Your search keyword '"Cara W. Chao"' showing total 7 results

1. Extended antibody-framework-to-antigen distance observed exclusively with broad HIV-1-neutralizing antibodies recognizing glycan-dense surfaces

Author

Cara W. Chao, Reda Rawi, Adam S. Olia, Lawrence Shapiro, Mark K. Louder, Baoshan Zhang, Susan Zolla-Pazner, Nicole A. Doria-Rose, Peter D. Kwong, Tatsiana Bylund, Gwo-Yu Chuang, Anita Changela, Jason Gorman, Bob C. Lin, and Myungjin Lee

Subjects

Glycan, Classification and taxonomy, Science, Human immunodeficiency virus (HIV), General Physics and Astronomy, Trimer, HIV Infections, Antigen-Antibody Complex, HIV Antibodies, Molecular Dynamics Simulation, medicine.disease_cause, General Biochemistry, Genetics and Molecular Biology, Article, Epitopes, Antigen, Cryoelectron microscopy, medicine, Humans, Multidisciplinary, biology, Chemistry, A protein, General Chemistry, computer.file_format, Protein Data Bank, Antibodies, Neutralizing, carbohydrates (lipids), Structural biology, biology.protein, Biophysics, HIV-1, Antibody, computer, Broadly Neutralizing Antibodies

Abstract

Antibody-Framework-to-Antigen Distance (AFAD) – the distance between the body of an antibody and a protein antigen – is an important parameter governing antibody recognition. Here, we quantify AFAD for ~2,000 non-redundant antibody-protein-antigen complexes in the Protein Data Bank. AFADs showed a gaussian distribution with mean of 16.3 Å and standard deviation (σ) of 2.4 Å. Notably, antibody-antigen complexes with extended AFADs (>3σ) were exclusively human immunodeficiency virus-type 1 (HIV-1)-neutralizing antibodies. High correlation (R2 = 0.8110) was observed between AFADs and glycan coverage, as assessed by molecular dynamics simulations of the HIV-1-envelope trimer. Especially long AFADs were observed for antibodies targeting the glycosylated trimer apex, and we tested the impact of introducing an apex-glycan hole (N160K); the cryo-EM structure of the glycan hole-targeting HIV-1-neutralizing antibody 2909 in complex with an N160K-envelope trimer revealed a substantially shorter AFAD. Overall, extended AFADs exclusively recognized densely glycosylated surfaces, with the introduction of a glycan hole enabling closer recognition., Here, the authors analyse the distance between the body of an antibody and a protein antigen denoted as the Antibody-Framework-to-Antigen Distance (AFAD) for about 2000 non-redundant antibody-protein antigen complexes in the Protein Data Bank. They observe that antibodies with exceptionally long AFADs were all broad HIV-1-neutralizing antibodies that targeted densely glycosylated regions on the HIV-1-envelope trimer. The connection between long AFAD and dense glycan was further validated by the cryo-EM structure of antibody 2909 recognizing a glycan hole and by glycan shielding analyses based on molecular dynamics simulations.

Published

2021

2. A platform incorporating trimeric antigens into self-assembling nanoparticles reveals SARS-CoV-2-spike nanoparticles to elicit substantially higher neutralizing responses than spike alone

Author

Nancy J. Sullivan, Juan I. Moliva, Adam S. Olia, Shuishu Wang, Baoshan Zhang, Emily Phung, Peter D. Kwong, Christina Yap, Anne P. Werner, Barney S. Graham, Cara W. Chao, Raffaello Verardi, Lingshu Wang, Guillaume Stewart-Jones, Kizzmekia S. Corbett, John R. Mascola, Geoffrey B. Hutchinson, Amarendra Pegu, Olubukola M. Abiona, Eun Sung Yang, Yaroslav Tsybovsky, and Tongqing Zhou

