Abstract

The induction of both CD4+ and CD8+ T cell responses will be of central importance for vaccine protection against HIV-1. However, a number of major questions must be answered before a vaccine can be developed that optimizes these immune responses. While we know that an optimal vaccine-induced antibody response will require CD4+ T cell help, the nature of the help that will potentiate the highest titer and most durable antibody response remains unclear. Although CD8+ T cells have been shown to contribute to containment of HIV-1 replication, the effectiveness of this anti-viral response is limited by the extreme sequence variability of circulating HIV-1 strains and the propensity of the virus to mutate away from recognition by these effector cells. Truly effective CD8+ T cell containment of HIV-1 replication can only occur if T cell responses are generated through vaccination that can pre-empt the ability of the virus to escape from cellular immune recognition. The studies described in this focus address these central issues in HIV-1 vaccine development.
Specific Aims are as follows.
Aim 1. Evaluate different priming vectors for their ability to stimulate CD4+ Th2 cells and T follicular helper (Tfh) cells in macaques.
Aim 2. Characterize CD4+ Th2 cell and Tfh cell responses elicited by HIV-1 vaccines in humans Aim 3. Determine impact of naive repertoires on post-vaccination response of HIV-1 Env-specific CD4+T cells in humans.
Aim 4. Compare mosaic and conserved region vaccines for their induction of CD8+ T cell responses.
Aim 5. Apply new understanding of immunodominance to improve vaccine-elicited CD8+ T cell responses. The information gained in addressing these aims will lead directly to the design of the next generation of vaccines that will stimulate more protective CD4+ T cell and CD8+ T cell responses.

Public Health Relevance

An effective HIV vaccine will have to stimulate long lasting antibody response and cellular (T cell) immune responses. Two types of T cells are important, CD4+ T cells that help B cells to generated effective antibody and CD8+ T cells that act directly on virus infected cells. This focus will find new ways to generate both.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project with Complex Structure Cooperative Agreement (UM1)
Project #
5UM1AI100645-06
Application #
9320744
Study Section
Special Emphasis Panel (ZAI1)
Project Start
Project End
Budget Start
2017-07-01
Budget End
2018-06-30
Support Year
6
Fiscal Year
2017
Total Cost
Indirect Cost

  Institution

Name
Duke University
Department
Type
DUNS #
044387793
City
Durham
State
NC
Country
United States
Zip Code
27705

  Publications

Winawer, Melodie R; Griffin, Nicole G; Samanamud, Jorge et al. (2018) Somatic SLC35A2 variants in the brain are associated with intractable neocortical epilepsy. Ann Neurol 83:1133-1146
Dong, Yuanchen; Chen, Shuobing; Zhang, Shijian et al. (2018) Folding DNA into a Lipid-Conjugated Nanobarrel for Controlled Reconstitution of Membrane Proteins. Angew Chem Int Ed Engl 57:2072-2076
Prévost, Jérémie; Richard, Jonathan; Medjahed, Halima et al. (2018) Incomplete Downregulation of CD4 Expression Affects HIV-1 Env Conformation and Antibody-Dependent Cellular Cytotoxicity Responses. J Virol 92:
Prévost, Jérémie; Richard, Jonathan; Ding, Shilei et al. (2018) Envelope glycoproteins sampling states 2/3 are susceptible to ADCC by sera from HIV-1-infected individuals. Virology 515:38-45
Saunders, Kevin O; Santra, Sampa; Parks, Robert et al. (2018) Immunogenicity of NYVAC Prime-Protein Boost Human Immunodeficiency Virus Type 1 Envelope Vaccination and Simian-Human Immunodeficiency Virus Challenge of Nonhuman Primates. J Virol 92:
Wu, Helen L; Wiseman, Roger W; Hughes, Colette M et al. (2018) The Role of MHC-E in T Cell Immunity Is Conserved among Humans, Rhesus Macaques, and Cynomolgus Macaques. J Immunol 200:49-60
Wiehe, Kevin; Bradley, Todd; Meyerhoff, R Ryan et al. (2018) Functional Relevance of Improbable Antibody Mutations for HIV Broadly Neutralizing Antibody Development. Cell Host Microbe 23:759-765.e6
Cheng, Hao D; Grimm, Sebastian K; Gilman, Morgan Sa et al. (2018) Fine epitope signature of antibody neutralization breadth at the HIV-1 envelope CD4-binding site. JCI Insight 3:
Castillo-Menendez, Luis R; Witt, Kristen; Espy, Nicole et al. (2018) Comparison of Uncleaved and Mature Human Immunodeficiency Virus Membrane Envelope Glycoprotein Trimers. J Virol 92:
Brown, Eric P; Weiner, Joshua A; Lin, Shu et al. (2018) Optimization and qualification of an Fc Array assay for assessments of antibodies against HIV-1/SIV. J Immunol Methods 455:24-33

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