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48 results on '"Boyington, Jeffrey C"'

1. Cleavage-intermediate Lassa virus trimer elicits neutralizing responses, identifies neutralizing nanobodies, and reveals an apex-situated site-of-vulnerability

Author

Gorman, Jason, Cheung, Crystal Sao-Fong, Duan, Zhijian, Ou, Li, Wang, Maple, Chen, Xuejun, Cheng, Cheng, Biju, Andrea, Sun, Yaping, Wang, Pengfei, Yang, Yongping, Zhang, Baoshan, Boyington, Jeffrey C., Bylund, Tatsiana, Charaf, Sam, Chen, Steven J., Du, Haijuan, Henry, Amy R., Liu, Tracy, Sarfo, Edward K., Schramm, Chaim A., Shen, Chen-Hsiang, Stephens, Tyler, Teng, I-Ting, Todd, John-Paul, Tsybovsky, Yaroslav, Verardi, Raffaello, Wang, Danyi, Wang, Shuishu, Wang, Zhantong, Zheng, Cheng-Yan, Zhou, Tongqing, Douek, Daniel C., Mascola, John R., Ho, David D., Ho, Mitchell, and Kwong, Peter D.

Published
2024
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2. Co-immunization with hemagglutinin stem immunogens elicits cross-group neutralizing antibodies and broad protection against influenza A viruses

Author

Moin, Syed M., Boyington, Jeffrey C., Boyoglu-Barnum, Seyhan, Gillespie, Rebecca A., Cerutti, Gabriele, Cheung, Crystal Sao-Fong, Cagigi, Alberto, Gallagher, John R., Brand, Joshua, Prabhakaran, Madhu, Tsybovsky, Yaroslav, Stephens, Tyler, Fisher, Brian E., Creanga, Adrian, Ataca, Sila, Rawi, Reda, Corbett, Kizzmekia S., Crank, Michelle C., Karlsson Hedestam, Gunilla B., Gorman, Jason, McDermott, Adrian B., Harris, Audray K., Zhou, Tongqing, Kwong, Peter D., Shapiro, Lawrence, Mascola, John R., Graham, Barney S., and Kanekiyo, Masaru

Published
2022
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3. A single residue in influenza virus H2 hemagglutinin enhances the breadth of the B cell response elicited by H2 vaccination

Author

Andrews, Sarah F., Raab, Julie E., Gorman, Jason, Gillespie, Rebecca A., Cheung, Crystal S. F., Rawi, Reda, Cominsky, Lauren Y., Boyington, Jeffrey C., Creanga, Adrian, Shen, Chen-Hsiang, Harris, Darcy R., Olia, Adam S., Nazzari, Alexandra F., Zhou, Tongqing, Houser, Katherine V., Chen, Grace L., Mascola, John R., Graham, Barney S., Kanekiyo, Masaru, Ledgerwood, Julie E., Kwong, Peter D., and McDermott, Adrian B.

Published
2022
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4. Glycan repositioning of influenza hemagglutinin stem facilitates the elicitation of protective cross-group antibody responses

Author

Boyoglu-Barnum, Seyhan, Hutchinson, Geoffrey B., Boyington, Jeffrey C., Moin, Syed M., Gillespie, Rebecca A., Tsybovsky, Yaroslav, Stephens, Tyler, Vaile, John R., Lederhofer, Julia, Corbett, Kizzmekia S., Fisher, Brian E., Yassine, Hadi M., Andrews, Sarah F., Crank, Michelle C., McDermott, Adrian B., Mascola, John R., Graham, Barney S., and Kanekiyo, Masaru

Published
2020
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6. Structure-Based Design of a Fusion Glycoprotein Vaccine for Respiratory Syncytial Virus

Author

McLellan, Jason S., Chen, Man, Joyce, M. Gordon, Sastry, Mallika, Stewart-Jones, Guillaume B. E., Yang, Yongping, Zhang, Baoshan, Chen, Lei, Srivatsan, Sanjay, Zheng, Anqi, Zhou, Tongqing, Graepel, Kevin W., Kumar, Azad, Moin, Syed, Boyington, Jeffrey C., Chuang, Gwo-Yu, Soto, Cinque, Baxa, Ulrich, Bakker, Arjen Q., Spits, Hergen, Beaumont, Tim, Zheng, Zizheng, Xia, Ningshao, Ko, Sung-Youl, Todd, John-Paul, Rao, Srinivas, Graham, Barney S., and Kwong, Peter D.

Published
2013
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7. Hemagglutinin-stem nanoparticles generate heterosubtypic influenza protection

Author

Yassine, Hadi M., Boyington, Jeffrey C., McTamney, Patrick M., Wei, Chih-Jen, Kanekiyo, Masaru, Kong, Wing- Pui, Gallagher, John R., Wang, Lingshu, Zhang, Yi, Joyce, M. Gordon, Lingwood, Daniel, Moin, Syed M., Andersen, Hanne, Okuno, Yoshinobu, Rao, Srinivas S., Harris, Audray K., Kwong, Peter D., Mascola, John R., Nabel, Gary J., and Graham, Barney S.

Subjects
Avian influenza -- Prevention -- Research, Nanoparticles -- Physiological aspects -- Research, Influenza vaccines -- Health aspects -- Research, B cells, Lectins, Biological sciences, Health
Abstract

The antibody response to influenza is primarily focused on the head region of the hemagglutinin (HA) glycoprotein, which in turn undergoes antigenic drift, thus necessitating annual updates of influenza vaccines. In contrast, the immunogenically subdominant stem region of HA is highly conserved and recognized by antibodies capable of binding multiple HA subtypes (1-6). Here we report the structure-based development of an H1 HA stem-only immunogen that confers heterosubtypic protection in mice and ferrets. Six iterative cycles of structure-based design (Gen1-Gen6) yielded successive H1 HA stabilized-stem (HA-SS) immunogens that lack the immunodominant head domain. Antigenic characterization, determination of two HA-SS crystal structures in complex with stem-specific monoclonal antibodies and cryo-electron microscopy analysis of HA-SS on ferritin nanoparticles (H1-SS-np) confirmed the preservation of key structural elements. Vaccination of mice and ferrets with H1-SS-np elicited broadly cross-reactive antibodies that completely protected mice and partially protected ferrets against lethal heterosubtypic H5N1 influenza virus challenge despite the absence of detectable H5N1 neutralizing activity in vitro. Passive transfer of immunoglobulin from H1-SS-np-immunized mice to naive mice conferred protection against H5N1 challenge, indicating that vaccine-elicited HA stem-specific antibodies can protect against diverse group 1 influenza strains., Human influenza A infections are generally caused by strains with HA subtypes H1 and H3 and, for optimal efficacy, the seasonal influenza vaccine must be closely matched to the circulating [...]

Published
2015

9. Protection of calves by a prefusion-stabilized bovine RSV F vaccine

Author

Zhang, Baoshan, Chen, Lei, Silacci, Chiara, Thom, Michelle, Boyington, Jeffrey C., Druz, Aliaksandr, Joyce, M. Gordon, Guzman, Efrain, Kong, Wing- Pui, Lai, Yen-Ting, Stewart-Jones, Guillaume B. E., Tsybovsky, Yaroslav, Yang, Yongping, Zhou, Tongqing, Baxa, Ulrich, Mascola, John R., Corti, Davide, Lanzavecchia, Antonio, Taylor, Geraldine, and Kwong, Peter D.

Published
2017
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12. Self-assembling influenza nanoparticle vaccines elicit broadly neutralizing H1N1 antibodies

Author

Kanekiyo, Masaru, Wei, Chih-Jen, Yassine, Hadi M., McTamney, Patrick M., Boyington, Jeffrey C., Whittle, James R.R., Rao, Srinivas S., Kong, Wing-Pui, Wang, Lingshu, and Nabel, Gary J.

