Your search keyword '"ANTIBODY formation"' showing total 1,821 results

1. Headless hemagglutinin-containing influenza viral particles direct immune responses toward more conserved epitopes.

Author

Hamele, Cait E., Zhaochen Luo, Leonard, Rebecca A., Spurrier, M. Ariel, Burke, Kaitlyn N., Webb, Stacy R., Rountree, Wes, Zongli Li, Heaton, Brook E., and Heaton, Nicholas S.

Subjects

*ANTIBODY-dependent cell cytotoxicity, *INFLUENZA vaccines, *SEASONAL influenza, *CYTOSKELETAL proteins, *ANTIBODY formation, *NEURAMINIDASE

Abstract

Seasonal influenza vaccines provide mostly strain-specific protection due to the elicitation of antibody responses focused on evolutionarily plastic antigenic sites in the hemagglutinin head domain. To direct the humoral response toward more conserved epitopes, we generated an influenza virus particle where the full-length hemagglutinin protein was replaced with a membrane-anchored, "headless" variant while retaining the normal complement of other viral structural proteins such as the neuraminidase as well as viral RNAs. We found that a single administration of a headless virus particle-based vaccine elicited high titers of antibodies that recognized more conserved epitopes on the major viral glycoproteins. Furthermore, the vaccine could elicit these responses even in the presence of pre-existing, hemagglutinin (HA) headfocused influenza immunity. Importantly, these antibody responses mediated protective, but non-neutralizing functions such as neuraminidase inhibition and antibody-dependent cellular cytotoxicity. Additionally, we show the vaccine can provide protection from homologous and heterologous challenges in mouse models of severe influenza without any measurable HA head-directed antibody responses. Thus, headless hemagglutinin containing viral particles may represent a tool to drive the types of antibody responses predicted to increase influenza vaccine breadth and durability. [ABSTRACT FROM AUTHOR]

Published

2024

2. Impact of VP2 structure on antigenicity: comparison of BTV1 and the highly virulent BTV8 serotype.

Author

Bissett, Sara L. and Roy, Polly

Subjects

*ANTIBODY formation, *BLUETONGUE virus, *SHEEP, *ATOMIC structure, *IMMUNOGLOBULINS, *PESTE des petits ruminants

Abstract

Bluetongue virus (BTV) is an agriculturally and economically significant insect-borne virus that causes serious illness and death in sheep and other domestic and wild ruminants in large areas of the world. Numerous BTV serotypes exist, and distant serotypes exhibit unique neutralizing antibody profiles, which target the outermost capsid protein VP2. The predominant serotype-specific nature of the antibody response to VP2 is a barrier to the development of broad-spectrum prophylactic BTV vaccine candidates. Although VP2 is the main serotype determinant of BTV, the structural basis of serotype specificity has not been investigated. In this study, we utilized the recently available atomic structure of VP2 with a modeled tip domain to carry out in silico structural comparisons between distant serotypes BTV1 and BTV8. These analyses identified structural differences in the tip domain, positioned at the apex of VP2, and informed the design of mutant VP2 constructs. Dissection of tip domain antigenicity demonstrated that the region of structural difference between BTV1 and highly virulent BTV8 was a target of BTV neutralizing antibodies and that mutation of this region resulted in a loss of neutralizing antibody recognition. This study has for the first time provided insights into the structural differences, which underpin the serotype-specific neutralizing antibody response to BTV. [ABSTRACT FROM AUTHOR]

Published

2024

3. Comparison of the immunogenicity of mRNA-encoded and protein HIV-1 Env–ferritin nanoparticle designs.

Author

Zekun Mu, Whitley, Jill, Martik, Diana, Sutherland, Laura, Newman, Amanda, Barr, Maggie, Parks, Robert, Wiehe, Kevin, Cain, Derek W., Hodges, Katrina Z., Venkatayogi, Sravani, Lee, Esther M., Smith, Lena, Mansouri, Katayoun, Edwards, Robert J., Yunfei Wang, Rountree, Wes, Alameh, Mohamad-Gabriel, Ying Tam, and Barbosa, Christopher

Subjects

*VACCINE trials, *GENE expression, *GERMINAL centers, *IMMUNE response, *ANTIBODY formation

