenovirus vaccine which was formulated for administration in an oral dosage form. Oral delivery should be advantageous for HIV vaccines because this route of administration is more likely to induce mucosal immune responses than parenteral injection and would target the gut mucosal tissues in particular. The Ad4 vaccine vector is replication-competent in humans which should drive the induction and expansion of immune responses that are different, in terms of magnitude and effector functions, than those induced by non- replicating vectors. In Y1, multiple Ad4 vectors will be engineered to express unique antigens including: 1) HIV-1 Env clade C protein for the purpose of inducing antibody responses broadly effective against a variety of HIV strains;2) GBV-C E2 glycoprotein, which may induce antibodies that block HIV-1 cellular attachment;and 3) Gag protein, which may induce T cell responses which promote killing of HIV-1 virus infected cells. Since human adenoviruses such as Ad4 do not replicate in non-human animals, including NHPs, we will also construct analogous replicating Simian adenovirus (SAd7) vectors to allow a direct comparison of the efficacy of Ad4 (non-replicating vector in NHPs) with an analogous replicating vector, SAd7. All vectors will be assessed for immunogenicity in small animals (mice /rabbits) before proceeding to NHP studies in Y2. Once immunogenicity is confirmed in NHPs, we will evaluate their efficacy in an NHP R5 SHIV clade C challenge study. Both antibody (neutralizing and ADCVI) and T cell immune responses (IFN- ) will be determined. Completion of this SBIR program will provide sufficient data to determine the utility of this Ad4 vector system for inducing effective antibody and T cell responses and potentially could yield an experimental vaccine suitable for clinical development.

Public Health Relevance

The development of a safe and protective vaccine against the Human Immunodeficiency Virus (HIV) that causes AIDS has been very difficult. The proposed research will modify an existing adenovirus vaccine, which was used safely in more than 10 million people, so that it expresses HIV proteins and induces an immunological response in animals. This vaccine will have advantages of being a live virus vaccine, such as the polio or measles vaccines, which can be taken by mouth without risk of causing HIV infection.

National Institute of Health (NIH)
Small Business Innovation Research Grants (SBIR) - Phase II (R44)
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Special Emphasis Panel (ZRG1)
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Pullen, Jeffrey K
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Paxvax, Inc.
San Diego
United States
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