Subjects
Nanoparticles -- Research, Influenza vaccines -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Influenza viruses pose a significant threat to the public and are a burden on global health systems (1,2). Each year, influenza vaccines must be rapidly produced to match circulating viruses, a process constrained by dated technology and vulnerable to unexpected strains emerging from humans and animal reservoirs. Here we use knowledge of protein structure to design self-assembling nanoparticles that elicit broader and more potent immunity than traditional influenza vaccines. The viral haemagglutinin was genetically fused to ferritin, a protein that naturally forms nanoparticles composed of 24 identical polypeptides (3). Haemagglutinin was inserted at the interface of adjacent subunits so that it spontaneously assembled and generated eight trimeric viral spikes on its surface. Immunization with this influenza nanoparticle vaccine elicited haemagglutination inhibition antibody titres more than tenfold higher than those from the licensed inactivated vaccine. Furthermore, it elicited neutralizing antibodies to two highly conserved vulnerable haemagglutinin structures that are targets of universal vaccines: the stem (4,5) and the receptor binding site on the head (6,7). Antibodies elicited by a 1999 haemagglutinin-nanoparticle vaccine neutralized H1N1 viruses from 1934 to 2007 and protected ferrets from an unmatched 2007 H1N1 virus challenge. This structure-based, self-assembling synthetic nanoparticle vaccine improves the potency and breadth of influenza virus immunity, and it provides a foundation for building broader vaccine protection against emerging influenza viruses and other pathogens., Influenza outbreaks arise from viruses that evade human immunity. Advances in influenza virus structural biology, nanotechnology and gene delivery offer new opportunities to develop improved vaccines that can confer more [...]

Published
2013

13. Structural and genetic basis for development of broadly neutralizing influenza antibodies

Author

Lingwood, Daniel, McTamney, Patrick M., Yassine, Hadi M., Whittle, James R.R., Guo, Xiaoti, Boyington, Jeffrey C., Wei, Chih-Jen, and Nabel, Gary J.

Subjects
Genetic research -- Analysis, Viral antibodies -- Genetic aspects, Influenza vaccines -- Research, Antibodies -- Genetic aspects, Immunoglobulin genes -- Observations, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Influenza viruses take a yearly toll on human life despite efforts to contain them with seasonal vaccines. These viruses evade human immunity through the evolution of variants that resist neutralization. [...]

Published
2012
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14. Structure of HIV-1 gp120 V1/V2 domain with broadly neutralizing antibody PG9

Author

McLellan, Jason S., Pancera, Marie, Carrico, Chris, Gorman, Jason, Julien, Jean-Philippe, Khayat, Reza, Louder, Robert, Pejchal, Robert, Sastry, Mallika, Dai, Kaifan, O’Dell, Sijy, Patel, Nikita, Shahzad-ul-Hussan, Syed, Yang, Yongping, Zhang, Baoshan, Zhou, Tongqing, Zhu, Jiang, Boyington, Jeffrey C., Chuang, Gwo-Yu, Diwanji, Devan, Georgiev, Ivelin, Do Kwon, Young, Lee, Doyung, Louder, Mark K., Moquin, Stephanie, Schmidt, Stephen D., Yang, Zhi-Yong, Bonsignori, Mattia, Crump, John A., Kapiga, Saidi H., Sam, Noel E., Haynes, Barton F., Burton, Dennis R., Koff, Wayne C., Walker, Laura M., Phogat, Sanjay, Wyatt, Richard, Orwenyo, Jared, Wang, Lai-Xi, Arthos, James, Bewley, Carole A., Mascola, John R., Nabel, Gary J., Schief, William R., Ward, Andrew B., Wilson, Ian A., and Kwong, Peter D.

Published
2011
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16. Crystal structure of an NK cell immunoglobulin-like receptor in complex with its class I MHC ligand

Author

Boyington, Jeffrey C., Motyka, Shawn A., Schuck, Peter, Brooks, Andrew G., and Sun, Peter D.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Jeffrey C. Boyington [1]; Shawn A. Motyka [2]; Peter Schuck [3]; Andrew G. Brooks [4]; Peter D. Sun (corresponding author) [1] Natural killer (NK) cells constitute a vital part [...]

Published
2000
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20. Structural Biology and the Design of Effective Vaccines for HIV-1 and Other Viruses

Author

Kwong, Peter D., Nabel, Gary J., Acharya, Priyamvada, Boyington, Jeffrey C., Chen, Lei, Hood, Chantelle, Kim, Albert, Kong, Leopold, Kwon, Young Do, Majeed, Shahzad, McLellan, Jason, Ofek, Gilad, Pancera, Marie, Sastry, Mallika, Changela, Anita, Stuckey, Jonathan, and Zhou, Tongqing

Subjects
Viral Spike, Human Neutralize Antibody, Simian Immunodeficiency Virus Isolate, Respiratory Syncytial Virus, Article, Gp41 Component
Abstract

Structural biology provides a wealth of information about the three-dimensional organization and chemical makeup of proteins. An understanding of atomic-level structure offers enormous potential to design rationally proteins that stimulate specific immune responses. Yet current vaccine development efforts makes little use of structural information. At the Vaccine Research Center, a major goal is to apply structural techniques to vaccine design for challenging pathogens, that include human immunodeficiency virus type 1 (HIV-1) and other enveloped viruses such as influenza, Ebola, and respiratory syncytial viruses. Our three-part strategy involves 1.) the definition of the functional viral spike at the atomic level 2.) achieving a structural understanding of how neutralizing antibodies recognize the spike, and 3.) rational development of proteins that can elicit a specific antibody response. Overall, our strategy aims to incorporate information about viral spike-antibody interactions, to assimilate immunogenic feedback, and to leverage recent advances in immunofocusing and computational biology.

Published
2010

21. Preferential induction of cross-group influenza A hemagglutinin stem--specific memory B cells after H7N9 immunization in humans.

Author

Andrews, Sarah F., Joyce, M. Gordon, Chambers, Michael J., Gillespie, Rebecca A., Masaru Kanekiyo, Kwanyee Leung, Eun Sung Yang, Tsybovsky, Yaroslav, Wheatley, Adam K., Crank, Michelle C., Boyington, Jeffrey C., Prabhakaran, Madhu S., Narpala, Sandeep R., Xuejun Chen, Bailer, Robert T., Chen, Grace, Coates, Emily, Kwong, Peter D., Koup, Richard A., and Mascola, John R.

Subjects
INFLUENZA, B cells, HEMAGGLUTININ, INFLUENZA vaccines, ANTIGENIC drift, ANTIGENIC shift
Abstract

Antigenic drift and shift of influenza strains underscore the need for broadly protective influenza vaccines. One strategy is to design immunogens that elicit B cell responses against conserved epitopes on the hemagglutinin (HA) stem. To better understand the elicitation of HA stem--targeted B cells to group 1 and group 2 influenza subtypes, we compared the memory B cell response to group 2 H7N9 and group 1 H5N1 vaccines in humans. Upon H7N9 vaccination, almost half of the HA stem--specific response recognized the group 1 and group 2 subtypes, whereas the response to H5N1 was largely group 1--specific. Immunoglobulin repertoire analysis of HA-specific B cells indicated that the H7N9 and H5N1 vaccines induced genetically similar cross-group HA stem--binding B cells, albeit at a much higher frequency upon H7N9 vaccination. These data suggest that a group 2--based stem immunogen could prove more effective than a group 1 immunogen at eliciting broad cross-group protection in humans. [ABSTRACT FROM AUTHOR]

Published
2017
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22. Structure-Based Design of Head-Only Fusion Glycoprotein Immunogens for Respiratory Syncytial Virus.