Subjects

Antigenicity, Glycan, Surface Properties, Pneumonia, Viral, lcsh:Medicine, Lumazine synthase, Virus, Article, law.invention, Betacoronavirus, Mice, Immune system, Bacterial Proteins, Antigen, law, Multienzyme Complexes, Neutralization Tests, Cryoelectron microscopy, Animals, Humans, Antigens, lcsh:Science, Pandemics, chemistry.chemical_classification, Aquifex aeolicus, Multidisciplinary, Bacteria, Helicobacter pylori, biology, SARS-CoV-2, Chemistry, lcsh:R, COVID-19, biology.organism_classification, Antibodies, Neutralizing, Recombinant Proteins, Cell biology, Aquifex, Viral infection, Ferritins, Spike Glycoprotein, Coronavirus, Recombinant DNA, biology.protein, Biophysics, Nanoparticles, lcsh:Q, Protein Multimerization, Coronavirus Infections, Glycoprotein

Abstract

Antigens displayed on self-assembling nanoparticles can stimulate strong immune responses and have been playing an increasingly prominent role in structure-based vaccines. However, the development of such immunogens is often complicated by inefficiencies in their production. To alleviate this issue, we developed a plug-and-play platform using the spontaneous isopeptide-bond formation of the SpyTag:SpyCatcher system to display trimeric antigens on self-assembling nanoparticles, including the 60-subunit Aquifex aeolicus lumazine synthase (LuS) and the 24-subunit Helicobacter pylori ferritin. LuS and ferritin coupled to SpyTag expressed well in a mammalian expression system when an N-linked glycan was added to the nanoparticle surface. The respiratory syncytial virus fusion (F) glycoprotein trimer—stabilized in the prefusion conformation and fused with SpyCatcher—could be efficiently conjugated to LuS-SpyTag or ferritin-SpyTag, enabling multivalent display of F trimers with prefusion antigenicity. Similarly, F-glycoprotein trimers from human parainfluenza virus-type 3 and spike-glycoprotein trimers from SARS-CoV-2 could be displayed on LuS nanoparticles with decent yield and antigenicity. Notably, murine vaccination with 0.08 µg of SARS-CoV-2 spike-LuS nanoparticle elicited similar neutralizing responses as 2.0 µg of spike, which was ~ 25-fold higher on a weight-per-weight basis. The versatile platform described here thus allows for multivalent plug-and-play presentation on self-assembling nanoparticles of trimeric viral antigens, with SARS-CoV-2 spike-LuS nanoparticles inducing particularly potent neutralizing responses.

Published

2020

3. Recapitulation of HIV-1 Env-Antibody Coevolution in Macaques Leading to Neutralization Breadth

Author

Shuyi Wang, Chengyan Zhao, Anya M. Bauer, Fang-Hua Lee, Cara W. Chao, Emily Lindemuth, Nicole A. Doria-Rose, Juliette Rando, Frederic Bibollet-Ruche, Kevin Wiehe, Mario Roederer, Chaim A. Schramm, Bette T. Korber, Donald D. Raymond, Kwan-Ki Hwang, Weimin Liu, George M. Shaw, Mark G. Lewis, Ronnie M. Russell, Hui Li, Stephen C. Harrison, Baoshan Zhang, Ryan S. Roark, Andrew G. Smith, Jesse Connell, Kevin O. Saunders, Hui Geng, Alexander I. Murphy, Mattia Bonsignori, Elena E. Giorgi, Maho Okumura, Hema Chug, Beatrice H. Hahn, John R. Mascola, Peter D. Kwong, Peter T. Hraber, Christina Rosario, Jessica G. Smith, David R. Ambrozak, Yu Ding, Wenge Ding, Richard Nguyen, Rosemarie D. Mason, Barton F. Haynes, Mark K. Louder, Daniel C. Douek, Kshitij Wagh, Jason Gorman, Bob C. Lin, Thomas B. Kepler, Wilton B. Williams, Neha Chohan, Garnett Kelsoe, Gwo-Yu Chuang, Julia DeVoto, Katharine J. Bar, and M. Anthony Moody

Subjects

0301 basic medicine, Immunogen, viruses, Human immunodeficiency virus (HIV), HIV Infections, HIV Antibodies, HIV Envelope Protein gp120, Biology, Virus Replication, medicine.disease_cause, Article, Epitope, Neutralization, Biological Coevolution, Epitopes, 03 medical and health sciences, 0302 clinical medicine, Viral envelope, medicine, Animals, Humans, Binding site, Immunodeficiency, Coevolution, Binding Sites, Multidisciplinary, Cryoelectron Microscopy, Molecular Mimicry, virus diseases, medicine.disease, Macaca mulatta, Virology, 030104 developmental biology, Viral replication, CD4 Antigens, HIV-1, biology.protein, Simian Immunodeficiency Virus, Antibody, Viral persistence, Broadly Neutralizing Antibodies, 030217 neurology & neurosurgery

Abstract

Convergent HIV evolution across species Human immunodeficiency virus (HIV) has a highly diverse envelope protein that it uses to target human cells, and the complexity of the viral envelope has stymied vaccine development. Roark et al. report that the immediate and short-term evolutionary potential of the HIV envelope is constrained because of a number of essential functions, including antibody escape. Consequently, when introduced into humans as HIV or into rhesus macaque monkeys as chimeric simian-human immunodeficiency virus, homologous envelope glycoproteins appear to exhibit conserved patterns of sequence evolution, in some cases eliciting broadly neutralizing antibodies in both hosts. Conserved patterns of envelope variation and homologous B cell responses in humans and monkeys represent examples of convergent evolution that may serve to guide HIV vaccine development. Science , this issue p. eabd2638

Published

2020

4. Sub-Nanometer Structures of HIV-1 Envelope Trimers on Aldrithiol-2 Inactivated Virus Particles

Author

Walther Mothes, Baoshan Zhang, Peter D. Kwong, Wenwei Li, Julian W. Bess, Ze Li, Cara W. Chao, Jason Gorman, Maolin Lu, Jeffrey D. Lifson, Jun Liu, Tongqing Zhou, Daniel S. Terry, and Scott C. Blanchard

Subjects

Models, Molecular, Electron Microscope Tomography, Protein Conformation, viruses, Trimer, HIV Infections, HIV Envelope Protein gp120, Gp41, Virus, Article, law.invention, Cell Line, 03 medical and health sciences, 0302 clinical medicine, 2,2'-Dipyridyl, Structural Biology, Viral entry, law, Humans, Disulfides, Molecular Biology, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Chemistry, Cryoelectron Microscopy, Virion, virus diseases, Oxidants, HIV Envelope Protein gp41, Membrane, Solubility, Helix, Biophysics, Recombinant DNA, HIV-1, Protein Multimerization, Glycoprotein, 030217 neurology & neurosurgery

Abstract

The HIV-1 envelope glycoprotein (Env) trimer, composed of gp120 and gp41 subunits, mediates viral entry into cells. Recombinant Env trimers have been studied structurally, but characterization of Env embedded in intact virus membranes has been limited to low resolution. Here, we deploy cryo-electron tomography and subtomogram averaging to determine the structures of Env trimers on aldrithiol-2 (AT-2)-inactivated virions in ligand-free, antibody-bound and CD4-bound forms at subnanometer resolution. Tomographic reconstructions document molecular features consistent with high-resolution structures of engineered soluble and detergent-solubilized Env trimers. One of three conformational states previously predicted by smFRET was not observed by cryo-ET, potentially owing to AT-2 inactivation. We did observe Env trimers to open in situ in response to CD4 binding, with an outward movement of gp120-variable loops and an extension of a critical gp41 helix. Overall features of Env trimer embedded in AT-2-treated virions appear well-represented by current engineered trimers. Cryo-ET and subtomogram averaging analyses are used to determine structures of HIV-1 Env trimers on the surface of inactivated virions.

Published

2020

5. Preclinical Development of a Fusion Peptide Conjugate as an HIV Vaccine Immunogen

Author

Raffaello Verardi, Peter D. Kwong, Reda Rawi, Rui Kong, John R. Mascola, Edward T. Ryan, Frank J. Arnold, Yaqiu Zhang, Timothy G. Wanninger, Wing-Pui Kong, Andrew Shaddeau, Yaroslav Tsybovsky, Aliaksandr Druz, Krisha McKee, Cara W. Chao, Shuishu Wang, Li Ou, Krishana Gulla, Gengcheng J. Yang, Tongqing Zhou, Arne Schön, Kai Xu, Sijy O'Dell, Nathan Barefoot, Willie F. Vann, Cheng Cheng, Q. Paula Lei, Gwo-Yu Chuang, Mridul Ghosh, Baoshan Zhang, Edward K Sarfo, Nicole A. Doria-Rose, Joseph Varriale, Vrc Production Program, and Anita Changela

Subjects

0301 basic medicine, Protein vaccines, Immunogen, Recombinant Fusion Proteins, medicine.medical_treatment, lcsh:Medicine, Peptide, Cross Reactions, complex mixtures, Article, law.invention, 03 medical and health sciences, 0302 clinical medicine, Adjuvants, Immunologic, Neutralization Tests, law, medicine, Animals, Amino Acid Sequence, 030212 general & internal medicine, HIV vaccine, lcsh:Science, AIDS Vaccines, Diphtheria toxin, chemistry.chemical_classification, Mice, Inbred BALB C, Multidisciplinary, biology, Chemistry, lcsh:R, Toxoid, Virology, 3. Good health, Mice, Inbred C57BL, 030104 developmental biology, HIV-1, Recombinant DNA, biology.protein, Female, Immunization, lcsh:Q, Peptides, Adjuvant, Keyhole limpet hemocyanin, HIV infections

Abstract

The vaccine elicitation of broadly neutralizing antibodies against HIV-1 is a long-sought goal. We previously reported the amino-terminal eight residues of the HIV-1-fusion peptide (FP8) – when conjugated to the carrier protein, keyhole limpet hemocyanin (KLH) – to be capable of inducing broadly neutralizing responses against HIV-1 in animal models. However, KLH is a multi-subunit particle derived from a natural source, and its manufacture as a clinical product remains a challenge. Here we report the preclinical development of recombinant tetanus toxoid heavy chain fragment (rTTHC) linked to FP8 (FP8-rTTHC) as a suitable FP-conjugate vaccine immunogen. We assessed 16 conjugates, made by coupling the 4 most prevalent FP8 sequences with 4 carrier proteins: the aforementioned KLH and rTTHC; the H. influenzae protein D (HiD); and the cross-reactive material from diphtheria toxin (CRM197). While each of the 16 FP8-carrier conjugates could elicit HIV-1-neutralizing responses, rTTHC conjugates induced higher FP-directed responses overall. A Sulfo-SIAB linker yielded superior results over an SM(PEG)2 linker but combinations of carriers, conjugation ratio of peptide to carrier, or choice of adjuvant (Adjuplex or Alum) did not significantly impact elicited FP-directed neutralizing responses in mice. Overall, SIAB-linked FP8-rTTHC appears to be a promising vaccine candidate for advancing to clinical assessment.

Published

2020

6. VRC34-Antibody Lineage Development Reveals How a Required Rare Mutation Shapes the Maturation of a Broad HIV-Neutralizing Lineage

Author

Bob C. Lin, John R. Mascola, Erica Normandin, Mallika Sastry, Divya Kilam, Li Ou, Shuishu Wang, Amy Ransier, Chen-Hsiang Shen, Kai Xu, Mark Connors, Mark K. Louder, Zizhang Sheng, Eric Feng, Reda Rawi, Eli Boritz, Baoshan Zhang, Brandon J. DeKosky, Rui Kong, Sung Hee Ko, Sijy O'Dell, Ying Gu, Peter D. Kwong, Kevin Liu, Gwo-Yu Chuang, Tongqing Zhou, Jesse Huang, Gunilla B. Karlsson Hedestam, Daniel C. Douek, Yiran Wang, Yicheng Guo, Stephen D. Schmidt, Lawrence Shapiro, Martin Corcoran, Cara W. Chao, and Nicole A. Doria-Rose

Subjects

Lineage (genetic), Human immunodeficiency virus (HIV), Somatic hypermutation, Gene Expression, HIV Infections, Biology, HIV Antibodies, medicine.disease_cause, Crystallography, X-Ray, Microbiology, Article, 03 medical and health sciences, 0302 clinical medicine, Virology, Rare mutations, medicine, Humans, B cell, 030304 developmental biology, Genetics, 0303 health sciences, Mutation, B-Lymphocytes, env Gene Products, Human Immunodeficiency Virus, Antibodies, Neutralizing, medicine.anatomical_structure, Mutation testing, biology.protein, HIV-1, Parasitology, Antibody, Transcriptome, Viral Fusion Proteins, 030217 neurology & neurosurgery, Broadly Neutralizing Antibodies

Abstract

Rare mutations have been proposed to restrict the development of broadly neutralizing antibodies against HIV-1, but this has not been explicitly demonstrated. We hypothesized that such rare mutations might be identified by comparing broadly neutralizing and non-broadly neutralizing branches of an antibody-developmental tree. Because sequences of antibodies isolated from the fusion peptide (FP)-targeting VRC34-antibody lineage suggested it might be suitable for such rare mutation analysis, we carried out next-generation sequencing (NGS) on B cell transcripts from donor N123, the source of the VRC34 lineage, and functionally and structurally characterized inferred intermediates along broadly neutralizing and poorly neutralizing developmental branches. The broadly neutralizing VRC34.01 branch required the rare heavy-chain mutation Y33P to bind FP, whereas the early bifurcated VRC34.05 branch did not require this rare mutation and evolved less breadth. Our results demonstrate how a required rare mutation can restrict development and shape the maturation of a broad HIV-1-neutralizing antibody lineage.

Published

2019

7. Antibody Lineages with Vaccine-Induced Antigen-Binding Hotspots Develop Broad HIV Neutralization

Author

Rui Kong, Hongying Duan, Zizhang Sheng, Kai Xu, Priyamvada Acharya, Xuejun Chen, Cheng Cheng, Adam S. Dingens, Jason Gorman, Mallika Sastry, Chen-Hsiang Shen, Baoshan Zhang, Tongqing Zhou, Gwo-Yu Chuang, Cara W. Chao, Ying Gu, Alexander J. Jafari, Mark K. Louder, Sijy O’Dell, Ariana P. Rowshan, Elise G. Viox, Yiran Wang, Chang W. Choi, Martin M. Corcoran, Angela R. Corrigan, Venkata P. Dandey, Edward T. Eng, Hui Geng, Kathryn E. Foulds, Yicheng Guo, Young D. Kwon, Bob Lin, Kevin Liu, Rosemarie D. Mason, Martha C. Nason, Tiffany Y. Ohr, Li Ou, Reda Rawi, Edward K. Sarfo, Arne Schön, John P. Todd, Shuishu Wang, Hui Wei, Winston Wu, James C. Mullikin, Robert T. Bailer, Nicole A. Doria-Rose, Gunilla B. Karlsson Hedestam, Diana G. Scorpio, Julie Overbaugh, Jesse D. Bloom, Bridget Carragher, Clinton S. Potter, Lawrence Shapiro, Peter D. Kwong, and John R. Mascola

Subjects

AIDS Vaccines, Male, B-Lymphocytes, env Gene Products, Human Immunodeficiency Virus, HIV Antibodies, Crystallography, X-Ray, Antibodies, Neutralizing, Macaca mulatta, Article, General Biochemistry, Genetics and Molecular Biology, Protein Structure, Tertiary, HEK293 Cells, HIV-1, Animals, Humans, Female, Amino Acid Sequence, Peptides

Abstract

The vaccine-mediated elicitation of antibodies (Abs) capable of neutralizing diverse HIV-1 strains has been a long-standing goal. To understand how broadly neutralizing antibodies (bNAbs) can be elicited, we identified, characterized, and tracked five neutralizing Ab lineages targeting the HIV-1-fusion peptide (FP) in vaccinated macaques over time. Genetic and structural analyses revealed two of these lineages to belong to a reproducible class capable of neutralizing up to 59% of 208 diverse viral strains. B cell analysis indicated each of the five lineages to have been initiated and expanded by FP-carrier priming, with envelope (Env)-trimer boosts inducing cross-reactive neutralization. These Abs had binding-energy hotspots focused on FP, whereas several FP-directed Abs induced by immunization with Env trimer-only were less FP-focused and less broadly neutralizing. Priming with a conserved subregion, such as FP, can thus induce Abs with binding-energy hotspots coincident with the target subregion and capable of broad neutralization.

Published

2019