The ability to elicit potent and broadly neutralizing antibodies (bNAbs) against HIV-1 through vaccination is one of the prime challenges of biomedical research in our time. The proposed HIVRAD project aims to address this challenge. Our approach is based on the concept that immunogens that bind to inferred germline Abs (iGLs) that are precursors to known mature bNAbs can initiate an Ab response that can be guided to produce bNAbs using a series of sequential immunogens. Therefore the focus of this grant is to evaluate immunization regimens in animal models (Project 1) using immunogens selected by structure-based design and library screening (Project 2). Key requirements for the success of this project include the ability to evaluate thousands of serum samples from immunized animals to determine whether they are producing specific and productive responses, producing and screening thousands of potential immunogens and Abs, and assessing binding and neutralization potency and breadth. Here we describe a scientific core dedicated to using liquid handling robots for automated expression of small quantities of many different proteins and high-throughput automated assays. The Cell/Biochemical Assay Automation Core will design and carry out automated cell-based and biochemical assays to express proteins in high-throughput, characterize the binding affinity and specificity, and evaluate the potency of HIV-neutralizing antibodies. Core A personnel will validate, refine, and trouble-shoot protocols for the automated protein expression, binding, and in vitro neutralization assays and perform assays for evaluating antibodies and Env proteins for Drs. Nussenzweig and Bjorkman. The core will train and assist students, postdoctoral fellows, research assistants, and investigators in the analysis and interpretation of data from automated assays. The Automated Cell/Biochemical Assays Core will maintain two custom-equipped Evo Freedom Liquid handling stations and a surface plasmon resonance instrument with high- throughput capabilities for the automated assays proposed in this project.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program Projects (P01)
Project #
2P01AI100148-06A1
Application #
9667301
Study Section
Special Emphasis Panel (ZAI1)
Project Start
Project End
Budget Start
2018-12-01
Budget End
2019-11-30
Support Year
6
Fiscal Year
2019
Total Cost
Indirect Cost
Name
California Institute of Technology
Department
Type
DUNS #
009584210
City
Pasadena
State
CA
Country
United States
Zip Code
91125
Wang, Haoqing; Barnes, Christopher O; Yang, Zhi et al. (2018) Partially Open HIV-1 Envelope Structures Exhibit Conformational Changes Relevant for Coreceptor Binding and Fusion. Cell Host Microbe 24:579-592.e4
Stadtmueller, Beth M; Bridges, Michael D; Dam, Kim-Marie et al. (2018) DEER Spectroscopy Measurements Reveal Multiple Conformations of HIV-1 SOSIP Envelopes that Show Similarities with Envelopes on Native Virions. Immunity 49:235-246.e4
Gautam, Rajeev; Nishimura, Yoshiaki; Gaughan, Natalie et al. (2018) A single injection of crystallizable fragment domain-modified antibodies elicits durable protection from SHIV infection. Nat Med 24:610-616
Cohn, Lillian B; da Silva, Israel T; Valieris, Renan et al. (2018) Clonal CD4+ T cells in the HIV-1 latent reservoir display a distinct gene profile upon reactivation. Nat Med 24:604-609
Bournazos, Stylianos; Ravetch, Jeffrey V (2017) Anti-retroviral antibody Fc?R-mediated effector functions. Immunol Rev 275:285-295
Gristick, Harry B; Wang, Haoqing; Bjorkman, Pamela J (2017) X-ray and EM structures of a natively glycosylated HIV-1 envelope trimer. Acta Crystallogr D Struct Biol 73:822-828
Bournazos, Stylianos; Wang, Taia T; Dahan, Rony et al. (2017) Signaling by Antibodies: Recent Progress. Annu Rev Immunol 35:285-311
Bournazos, Stylianos; Ravetch, Jeffrey V (2017) Fc? Receptor Function and the Design of Vaccination Strategies. Immunity 47:224-233
Freund, Natalia T; Wang, Haoqing; Scharf, Louise et al. (2017) Coexistence of potent HIV-1 broadly neutralizing antibodies and antibody-sensitive viruses in a viremic controller. Sci Transl Med 9:
Mayer, Christian T; Gazumyan, Anna; Kara, Ervin E et al. (2017) The microanatomic segregation of selection by apoptosis in the germinal center. Science 358:

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