Author

Boyington, Jeffrey C., Joyce, M. Gordon, Sastry, Mallika, Stewart-Jones, Guillaume B. E., Chen, Man, Kong, Wing-Pui, Ngwuta, Joan O., Thomas, Paul V., Tsybovsky, Yaroslav, Yang, Yongping, Zhang, Baoshan, Chen, Lei, Druz, Aliaksandr, Georgiev, Ivelin S., Ko, Kiyoon, Zhou, Tongqing, Mascola, John R., Graham, Barney S., and Kwong, Peter D.

Subjects
*RESPIRATORY syncytial virus, *CHIMERIC proteins, *GLYCOPROTEINS, *AGE factors in disease, *GENETIC mutation, *NEUTRALIZATION (Chemistry)
Abstract

Respiratory syncytial virus (RSV) is a significant cause of severe respiratory illness worldwide, particularly in infants, young children, and the elderly. Although no licensed vaccine is currently available, an engineered version of the metastable RSV fusion (F) surface glycoprotein—stabilized in the pre-fusion (pre-F) conformation by “DS-Cav1” mutations—elicits high titer RSV-neutralizing responses. Moreover, pre-F-specific antibodies, often against the neutralization-sensitive antigenic site Ø in the membrane-distal head region of trimeric F glycoprotein, comprise a substantial portion of the human response to natural RSV infection. To focus the vaccine-elicited response to antigenic site Ø, we designed a series of RSV F immunogens that comprised the membrane-distal head of the F glycoprotein in its pre-F conformation. These “head-only” immunogens formed monomers, dimers, and trimers. Antigenic analysis revealed that a majority of the 70 engineered head-only immunogens displayed reactivity to site Ø-targeting antibodies, which was similar to that of the parent RSV F DS-Cav1 trimers, often with increased thermostability. We evaluated four of these head-only immunogens in detail, probing their recognition by antibodies, their physical stability, structure, and immunogenicity. When tested in naïve mice, a head-only trimer, half the size of the parent RSV F trimer, induced RSV titers, which were statistically comparable to those induced by DS-Cav1. When used to boost DS-Cav1-primed mice, two head-only RSV F immunogens, a dimer and a trimer, boosted RSV-neutralizing titers to levels that were comparable to those boosted by DS-Cav1, although with higher site Ø-directed responses. Our results provide proof-of-concept for the ability of the smaller head-only RSV F immunogens to focus the vaccine-elicited response to antigenic site Ø. Decent primary immunogenicity, enhanced physical stability, potential ease of manufacture, and potent immunogenicity upon boosting suggest these head-only RSV F immunogens, engineered to retain the pre-fusion conformation, may have advantages as candidate RSV vaccines. [ABSTRACT FROM AUTHOR]

Published
2016
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25. The 1.5 Å Crystal Structure of Human Receptor for Advanced Glycation Endproducts (RAGE) Ectodomains Reveals Unique Features Determining Ligand Binding.

Author

Park, HaJeung and Boyington, Jeffrey C.

Subjects
*LIGAND binding (Biochemistry), *BIOCHEMISTRY, *BIOMOLECULES, *NEURODEGENERATION, *PROTEINS
Abstract

Interaction of the pattern recognition receptor, RAGE with key ligands such as advanced glycation end products (AGE), S100 proteins, amyloid β, and HMGB1 has been linked to diabetic complications, inflammatory and neurodegenerative disorders, and cancer. To help answer the question of how a single receptor can recognize and respond to a diverse set of ligands we have investigated the structure and binding properties of the first two extracellular domains of human RAGE, which are implicated in various ligand binding and subsequent signaling events. The 1.5-Å crystal structure reveals an elongated molecule with a large basic patch and a large hydrophobic patch, both highly conserved. Isothermal titration calorimetry (ITC) and deletion experiments indicate S100B recognition by RAGE is an entropically driven process involving hydrophobic interaction that is dependent on Ca2+ and on residues in the C'D loop (residues 54-67) of domain 1. In contrast, competition experiments using gel shift assays suggest that RAGE interaction with AGE is driven by the recognition of negative charges on AGE-proteins. We also demonstrate that RAGE can bind to dsDNA and dsRNA. These findings reveal versatile structural features of RAGE that help explain its ability to recognize of multiple ligands. [ABSTRACT FROM AUTHOR]

Published
2010
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26. Induction of Broadly Neutralizing H1N1 Influenza Antibodies by Vaccination.

Author

Chih-Jen Wei, Boyington, Jeffrey C., McTamney, Patrick M., Wing-Pui Kong, Pearce, Melissa B., Ling Xu, Andersen, Hanne, Rao, Srinivas, Tumpey, Terrence M., Zhi-Yong Yang, and Nabel, Gary J.

Subjects
*IMMUNITY, *COMBINED vaccines, *INFLUENZA vaccines, *HEMAGGLUTININ, *INFLUENZA A virus, H1N1 subtype, *PANDEMICS, *VIRAL antibodies
Abstract

The rapid dissemination of the 2009 pandemic influenza virus underscores the need for universal influenza vaccines that elicit protective immunity to diverse viral strains. Here, we show that vaccination with plasmid DNA encoding H1N1 influenza hemagglutinin (HA) and boosting with seasonal vaccine or replication-defective adenovirus 5 vector encoding HA stimulated the production of broadly neutralizing influenza antibodies. This prime/boost combination increased the neutralization of diverse H1N1 strains dating from 1934 to 2007 as compared to either component alone and conferred protection against divergent H1N1 viruses in mice and ferrets. These antibodies were directed to the conserved stem region of HA and were also elicited in nonhuman primates. Cross-neutralization of H1N1 subtypes elicited by this approach provides a basis for the development of a universal influenza vaccine for humans. [ABSTRACT FROM AUTHOR]

Published
2010
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28. The ever-expanding Ly49 gene family: repertoire and signaling.

Author

Boyington, Jeffrey C., Brooks, Andrew G., and Sun, Peter D.

Subjects
*MOLECULES, *KILLER cells, *IMMUNOGLOBULINS, *IMMUNE system
Abstract

The recognition of class I MHC molecules by killer cell immunoglobulin-like receptors (KIR) constitutes an integral part of immune surveillance by the innate immune system. To understand the molecular basis of this recognition, the structures of several members of this superfamily have been determined. Despite their functional diversity, members of this superfamily share many conserved structural features. A central question is how these receptors recognize their ligands. The recent determination of the crystal structure of KIR2DL2 in complex with HLA-Cw3 has revealed the molecular mechanisms underpinning this interaction, which ultimately modulates the cystolytic activity of natural killer cells. While the recognition of MHC molecules by KIR is characterized by a number of unique features, some unexpected similarities with T-cell receptor recognition of MHC molecules are also observed. The detailed interactions between KIR2DL2 and HLA-Cw3 and their functional implications will be reviewed here. [ABSTRACT FROM AUTHOR]

Published
2001

29. Crystal structure of an NK cell immunoglobulin-like receptor in complex with its class 1 MHC ligand.

Author

Boyington, Jeffrey C., Motyka, Shawn A., Schuck, Peter, Brooks, Andrew G., and Sun, Peter D.

Subjects
KILLER cells, IMMUNOGLOBULINS, PEPTIDES, IMMUNOGLOBULIN allotypes
Abstract

Investigates binding modes and mechanisms for allotypic specificity and peptide recognition in inhibitory natural killer (NK) cell immunoglobulin-like (KIR) receptors. Discussion of receptor structure; Peptide binding; Recognition; Possibilities for further study; Methods.

Published
2000
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31. Fusion peptide priming reduces immune responses to HIV-1 envelope trimer base.

Author

Corrigan, Angela R., Duan, Hongying, Cheng, Cheng, Gonelli, Christopher A., Ou, Li, Xu, Kai, DeMouth, Megan E., Geng, Hui, Narpala, Sandeep, O'Connell, Sarah, Zhang, Baoshan, Zhou, Tongqing, Basappa, Manjula, Boyington, Jeffrey C., Chen, Steven J., O'Dell, Sijy, Pegu, Amarendra, Stephens, Tyler, Tsybovsky, Yaroslav, and van Schooten, Jelle

Abstract

Soluble "SOSIP"-stabilized envelope (Env) trimers are promising HIV-vaccine immunogens. However, they induce high-titer responses against the glycan-free trimer base, which is occluded on native virions. To delineate the effect on base responses of priming with immunogens targeting the fusion peptide (FP) site of vulnerability, here, we quantify the prevalence of trimer-base antibody responses in 49 non-human primates immunized with various SOSIP-stabilized Env trimers and FP-carrier conjugates. Trimer-base responses account for ∼90% of the overall trimer response in animals immunized with trimer only, ∼70% in animals immunized with a cocktail of SOSIP trimer and FP conjugate, and ∼30% in animals primed with FP conjugates before trimer immunization. Notably, neutralization breadth in FP-conjugate-primed animals correlates inversely with trimer-base responses. Our data provide methods to quantify the prevalence of trimer-base responses and reveal that FP-conjugate priming, either alone or as part of a cocktail, can reduce the trimer-base response and improve the neutralization outcome. [Display omitted] • Devise methods to quantify antibody responses targeting the base of HIV-1 Env trimers • Fusion-peptide (FP) priming reduces anti-base responses upon HIV Env trimer boost • Lower percentage of anti-base responses correlates with improved neutralization breadth The exposed base region of soluble HIV-1 Env trimers elicits strong non-neutralizing antibody responses. Corrigan et al. quantify plasma anti-base responses in immunized NHPs and observe a reduction in anti-base responses with fusion-peptide priming. The percentage of anti-base responses correlates inversely with neutralization breadth, providing insights for improving vaccination strategies. [ABSTRACT FROM AUTHOR]

Published
2021
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32. Structure of CD94 Reveals a Novel C-Type Lectin Fold Implications for the NK Cell–Associated CD94/NKG2 Receptors

Author

Boyington, Jeffrey C., Riaz, Aisha N., Patamawenu, Apisit, Coligan, John E., Brooks, Andrew G., and Sun, Peter D.

Abstract

The crystal structure of the extracellular domain of CD94, a component of the CD94/NKG2 NK cell receptor, has been determined to 2.6 Å resolution, revealing a unique variation of the C-type lectin fold. In this variation, the second α helix, corresponding to residues 102–112, is replaced by a loop, the putative carbohydrate-binding site is significantly altered, and the Ca2+-binding site appears nonfunctional. This structure may serve as a prototype for other NK cell receptors such as Ly-49, NKR-P1, and CD69. The CD94 dimer observed in the crystal has an extensive hydrophobic interface that stabilizes the loop conformation of residues 102–112. The formation of this dimer reveals a putative ligand-binding region for HLA-E and suggests how NKG2 interacts with CD94.

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33. Cryo-EM Structures of SARS-CoV-2 Spike without and with ACE2 Reveal a pH-Dependent Switch to Mediate Endosomal Positioning of Receptor-Binding Domains.

Author

Zhou, Tongqing, Tsybovsky, Yaroslav, Gorman, Jason, Rapp, Micah, Cerutti, Gabriele, Chuang, Gwo-Yu, Katsamba, Phinikoula S., Sampson, Jared M., Schön, Arne, Bimela, Jude, Boyington, Jeffrey C., Nazzari, Alexandra, Olia, Adam S., Shi, Wei, Sastry, Mallika, Stephens, Tyler, Stuckey, Jonathan, Teng, I-Ting, Wang, Pengfei, and Wang, Shuishu

Abstract

The SARS-CoV-2 spike employs mobile receptor-binding domains (RBDs) to engage the human ACE2 receptor and to facilitate virus entry, which can occur through low-pH-endosomal pathways. To understand how ACE2 binding and low pH affect spike conformation, we determined cryo-electron microscopy structures—at serological and endosomal pH—delineating spike recognition of up to three ACE2 molecules. RBDs freely adopted "up" conformations required for ACE2 interaction, primarily through RBD movement combined with smaller alterations in neighboring domains. In the absence of ACE2, single-RBD-up conformations dominated at pH 5.5, resolving into a solitary all-down conformation at lower pH. Notably, a pH-dependent refolding region (residues 824–858) at the spike-interdomain interface displayed dramatic structural rearrangements and mediated RBD positioning through coordinated movements of the entire trimer apex. These structures provide a foundation for understanding prefusion-spike mechanics governing endosomal entry; we suggest that the low pH all-down conformation potentially facilitates immune evasion from RBD-up binding antibody. • Determine cryo-EM structures of SARS-CoV-2 spike along its endosomal entry pathway • Reveal structural basis by which a pH-dependent switch mediates RBD positioning • Show spike to exclusively adopt an all-RBD-down conformation at low pH • Suggest low-pH all-RBD-down conformation to provide a basis for immune evasion Zhou et al. determine 12 structures of the SARS-CoV-2 spike, bound by ACE2 receptor and ligand free, that reveal a pH-dependent switch to mediate positioning of spike receptor-binding domains (RBDs). At low pH, the spike adopts an all-RBD-down conformation, which provides a potential means of immune evasion from RBD-up-recognizing antibody. [ABSTRACT FROM AUTHOR]

Published
2020
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34. Structure of Super-Potent Antibody CAP256-VRC26.25 in Complex with HIV-1 Envelope Reveals a Combined Mode of Trimer-Apex Recognition.

Author

Gorman, Jason, Chuang, Gwo-Yu, Lai, Yen-Ting, Shen, Chen-Hsiang, Boyington, Jeffrey C., Druz, Aliaksandr, Geng, Hui, Louder, Mark K., McKee, Krisha, Rawi, Reda, Verardi, Raffaello, Yang, Yongping, Zhang, Baoshan, Doria-Rose, Nicole A., Lin, Bob, Moore, Penny L., Morris, Lynn, Shapiro, Lawrence, Mascola, John R., and Kwong, Peter D.

Abstract

Antibodies targeting the V1V2 apex of the HIV-1 envelope (Env) trimer comprise one of the most commonly elicited categories of broadly neutralizing antibodies. Structures of these antibodies indicate diverse modes of Env recognition typified by antibodies of the PG9 class and the PGT145 class. The mode of recognition, however, has been unclear for the most potent of the V1V2 apex-targeting antibodies, CAP256-VRC26.25 (named for donor-lineage.clone and referred to hereafter as VRC26.25). Here, we determine the cryoelectron microscopy structure at 3.7 Å resolution of the antigen-binding fragment of VRC26.25 in complex with the Env trimer thought to have initiated the lineage. The 36-residue protruding loop of VRC26.25 displays recognition incorporating both strand-C interactions similar to the PG9 class and V1V2 apex insertion similar to the PGT145 class. Structural elements of separate antibody classes can thus intermingle to form a "combined" class, which in this case yields an antibody of extraordinary potency. • Structure of CAP256-VRC26.25 bound to lineage-initiating Env trimer • CAP256-VRC26.25 engages HIV-1 V1V2 C-strand similarly to the PG9 antibody class • CAP256-VRC26.25 inserts into Env trimer apex similarly to the PGT145 antibody class • VRC26 exhibits "combined" recognition, intermingling components of distinct classes Antibody CAP256-VRC26.25 is one of the most potent known HIV-1-neutralizing antibodies. Gorman et al. determine the cryo-EM structure of this antibody in complex with the Env trimer that initiated the antibody lineage. The structure reveals how elements of distinct antibody classes can intermingle to yield an antibody of extraordinary potency. [ABSTRACT FROM AUTHOR]

Published
2020
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35. Development of a 3Mut-Apex-Stabilized Envelope Trimer That Expands HIV-1 Neutralization Breadth When Used To Boost Fusion Peptide-Directed Vaccine-Elicited Responses.