Abstract

Nucleoside-modified mRNA technology has revolutionized vaccine development with the success of mRNA COVID-19 vaccines. We used modified mRNA technology for the design of envelopes (Env) to induce HIV-1 broadly neutralizing antibodies (bnAbs). However, unlike SARS-CoV-2 neutralizing antibodies that are readily made, HIV-1 bnAb induction is disfavored by the immune system because of the rarity of bnAb B cell precursors and the cross-reactivity of bnAbs targeting certain Env epitopes with host molecules, thus requiring optimized immunogen design. The use of protein nanoparticles (NPs) has been reported to enhance B cell germinal center responses to HIV-1 Env. Here, we report our experience with the expression of Env–ferritin NPs compared with membrane-bound Env gp160 when encoded by modified mRNA. We found that well-folded Env–ferritin NPs were a minority of the protein expressed by an mRNA design and were immunogenic at 20 µg but minimally immunogenic in mice at 1 µg dose in vivo and were not expressed well in draining lymph nodes (LNs) following intramuscular immunization. In contrast, mRNA encoding gp160 was more immunogenic than mRNA encoding Env–NP at 1 µg dose and was expressed well in draining LN following intramuscular immunization. Thus, analysis of mRNA expression in vitro and immunogenicity at low doses in vivo are critical for the evaluation of mRNA designs for optimal immunogenicity of HIV-1 immunogens. IMPORTANCE An effective HIV-1 vaccine that induces protective antibody responses remains elusive. We have used mRNA technology for designs of HIV-1 immunogens in the forms of membrane-bound full-length envelope gp160 and envelope ferritin nanoparticle. Here, we demonstrated in a mouse model that the membrane-bound form induced a better response than envelope ferritin nanoparticle because of higher in vivo protein expression. The significance of our research is in highlighting the importance of analysis of mRNA design expression and low-dose immunogenicity studies for HIV-1 immunogens before moving to vaccine clinical trials. [ABSTRACT FROM AUTHOR]

Published

2024

4. Mapping the functional B-cell epitopes of Shigella invasion plasmid antigen D (IpaD).

Author

Siqi Li and Weiping Zhang

Subjects

*SHIGELLA flexneri, *CARRIER proteins, *CHIMERIC proteins, *ANTIBODY formation, *SHIGELLA

Abstract

Shigella bacteria utilize the type III secretion system (T3SS) to invade host cells and establish local infection. Invasion plasmid antigen D (IpaD), a component of Shigella T3SS, has garnered extensive interest as a vaccine target, primarily due to its pivotal role in the Shigella invasion, immunogenic property, and a high degree of conservation across Shigella species and serotypes. Currently, we are developing an epitope- and structure-based multivalent vaccine against shigellosis and require functional epitope antigens of key Shigella virulence determinants including IpaD. However, individual IpaD B-cell epitopes, their contributions to the overall immunogenicity, and functional activities attributing to bacteria invasion have not been fully characterized. In this study, we predicted continuous B-cell epitopes in silico and fused each epitope to a carrier protein. Then, we immunized mice intramuscularly with each epitope fusion protein, examined the IpaD-specific antibody responses, and measured antibodies from each epitope fusion for the activity against Shigella invasion in vitro. Data showed that all epitope fusion proteins induced similar levels of anti-IpaD IgG antibodies in mice, and differences were noted for antibody inhibition activity against Shigella invasion. IpaD epitope 1 (SPGGNDGNSV), IpaD epitope 2 (LGGNGEVVLDNA), and IpaD epitope 5 (SPNNTNGSSTET) induced antibodies significantly better in inhibiting invasion from Shigella flexneri 2a, and epitopes 1 and 5 elicited antibodies more effectively at preventing invasion of Shigella sonnei. These results suggest that IpaD epitopes 1 and 5 can be the IpaD representative antigens for epitope-based polyvalent protein construction and protein-based cross-protective Shigella vaccine development. [ABSTRACT FROM AUTHOR]

Published

2024

5. Mouse and human immune responses share neutralization epitopes of HAstV-VA1.

Author

Ramírez-Bello, Inci, López, Tomás, Espinosa, Rafaela, Ghosh, Anisa, Green, Kassidy, Riaño-Umbarila, Lidia, GasparCastillo, Carlos, Aguilera-Flores, Catalina, Alpuche-Aranda, Celia M., López, Susana, DuBois, Rebecca M., and Arias, Carlos F.

