This HIVRAD program builds upon our recent successes in generating stable, proteolytically mature gp140 trimers (SOSIP gp140s) that mimic virion-associated envelope (Env) in topology and antigenicity. The overall goals of this HIVRAD program are reflected in three major milestones: 1) determine the structure of cleaved Env trimers at <4A resolution, 2) demonstrate methods to overcome HIV-1 Env's immunosuppressive properties, and 3) identify a SOSIP trimer vaccine that elicits heterologous neutralization of diverse HIV-1 isolates. These goals are reliant on the preparative production of novel SOSIP trimers in highly purified, homogeneous form. SOSIP trimers are exceptionally complex biomolecules whose production requires a high level of technical expertise, and Core B lends this expertise to the HIVRAD in order to support the goals of Project 1 (HIV-1 Env Vaccine Design, Dr. Moore) and Project 2 (HIV-1 Env Trimer Crystallography, Dr. Wilson). The overall role of Core B is expressed in terms of four Specific Aims: 1) Produce and characterize Env proteins for crystallography studies;2) Produce and characterize Env proteins for immunogenicity studies;3) Evaluate the immunogenicity of Env proteins in small animals, 4) Evaluate Env proteins for effects on human dendritic cells and antigen presentation in vitro. In addition to producing SOSIP trimers, Core B provides a central resource for additional high-quality materials (e.g., gp120 monomers, control antigen, CD4-based proteins, antibody Fabs) that are required by Project 1 and Project 2. Core B also possesses significant experience in vaccine testing and thus will be responsible for performing small-animal immunogenicity studies in collaboration with Project 1. Lastly, Core B will collaborate with external groups to explore and understand the interactions of HIV-1 Env with human dendritic cells in vitro. In addition, Core B will serve as a central point of contact and will manage consortial/contractual agreements with several leading academic and corporate collaborators who lend specialized expertise in the areas of vaccine delivery (Aldevron, Fargo, ND), NAb analyses (Monogram Biosciences, South San Francisco, CA), NAb specificity analyses (Dr. James Binley, Torrey Pines Institute for Molecular Studies, San Diego, CA), in vitro immunogenicity studies (VaxDesign, Orlando, FL), and exploratory immunogenetics (Dr. Sunil Ahuja, University of Texas). In fulfilling these roles, Core B represents an integral element of this innovative, multidisciplinary HIVRAD program.

Public Health Relevance

Nearly 1% of the world's population is infected with HIV, and a preventive vaccine is urgently needed. Most efficacious vaccines elicit antibodies that can neutralize the pathogen, but current-generation HIV vaccines are not effective in this regard. Obstacles include our limited understanding of the structure and immunology of HIV-1 envelope trimers. This HIVRAD represents an innovative approach to addressing these challenges in order to provide a fundamental advance in our ability to elicit HIV-neutralizing antibodies with a vaccine.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program Projects (P01)
Project #
3P01AI082362-06S1
Application #
8879255
Study Section
Special Emphasis Panel (ZAI1)
Project Start
Project End
Budget Start
2013-06-01
Budget End
2014-05-31
Support Year
6
Fiscal Year
2014
Total Cost
Indirect Cost
Name
Weill Medical College of Cornell University
Department
Type
DUNS #
City
New York
State
NY
Country
United States
Zip Code
10065
van Gils, Marit J; van den Kerkhof, Tom L G M; Ozorowski, Gabriel et al. (2016) An HIV-1 antibody from an elite neutralizer implicates the fusion peptide as a site of vulnerability. Nat Microbiol 2:16199
Go, Eden P; Cupo, Albert; Ringe, Rajesh et al. (2016) Native Conformation and Canonical Disulfide Bond Formation Are Interlinked Properties of HIV-1 Env Glycoproteins. J Virol 90:2884-94
Schiffner, Torben; de Val, Natalia; Russell, Rebecca A et al. (2016) Chemical Cross-Linking Stabilizes Native-Like HIV-1 Envelope Glycoprotein Trimer Antigens. J Virol 90:813-28
Klasse, P J; LaBranche, Celia C; Ketas, Thomas J et al. (2016) Sequential and Simultaneous Immunization of Rabbits with HIV-1 Envelope Glycoprotein SOSIP.664 Trimers from Clades A, B and C. PLoS Pathog 12:e1005864
Sanders, Rogier W; van Gils, Marit J; Derking, Ronald et al. (2015) HIV-1 VACCINES. HIV-1 neutralizing antibodies induced by native-like envelope trimers. Science 349:aac4223
de Taeye, Steven W; Ozorowski, Gabriel; Torrents de la Peña, Alba et al. (2015) Immunogenicity of Stabilized HIV-1 Envelope Trimers with Reduced Exposure of Non-neutralizing Epitopes. Cell 163:1702-15
Sliepen, Kwinten; Medina-Ramírez, Max; Yasmeen, Anila et al. (2015) Binding of inferred germline precursors of broadly neutralizing HIV-1 antibodies to native-like envelope trimers. Virology 486:116-20
Dosenovic, Pia; von Boehmer, Lotta; Escolano, Amelia et al. (2015) Immunization for HIV-1 Broadly Neutralizing Antibodies in Human Ig Knockin Mice. Cell 161:1505-15
Alexander, Marina R; Ringe, Rajesh; Sanders, Rogier W et al. (2015) What Do Chaotrope-Based Avidity Assays for Antibodies to HIV-1 Envelope Glycoproteins Measure? J Virol 89:5981-95
Guttman, Miklos; Cupo, Albert; Julien, Jean-Philippe et al. (2015) Antibody potency relates to the ability to recognize the closed, pre-fusion form of HIV Env. Nat Commun 6:6144

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