Author

Gwo-Yu Chuang, Yen-Ting Lai, Boyington, Jeffrey C., Cheng Cheng, Hui Geng, Narpala, Sandeep, Rawi, Reda, Schmidt, Stephen D., Tsybovsky, Yaroslav, Verardi, Raffaello, Kai Xu, Yongping Yang, Baoshan Zhang, Chambers, Michael, Changela, Anita, Corrigan, Angela R., Rui Kong, Olia, Adam S., Li Ou, and Sarfo, Edward K.

Subjects
*N-terminal residues, *DIHEDRAL angles, *VACCINE effectiveness, *GUINEA pigs, *VACCINE trials
Abstract

HIV-1 envelope (Env) trimers, stabilized in a prefusion-closed conformation, can elicit humoral responses capable of neutralizing HIV-1 strains closely matched in sequence to the immunizing strain. One strategy to increase elicited neutralization breadth involves vaccine priming of immune responses against a target site of vulnerability, followed by vaccine boosting of these responses with prefusion-closed Env trimers. This strategy has succeeded at the fusion peptide (FP) site of vulnerability in eliciting cross-clade neutralizing responses in standard vaccine-test animals. However, the breadth and potency of the elicited responses have been less than optimal. Here, we identify three mutations (3mut), Met302, Leu320, and Pro329, that stabilize the apex of the Env trimer in a prefusion-closed conformation and show antigenically, structurally, and immunogenically that combining 3mut with other approaches (e.g., repair and stabilize and glycine-helix breaking) yields well-behaved clade C-Env trimers capable of boosting the breadth of FPdirected responses. Crystal structures of these trimers confirmed prefusion-closed apexes stabilized by hydrophobic patches contributed by Met302 and Leu320, with Pro329 assuming canonically restricted dihedral angles. We substituted the N-terminal eight residues of FP (FP8, residues 512 to 519) of these trimers with the second most prevalent FP8 sequence (FP8v2, AVGLGAVF) and observed a 3mutstabilized consensus clade C-Env trimer with FP8v2 to boost the breadth elicited in guinea pigs of FP-directed responses induced by immunogens containing the most prevalent FP8 sequence (FP8v1, AVGIGAVF). Overall, 3mut can stabilize the Env trimer apex, and the resultant apex-stabilized Env trimers can be used to expand the neutralization breadth elicited against the FP site of vulnerability. IMPORTANCE A major hurdle to the development of an effective HIV-1 vaccine is the elicitation of serum responses capable of neutralizing circulating strains of HIV, which are extraordinarily diverse in sequence and often highly neutralization resistant. Recently, we showed how sera with 20 to 30% neutralization breadth could, nevertheless, be elicited in standard vaccine test animals by priming with the most prevalent N-terminal 8 residues of the HIV-1 fusion peptide (FP8), followed by boosting with a stabilized BG505-envelope (Env) trimer. Here, we show that subsequent boosting with a 3mut-apex-stabilized consensus C-Env trimer, modified to have the second most prevalent FP8 sequence, elicits higher neutralization breadth than that induced by continued boosting with the stabilized BG505-Env trimer. With increased neutralizing breadth elicited by boosting with a heterologous trimer containing the second most prevalent FP8 sequence, the fusion peptide-directed immune-focusing approach moves a step closer toward realizing an effective HIV-1 vaccine regimen. [ABSTRACT FROM AUTHOR]

Published
2020
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36. The 1.4 Å Crystal Structure of the Human Oxidized Low Density Lipoprotein Receptor Lox-1.

Author

HaJeung Park, Adsit, Floyd G., and Boyington, Jeffrey C.

Subjects
*LOW density lipoproteins, *OXIDATION, *AMINO acids, *ORGANIC acids, *VASCULAR endothelium, *LIPOPROTEINS, *ATHEROSCLEROSIS
Abstract

The lectin-like oxidized low density lipoprotein receptor-1 (Lox-1) mediates the recognition and internalization of oxidatively modified low density lipoprotein by vascular endothelial cells. This interaction results in a number of pro-atherogenic cellular responses that probably play a significant role in the pathology of atherosclerosis. The 1.4 Å crystal structure of the extracellular C-type lectin-like domain of human Lox-1 reveals a heart-shaped homodimer with a ridge of six basic amino acids extending diagonally across the apolar top of Lox-1, a central hydrophobic tunnel that extends through the entire molecule, and an electrostatically neutral patch of 12 charged residues that resides next to the tunnel at each opening. Based on the arrangement of critical binding residues on the Lox-1 structure, we propose a binding mode for the recognition of modified low density lipoprotein and other Lox-1 ligands. [ABSTRACT FROM AUTHOR]

Published
2005
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37. Glycan Masking Focuses Immune Responses to the HIV-1 CD4-Binding Site and Enhances Elicitation of VRC01-Class Precursor Antibodies.

Author

Duan, Hongying, Chen, Xuejun, Boyington, Jeffrey C., Cheng, Cheng, Zhang, Yi, Jafari, Alexander J., Stephens, Tyler, Tsybovsky, Yaroslav, Kalyuzhniy, Oleksandr, Zhao, Peng, Menis, Sergey, Nason, Martha C., Normandin, Erica, Mukhamedova, Maryam, DeKosky, Brandon J., Wells, Lance, Schief, William R., Tian, Ming, Alt, Frederick W., and Kwong, Peter D.

Subjects
*IMMUNOGLOBULINS, *CD4 antigen, *GLYCOPROTEINS, *GLYCANS, *B cells
Abstract

Summary An important class of HIV-1 broadly neutralizing antibodies, termed the VRC01 class, targets the conserved CD4-binding site (CD4bs) of the envelope glycoprotein (Env). An engineered Env outer domain (OD) eOD-GT8 60-mer nanoparticle has been developed as a priming immunogen for eliciting VRC01-class precursors and is planned for clinical trials. However, a substantial portion of eOD-GT8-elicited antibodies target non-CD4bs epitopes, potentially limiting its efficacy. We introduced N- linked glycans into non-CD4bs surfaces of eOD-GT8 to mask irrelevant epitopes and evaluated these mutants in a mouse model that expressed diverse immunoglobulin heavy chains containing human IGHV1-2 ∗ 02, the germline VRC01 V H segment. Compared to the parental eOD-GT8, a mutant with five added glycans stimulated significantly higher proportions of CD4bs-specific serum responses and CD4bs-specific immunoglobulin G + B cells including VRC01-class precursors. These results demonstrate that glycan masking can limit elicitation of off-target antibodies and focus immune responses to the CD4bs, a major target of HIV-1 vaccine design. [ABSTRACT FROM AUTHOR]

Published
2018
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38. Vaccine-Induced Antibodies that Neutralize Group 1 and Group 2 Influenza A Viruses.

Author

Joyce, M. Gordon, Wheatley, Adam K., Thomas, Paul V., Chuang, Gwo-Yu, Soto, Cinque, Bailer, Robert T., Druz, Aliaksandr, Georgiev, Ivelin S., Gillespie, Rebecca A., Kanekiyo, Masaru, Kong, Wing-Pui, Leung, Kwanyee, Narpala, Sandeep N., Prabhakaran, Madhu S., Yang, Eun Sung, Zhang, Baoshan, Zhang, Yi, Asokan, Mangaiarkarasi, Boyington, Jeffrey C., and Bylund, Tatsiana

Subjects
*IMMUNOGLOBULINS, *INFLUENZA A virus, *HEMAGGLUTININ, *EPITOPES, *IMMUNIZATION, *CRYSTAL structure, *VACCINATION
Abstract

Summary Antibodies capable of neutralizing divergent influenza A viruses could form the basis of a universal vaccine. Here, from subjects enrolled in an H5N1 DNA/MIV-prime-boost influenza vaccine trial, we sorted hemagglutinin cross-reactive memory B cells and identified three antibody classes, each capable of neutralizing diverse subtypes of group 1 and group 2 influenza A viruses. Co-crystal structures with hemagglutinin revealed that each class utilized characteristic germline genes and convergent sequence motifs to recognize overlapping epitopes in the hemagglutinin stem. All six analyzed subjects had sequences from at least one multidonor class, and—in half the subjects—multidonor-class sequences were recovered from >40% of cross-reactive B cells. By contrast, these multidonor-class sequences were rare in published antibody datasets. Vaccination with a divergent hemagglutinin can thus increase the frequency of B cells encoding broad influenza A-neutralizing antibodies. We propose the sequence signature-quantified prevalence of these B cells as a metric to guide universal influenza A immunization strategies. [ABSTRACT FROM AUTHOR]

Published
2016
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39. Enhanced Potency of a Broadly Neutralizing HIV-1 Antibody In Vitro Improves Protection against Lentiviral Infection In Vivo.

Author

Rudicell, Rebecca S., Young Do Kwon, Sung-Youl Ko, Pegu, Amarendra, Louder, Mark K., Georgiev, Ivelin S., Xueling Wu, Jiang Zhu, Boyington, Jeffrey C., Xuejun Chen, Wei Shi, Zhi-yong Yang, Doria-Rose, Nicole A., McKee, Krisha, O'Dell, Sijy, Schmidt, Stephen D., Gwo-Yu Chuang, Druz, Aliaksandr, Soto, Cinque, and Yongping Yang

Subjects
*HIV antibodies, *HIV infections, *LENTIVIRUS diseases, *SIMIAN immunodeficiency virus, *PRIMATE diseases
Abstract

Over the past 5 years, a new generation of highly potent and broadly neutralizing HIV-1 antibodies has been identified. These antibodies can protect against lentiviral infection in nonhuman primates (NHPs), suggesting that passive antibody transfer would prevent HIV-1 transmission in humans. To increase the protective efficacy of such monoclonal antibodies, we employed next-generation sequencing, computational bioinformatics, and structure-guided design to enhance the neutralization potency and breadth of VRC01, an antibody that targets the CD4 binding site of the HIV-1 envelope. One variant, VRC07-523, was 5- to 8-fold more potent than VRC01, neutralized 96% of viruses tested, and displayed minimal autoreactivity. To compare its protective efficacy to that of VRC01 in vivo, we performed a series of simian-human immunodeficiency virus (SHIV) challenge experiments in nonhuman primates and calculated the doses of VRC07-523 and VRC01 that provide 50% protection (EC50). VRC07- 523 prevented infection in NHPs at a 5-fold lower concentration than VRC01. These results suggest that increased neutralization potency in vitro correlates with improved protection against infection in vivo, documenting the improved functional efficacy of VRC07-523 and its potential clinical relevance for protecting against HIV-1 infection in humans. [ABSTRACT FROM AUTHOR]

Published
2014
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40. Biochemical and Structural Characterization of Cathepsin L-Processed Ebola Virus Glycoprotein: Implications for Viral Entry and Immunogenicity.

Author

Hood, Chantelle L., Abraham, Jonathan, Boyington, Jeffrey C., Kwanyee Leung, Kwong, Peter D., and Nabel, Gary J.

Subjects
*GLYCOPROTEINS
Abstract

Ebola virus (EBOV) cellular attachment and entry is initiated by the envelope glycoprotein (GP) on the virion surface. Entry of this virus is pH dependent and associated with the cleavage of GP by proteases, including cathepsin L (CatL) and/or CatB, in the endosome or cell membrane. Here, we characterize the product of CatL cleavage of Zaire EBOV GP (ZEBOV-GP) and evaluate its relevance to entry. A stabilized recombinant form of the EBOV GP trimer was generated using a trimerization domain linked to a cleavable histidine tag. This trimer was purified to homogeneity and cleaved with CatL. Characterization of the trimeric product by N-terminal sequencing and mass spectrometry revealed three cleavage fragments, with masses of 23, 19, and 4 kDa. Structure-assisted modeling of the cathepsin L-cleaved ZEBOV-GP revealed that cleavage removes a glycosylated glycan cap and mucin-like domain (MUC domain) and exposes the conserved core residues implicated in receptor binding. The CatL-cleaved ZEBOV-GP intermediate bound with high affinity to a neutralizing antibody, KZ52, and also elicited neutralizing antibodies, supporting the notion that the processed intermediate is required for viral entry. Together, these data suggest that CatL cleavage of EBOV GP exposes its receptor-binding domain, thereby facilitating access to a putative cellular receptor in steps that lead to membrane fusion. [ABSTRACT FROM AUTHOR]

Published
2010
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41. Activation Dynamics and Immunoglobulin Evolution of Pre-existing and Newly Generated Human Memory B cell Responses to Influenza Hemagglutinin.

Author

Andrews, Sarah F., Chambers, Michael J., Schramm, Chaim A., Plyler, Jason, Raab, Julie E., Kanekiyo, Masaru, Gillespie, Rebecca A., Ransier, Amy, Darko, Sam, Hu, Jianfei, Chen, Xuejun, Yassine, Hadi M., Boyington, Jeffrey C., Crank, Michelle C., Chen, Grace L., Coates, Emily, Mascola, John R., Douek, Daniel C., Graham, Barney S., and Ledgerwood, Julie E.

Subjects
*B cells, *MEMORY, *HEMAGGLUTININ, *INFLUENZA, *INFLUENZA vaccines
Abstract

Vaccine-induced memory B cell responses to evolving viruses like influenza A involve activation of pre-existing immunity and generation of new responses. To define the contribution of these two types of responses, we analyzed the response to H7N9 vaccination in H7N9-naive adults. We performed comprehensive comparisons at the single-cell level of the kinetics, Ig repertoire, and activation phenotype of established pre-existing memory B cells recognizing conserved epitopes and the newly generated memory B cells directed toward H7 strain-specific epitopes. The recall response to conserved epitopes on H7 HA involved a transient expansion of memory B cells with little observed adaptation. However, the B cell response to newly encountered epitopes was phenotypically distinct and generated a sustained memory population that evolved and affinity matured months after vaccination. These findings establish clear differences between newly generated and pre-existing memory B cells, highlighting the challenges in achieving long-lasting, broad protection against an ever-evolving virus. • Newly generated memory B cells evolve and affinity mature over several months • Long-term pre-existing memory B cells evolve little upon re-vaccination • Newly generated memory B cells transiently become atypical, T-bethi CD21lo CD27− • T-betlo CD21hi CD27−, but not CD27+, resting memory B cells are maintained long-term Influenza vaccination occurs in the context of pre-existing immunity. Andrews et al. compare the pre-existing memory IgG B cell response recognizing conserved epitopes on influenza hemagglutinin with the newly generated response to strain-specific epitopes upon H7N9 vaccination. The differences in magnitude, phenotype, and affinity maturation between the two responses highlight the challenges in achieving long-lasting, broad protection against an ever-evolving virus. [ABSTRACT FROM AUTHOR]

Published
2019
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42. Cryo-EM Structures Delineate a pH-Dependent Switch that Mediates Endosomal Positioning of SARS-CoV-2 Spike Receptor-Binding Domains.

Author

Zhou T, Tsybovsky Y, Olia AS, Gorman J, Rapp MA, Cerutti G, Chuang GY, Katsamba PS, Nazzari A, Sampson JM, Schon A, Wang PD, Bimela J, Shi W, Teng IT, Zhang B, Boyington JC, Sastry M, Stephens T, Stuckey J, Wang S, Friesner RA, Ho DD, Mascola JR, Shapiro L, and Kwong PD

Abstract

The SARS-CoV-2 spike employs mobile receptor-binding domains (RBDs) to engage the ACE2 receptor and to facilitate virus entry. Antibodies can engage RBD but some, such as CR3022, fail to inhibit entry despite nanomolar spike affinity. Here we show the SARS-CoV-2 spike to have low unfolding enthalpy at serological pH and up to 10-times more unfolding enthalpy at endosomal pH, where we observe significantly reduced CR3022 affinity. Cryo-EM structures -at serological and endosomal pH- delineated spike recognition of up to three ACE2 molecules, revealing RBD to freely adopt the 'up' conformation. In the absence of ACE2, single-RBD-up conformations dominated at pH 5.5, resolving into a locked all-down conformation at lower pH. Notably, a pH-dependent refolding region (residues 824-858) at the spike-interdomain interface displayed dramatic structural rearrangements and mediated RBD positioning and spike shedding of antibodies like CR3022. An endosomal mechanism involving spike-conformational change can thus facilitate immune evasion from RBD-'up'-recognizing antibody.

Published
2020
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43. Development of a 3Mut-Apex-Stabilized Envelope Trimer That Expands HIV-1 Neutralization Breadth When Used To Boost Fusion Peptide-Directed Vaccine-Elicited Responses.

Author

Chuang GY, Lai YT, Boyington JC, Cheng C, Geng H, Narpala S, Rawi R, Schmidt SD, Tsybovsky Y, Verardi R, Xu K, Yang Y, Zhang B, Chambers M, Changela A, Corrigan AR, Kong R, Olia AS, Ou L, Sarfo EK, Wang S, Wu W, Doria-Rose NA, McDermott AB, Mascola JR, and Kwong PD

Subjects
Animals, Antibodies, Neutralizing immunology, Female, Guinea Pigs, HEK293 Cells, HIV Antibodies immunology, HIV Seropositivity, HIV-1 immunology, Humans, Immunization, Secondary, Peptides, Vaccines, Subunit, AIDS Vaccines immunology, env Gene Products, Human Immunodeficiency Virus genetics, env Gene Products, Human Immunodeficiency Virus immunology
Abstract

HIV-1 envelope (Env) trimers, stabilized in a prefusion-closed conformation, can elicit humoral responses capable of neutralizing HIV-1 strains closely matched in sequence to the immunizing strain. One strategy to increase elicited neutralization breadth involves vaccine priming of immune responses against a target site of vulnerability, followed by vaccine boosting of these responses with prefusion-closed Env trimers. This strategy has succeeded at the fusion peptide (FP) site of vulnerability in eliciting cross-clade neutralizing responses in standard vaccine-test animals. However, the breadth and potency of the elicited responses have been less than optimal. Here, we identify three mutations (3mut), Met302, Leu320, and Pro329, that stabilize the apex of the Env trimer in a prefusion-closed conformation and show antigenically, structurally, and immunogenically that combining 3mut with other approaches (e.g., repair and stabilize and glycine-helix breaking) yields well-behaved clade C-Env trimers capable of boosting the breadth of FP-directed responses. Crystal structures of these trimers confirmed prefusion-closed apexes stabilized by hydrophobic patches contributed by Met302 and Leu320, with Pro329 assuming canonically restricted dihedral angles. We substituted the N-terminal eight residues of FP (FP8, residues 512 to 519) of these trimers with the second most prevalent FP8 sequence (FP8v2, AVGLGAVF) and observed a 3mut-stabilized consensus clade C-Env trimer with FP8v2 to boost the breadth elicited in guinea pigs of FP-directed responses induced by immunogens containing the most prevalent FP8 sequence (FP8v1, AVGIGAVF). Overall, 3mut can stabilize the Env trimer apex, and the resultant apex-stabilized Env trimers can be used to expand the neutralization breadth elicited against the FP site of vulnerability. IMPORTANCE A major hurdle to the development of an effective HIV-1 vaccine is the elicitation of serum responses capable of neutralizing circulating strains of HIV, which are extraordinarily diverse in sequence and often highly neutralization resistant. Recently, we showed how sera with 20 to 30% neutralization breadth could, nevertheless, be elicited in standard vaccine test animals by priming with the most prevalent N-terminal 8 residues of the HIV-1 fusion peptide (FP8), followed by boosting with a stabilized BG505-envelope (Env) trimer. Here, we show that subsequent boosting with a 3mut-apex-stabilized consensus C-Env trimer, modified to have the second most prevalent FP8 sequence, elicits higher neutralization breadth than that induced by continued boosting with the stabilized BG505-Env trimer. With increased neutralizing breadth elicited by boosting with a heterologous trimer containing the second most prevalent FP8 sequence, the fusion peptide-directed immune-focusing approach moves a step closer toward realizing an effective HIV-1 vaccine regimen., (Copyright © 2020 American Society for Microbiology.)

Published
2020
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44. Design of Nanoparticulate Group 2 Influenza Virus Hemagglutinin Stem Antigens That Activate Unmutated Ancestor B Cell Receptors of Broadly Neutralizing Antibody Lineages.

Author

Corbett KS, Moin SM, Yassine HM, Cagigi A, Kanekiyo M, Boyoglu-Barnum S, Myers SI, Tsybovsky Y, Wheatley AK, Schramm CA, Gillespie RA, Shi W, Wang L, Zhang Y, Andrews SF, Joyce MG, Crank MC, Douek DC, McDermott AB, Mascola JR, Graham BS, and Boyington JC

Subjects
Animals, Antigens, Viral genetics, Cross Reactions, Drug Carriers metabolism, Ferritins metabolism, Hemagglutinin Glycoproteins, Influenza Virus genetics, Immunity, Heterologous, Influenza Vaccines genetics, Influenza Vaccines isolation & purification, Mice, Protein Multimerization, Vaccines, Virus-Like Particle genetics, Vaccines, Virus-Like Particle isolation & purification, Antibodies, Neutralizing blood, Antibodies, Viral blood, Antigens, Viral immunology, B-Lymphocytes immunology, Hemagglutinin Glycoproteins, Influenza Virus immunology, Influenza Vaccines immunology, Vaccines, Virus-Like Particle immunology
Abstract

Influenza vaccines targeting the highly conserved stem of the hemagglutinin (HA) surface glycoprotein have the potential to protect against pandemic and drifted seasonal influenza viruses not covered by current vaccines. While HA stem-based immunogens derived from group 1 influenza A viruses have been shown to induce intragroup heterosubtypic protection, HA stem-specific antibody lineages originating from group 2 may be more likely to possess broad cross-group reactivity. We report the structure-guided development of mammalian-cell-expressed candidate vaccine immunogens based on influenza A virus group 2 H3 and H7 HA stem trimers displayed on self-assembling ferritin nanoparticles using an iterative, multipronged approach involving helix stabilization, loop optimization, disulfide bond addition, and side-chain repacking. These immunogens were thermostable, formed uniform and symmetric nanoparticles, were recognized by cross-group-reactive broadly neutralizing antibodies (bNAbs) with nanomolar affinity, and elicited protective, homosubtypic antibodies in mice. Importantly, several immunogens were able to activate B cells expressing inferred unmutated common ancestor (UCA) versions of cross-group-reactive human bNAbs from two multidonor classes, suggesting they could initiate elicitation of these bNAbs in humans. IMPORTANCE Current influenza vaccines are primarily strain specific, requiring annual updates, and offer minimal protection against drifted seasonal or pandemic strains. The highly conserved stem region of hemagglutinin (HA) of group 2 influenza A virus subtypes is a promising target for vaccine elicitation of broad cross-group protection against divergent strains. We used structure-guided protein engineering employing multiple protein stabilization methods simultaneously to develop group 2 HA stem-based candidate influenza A virus immunogens displayed as trimers on self-assembling nanoparticles. Characterization of antigenicity, thermostability, and particle formation confirmed structural integrity. Group 2 HA stem antigen designs were identified that, when displayed on ferritin nanoparticles, activated B cells expressing inferred unmutated common ancestor (UCA) versions of human antibody lineages associated with cross-group-reactive, broadly neutralizing antibodies (bNAbs). Immunization of mice led to protection against a lethal homosubtypic influenza virus challenge. These candidate vaccines are now being manufactured for clinical evaluation.