Subjects

*MONOCLONAL antibodies, *CENTRAL nervous system diseases, *IMMUNE response, *EPITOPES, *HUMORAL immunity, *ANTIBODY formation

Abstract

Astroviruses are highly divergent and infect a wide variety of animal hosts. In 2009, a genetically divergent human astrovirus (HAstV) strain VA1 was first identified in an outbreak of acute gastroenteritis. This strain has also been associated with fatal central nervous system disease. In this work, we report the isolation of three high-affinity neutralizing monoclonal antibodies (Nt-MAbs) targeting the capsid spike domain of HAstV-VA1. These antibodies (7C8, 2A2, 3D8) were used to select individual HAstV-VA1 mutants resistant to their neutralizing activity and a HAstV-VA1 triple mutant that escapes neutralization from all three Nt-MAbs. Sequencing of the virus genome capsid region revealed escape mutations that map to the surface of the capsid spike domain, define three potentially independent neutralization epitopes, and help delineate four antigenic sites in human astroviruses. Notably, two of the escape mutations were found to be present in the spike sequence of the HAstV-VA1-PS strain isolated from an immunodeficient patient with encephalitis, suggesting that those mutations arose as a result of the immune pressure generated by the patient’s immunotherapy. In agreement with this observation, human serum samples exhibiting strong neutralization activity against wild-type HAstV-VA1 had a 2.6-fold reduction in neutralization titer when evaluated against the triple-escape HAstV-VA1 mutant, suggesting that both mouse and human antibody responses target shared neutralization epitopes. The isolated Nt-MAbs reported in this work will help to characterize the functional domains of the virus during cell entry and have the potential for developing a specific antibody therapy for the neurological disease associated with HAstV-VA1. IMPORTANCE Human astroviruses (HAstVs) have been historically associated with acute gastroenteritis. However, the genetically divergent HAstV-VA1 strain has been associated with central nervous system disease. In this work high-affinity neutralizing monoclonal antibodies directed to HAstV-VA1 were isolated and characterized. The proposed binding sites for these antibodies and for neutralizing antibodies against classical HAstVs suggest that there are at least four neutralization sites on the capsid spike of astroviruses. Our data show that natural infection with human astrovirus VA1 elicits a robust humoral immune response that targets the same antigenic sites recognized by the mouse monoclonal antibodies and strongly suggests the emergence of a variant HAstV-VA1 virus in an immunodeficient patient with prolonged astrovirus infection. The isolated Nt-MAb reported in this work will help to define the functional sites of the virus involved in cell entry and hold promise for developing a specific antibody therapy for the neurological disease associated with HAstV-VA1. [ABSTRACT FROM AUTHOR]

Published

2024

6. A VRC13-like bNAb response is associated with complex escape pathways in HIV-1 envelope.

Author

Joshi, Vinita R., Claiborne, Daniel T., Pack, Melissa L., Power, Karen A., Newman, Ruchi M., Batorsky, Rebecca, Bean, David J., Goroff, Matthew S., Lingwood, Daniel, Seaman, Michael S., Rosenberg, Eric, and Allen, Todd M.

Subjects

*ANTIBODY specificity, *ANTIBODY formation, *AMINO acids, *HIV, *GLYCOSYLATION

Abstract

The rational design of HIV-1 immunogens to trigger the development of broadly neutralizing antibodies (bNAbs) requires understanding the viral evolutionary pathways influencing this process. An acute HIV-1-infected individual exhibiting >50% plasma neutralization breadth developed neutralizing antibody specificities against the CD4-binding site (CD4bs) and V1V2 regions of Env gp120. Comparison of pseudoviruses derived from early and late autologous env sequences demonstrated the development of >2 log resistance to VRC13 but not to other CD4bs-specific bNAbs. Mapping studies indicated that the V3 and CD4-binding loops of Env gp120 contributed significant ly to developing resistance to the autologous neutralizing response and that the CD4- binding loop (CD4BL) specifically was responsible for the developing resistance to VRC13. Tracking viral evolution during the development of this cross-neutralizing CD4bs response identified amino acid substitutions arising at only 4 of 11 known VRC13 contact sites (K282, T283, K421, and V471). However, each of these mutations was external to the V3 and CD4BL regions conferring resistance to VRC13 and was transient in nature. Rather, complete resistance to VRC13 was achieved through the cooperative expression of a cluster of single amino acid changes within and immediately adjacent to the CD4BL, including a T359I substitution, exchange of a potential N-linked glycosylation (PNLG) site to residue S362 from N363, and a P369L substitution. Collectively, our data characterize complex HIV-1 env evolution in an individual developing resistance to a VRC13-like neutralizing antibody response and identify novel VRC13-associated escape mutations that may be important to inducing VRC13-like bNAbs for lineage-based immunogens. [ABSTRACT FROM AUTHOR]

Published

2024

7. Harnessing preexisting influenza virus-specific immunity increases antibody responses against SARS-CoV-2.

Author

Dulin, Harrison, Barre, Ramya S., Duo Xu, Neal, Arrmund, Vizcarra, Edward, Chavez, Jerald, Ulu, Arzu, Myeon-Sik Yang, Khan, Siddiqur Rahman, Wuang, Keidy, Bhakta, Nikhil, Chea, Chanvoraboth, Wilson, Emma H., Martinez-Sobrido, Luis, and Rong Hai

Subjects

*VIRAL antibodies, *MATERNALLY acquired immunity, *SARS-CoV-2, *ANTIBODY formation, *INFLUENZA A virus, H1N1 subtype

Abstract

In pandemic scenarios involving novel human pathogenic viruses, it is highly desirable that vaccines induce strong neutralizing antibodies as quickly as possible. However, current vaccine strategies require multiple immunization doses to produce high titers of neutralizing antibodies and are poorly protective after a single vaccination. We therefore wished to design a vaccine candidate that would induce increased protective immune responses following the first vaccine dose. We hypothesized that antibodies against the receptor-binding domain (RBD) of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike glycoprotein could be increased by drawing upon immunity to a previous infection. We generated a fusion protein containing the influenza H1N1 PR8 virus nucleoprotein (NP) and the SARS-CoV-2 spike RBD. Mice with or without preexisting immunity to PR8 were then vaccinated with NP/ RBD. We observed significantly increased SARS-CoV-2 neutralizing antibodies in mice with PR8 immunity compared to mice without preexisting PR8 immunity. Vaccination with NP/RBD protected mice from SARS-CoV-2-induced morbidity and mortality after a single dose. Additionally, we compared SARS-CoV-2 virus titers in the lungs and nasal turbinates 4 days post-challenge of mice vaccinated with NP/RBD. SARS-CoV-2 virus was detectable in the lungs and nasal turbinate of mice without preexisting PR8 immunity, while SARS-CoV-2 virus was completely undetectable in mice with preexisting PR8 immunity. We also found that CD4-positive T cells in mice with preexisting immunity to PR8 play an essential role in producing the increased antibody response against RBD. This vaccine strategy potentially can be modified to target other pathogens of concern and offers extra value in future pandemic scenarios. IMPORTANCE Increased globalization and changes in human interactions with wild animals has increased the likelihood of the emergence of novel viruses with pandemic potential. Vaccines can be effective in preventing severe disease caused by pandemic viruses. However, it takes time to develop protective immunity via prime-boost vaccination. More effective vaccine designs should quickly induce protective immunity. We propose leveraging preexisting immunity to a different pathogen to boost protection against emerging viruses. We targeted SARS-CoV-2 as a representative pandemic virus and generated a fusion protein vaccine that combines the nucleoprotein from influenza A virus and the receptor-binding domain (RBD) of the SARS-CoV-2 spike protein. Our vaccine design significantly increased the production of RBD­specific antibodies in mice that had previously been exposed to influenza virus, compared to those without previous exposure. This enhanced immunity reduced SARS-CoV-2 replication in mice. Our results offer a vaccine design that could be valuable in a future pandemic setting. [ABSTRACT FROM AUTHOR]

Published

2024

8. Development of LIBRA-seq for the guinea pig model system as a tool for the evaluation of antibody responses to multivalent HIV-1 vaccines.

Author

Vukovich, Matthew J., Raju, Nagarajan, Kgagudi, Prudence, Manamela, Nelia P., Abu-Shmais, Alexandra A., Gripenstraw, Kathryn R., Wasdin, Perry T., Xiaoying Shen, Dwyer, Bridget, Akoad, Jumana, Lynch, Rebecca M., Montefiori, David C., Richardson, