A remarkable genetic shift in a transmitted/founder virus broadens antibody responses against HIV-1

Author:

Jain Swati1ORCID,Uritskiy Gherman1,Mahalingam Marthandan1,Batra Himanshu1,Chand Subhash1,Trinh Hung V23,Beck Charles4,Shin Woong-Hee567,Alsalmi Wadad1,Kijak Gustavo23,Eller Leigh A2,Kim Jerome3,Kihara Daisuke58,Tovanabutra Sodsai23,Ferrari Guido4,Robb Merlin L2,Rao Mangala3,Rao Venigalla B1ORCID

Affiliation:

1. Bacteriophage Medical Research Center, Department of Biology, The Catholic University of America

2. Henry M. Jackson Foundation for the Advancement of Military Medicine

3. Laboratory of Adjuvant and Antigen Research, U.S. Military HIV Research Program, Walter Reed Army Institute of Research

4. Department of Molecular Genetics and Microbiology, Duke University

5. Department of Biological Sciences, Purdue University

6. Department of Chemistry Education, Sunchon National University

7. Department of Advanced Components and Materials Engineering, Sunchon National University

8. Department of Computer Science, Purdue University

Abstract

A productive HIV-1 infection in humans is often established by transmission and propagation of a single transmitted/founder (T/F) virus, which then evolves into a complex mixture of variants during the lifetime of infection. An effective HIV-1 vaccine should elicit broad immune responses in order to block the entry of diverse T/F viruses. Currently, no such vaccine exists. An in-depth study of escape variants emerging under host immune pressure during very early stages of infection might provide insights into such a HIV-1 vaccine design. Here, in a rare longitudinal study involving HIV-1 infected individuals just days after infection in the absence of antiretroviral therapy, we discovered a remarkable genetic shift that resulted in near complete disappearance of the original T/F virus and appearance of a variant with H173Y mutation in the variable V2 domain of the HIV-1 envelope protein. This coincided with the disappearance of the first wave of strictly H173-specific antibodies and emergence of a second wave of Y173-specific antibodies with increased breadth. Structural analyses indicated conformational dynamism of the envelope protein which likely allowed selection of escape variants with a conformational switch in the V2 domain from an α-helix (H173) to a β-strand (Y173) and induction of broadly reactive antibody responses. This differential breadth due to a single mutational change was also recapitulated in a mouse model. Rationally designed combinatorial libraries containing 54 conformational variants of V2 domain around position 173 further demonstrated increased breadth of antibody responses elicited to diverse HIV-1 envelope proteins. These results offer new insights into designing broadly effective HIV-1 vaccines.

Funder

National Institute of Allergy and Infectious Diseases

Walter Reed Army Institute of Research

National Institutes of Health

National Science Foundation

Publisher

eLife Sciences Publications, Ltd

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