Published
2019
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45. Outer domain of HIV-1 gp120: antigenic optimization, structural malleability, and crystal structure with antibody VRC-PG04.

Author

Joyce MG, Kanekiyo M, Xu L, Biertümpfel C, Boyington JC, Moquin S, Shi W, Wu X, Yang Y, Yang ZY, Zhang B, Zheng A, Zhou T, Zhu J, Mascola JR, Kwong PD, and Nabel GJ

Subjects
Amino Acid Sequence, Antibodies, Neutralizing chemistry, Antibodies, Neutralizing metabolism, Antigens, Viral chemistry, Antigens, Viral genetics, Antigens, Viral immunology, Crystallography, X-Ray, Epitopes chemistry, Epitopes genetics, Epitopes immunology, HIV Antibodies metabolism, HIV Envelope Protein gp120 genetics, HIV-1 genetics, Models, Molecular, Molecular Sequence Data, Protein Structure, Quaternary, Sequence Alignment, HIV Antibodies chemistry, HIV Envelope Protein gp120 chemistry, HIV Envelope Protein gp120 immunology, HIV-1 chemistry, HIV-1 immunology
Abstract

The outer domain of the HIV-1 gp120 envelope glycoprotein contains the epitope for broadly neutralizing antibodies directed to the CD4-binding site, many of which are able to neutralize over 90% of circulating HIV-1 isolates. While the outer domain is conformationally more stable than other portions of the HIV-1 envelope, efforts to express the outer domain as an immunogen for eliciting broadly neutralizing antibodies have not been successful, potentially because natural outer domain variants do not bind strongly to antibodies such as VRC01. In this study, we optimized the antigenic properties of the HIV-1 Env outer domain to generate OD4.2.2, from the KER2018 strain of clade A HIV-1, enabling it to bind antibodies such as VRC01 with nanomolar affinity. The crystal structure of OD4.2.2 in complex with VRC-PG04 was solved at 3.0-Å resolution and compared to known crystal structures including (i) the structure of core gp120 bound by VRC-PG04 and (ii) a circularly permutated version of the outer domain in complex with antibody PGT128. Much of the VRC-PG04 epitope was preserved in the OD4.2.2 structure, though with altered N and C termini conformations. Overall, roughly one-third of the outer domain structure appeared to be fixed in conformation, independent of alterations in termini, clade, or ligand, while other portions of the outer domain displayed substantial structural malleability. The crystal structure of OD4.2.2 with VRC-PG04 provides atomic-level details for an HIV-1 domain recognized by broadly neutralizing antibodies and insights relevant to the rational design of an immunogen that could elicit such antibodies by vaccination.

Published
2013
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46. Elicitation of broadly neutralizing influenza antibodies in animals with previous influenza exposure.

Author

Wei CJ, Yassine HM, McTamney PM, Gall JG, Whittle JR, Boyington JC, and Nabel GJ

Subjects
Animals, Antibody Formation immunology, Antibody Specificity immunology, Ferrets immunology, Ferrets virology, Hemagglutination Inhibition Tests, Hemagglutinin Glycoproteins, Influenza Virus immunology, Humans, Immune Sera, Immunity immunology, Immunization, Secondary, Influenza A Virus, H1N1 Subtype immunology, Influenza, Human prevention & control, Mice, Orthomyxoviridae Infections prevention & control, Orthomyxoviridae Infections virology, Vaccination, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, Influenza, Human immunology, Orthomyxoviridae Infections immunology
Abstract

The immune system responds to influenza infection by producing neutralizing antibodies to the viral surface protein, hemagglutinin (HA), which regularly changes its antigenic structure. Antibodies that target the highly conserved stem region of HA neutralize diverse influenza viruses and can be elicited through vaccination in animals and humans. Efforts to develop universal influenza vaccines have focused on strategies to elicit such antibodies; however, the concern has been raised that previous influenza immunity may abrogate the induction of such broadly protective antibodies. We show here that prime-boost immunization can induce broadly neutralizing antibody responses in influenza-immune mice and ferrets that were previously infected or vaccinated. HA stem-directed antibodies were elicited in mice primed with a DNA vaccine and boosted with inactivated vaccine from H1N1 A/New Caledonia/20/1999 (1999 NC) HA regardless of preexposure. Similarly, gene-based vaccination with replication-defective adenovirus 28 (rAd28) and 5 (rAd5) vectors encoding 1999 NC HA elicited stem-directed neutralizing antibodies and conferred protection against unmatched 1934 and 2007 H1N1 virus challenge in influenza-immune ferrets. Indeed, previous exposure to certain strains could enhance immunogenicity: The strongest HA stem-directed immune response was observed in ferrets previously infected with a divergent 1934 H1N1 virus. These findings suggest that broadly neutralizing antibodies against the conserved stem region of HA can be elicited through vaccination despite previous influenza exposure, which supports the feasibility of developing stem-directed universal influenza vaccines for humans.

Published
2012
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47. The 1.4 angstrom crystal structure of the human oxidized low density lipoprotein receptor lox-1.

Author

Park H, Adsit FG, and Boyington JC

Subjects
Amino Acid Sequence, Animals, Crystallography, X-Ray, Dimerization, Humans, Lipoproteins, LDL metabolism, Models, Molecular, Molecular Sequence Data, Receptors, LDL genetics, Receptors, LDL metabolism, Receptors, Oxidized LDL, Scavenger Receptors, Class E, Sequence Alignment, Protein Structure, Quaternary, Receptors, LDL chemistry
Abstract

The lectin-like oxidized low density lipoprotein receptor-1 (Lox-1) mediates the recognition and internalization of oxidatively modified low density lipoprotein by vascular endothelial cells. This interaction results in a number of pro-atherogenic cellular responses that probably play a significant role in the pathology of atherosclerosis. The 1.4 angstrom crystal structure of the extracellular C-type lectin-like domain of human Lox-1 reveals a heart-shaped homodimer with a ridge of six basic amino acids extending diagonally across the apolar top of Lox-1, a central hydrophobic tunnel that extends through the entire molecule, and an electrostatically neutral patch of 12 charged residues that resides next to the tunnel at each opening. Based on the arrangement of critical binding residues on the Lox-1 structure, we propose a binding mode for the recognition of modified low density lipoprotein and other Lox-1 ligands.

Published
2005
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48. Overview of protein structural and functional folds.

Author

Sun PD, Foster CE, and Boyington JC

Subjects
Animals, Computational Biology, Cytoskeleton metabolism, DNA metabolism, Databases, Protein, Electron Transport, Humans, Immune System physiology, Models, Molecular, Muscles metabolism, RNA metabolism, Receptors, Cell Surface, Signal Transduction physiology, Software, Protein Conformation, Protein Folding, Proteins chemistry, Proteins genetics, Proteins metabolism
Abstract

This overview provides an illustrated, comprehensive survey of some commonly observed protein-fold families and structural motifs, chosen for their functional significance. It opens with descriptions and definitions of the various elements of protein structure and associated terminology. Following is an introduction into web-based structural bioinformatics that includes surveys of interactive web servers for protein fold or domain annotation, protein-structure databases, protein-structure-classification databases, structural alignments of proteins, and molecular graphics programs available for personal computers. The rest of the overview describes selected families of protein folds in terms of their secondary, tertiary, and quaternary structural arrangements, including ribbon-diagram examples, tables of representative structures with references, and brief explanations pointing out their respective biological and functional significance.

Published
2004
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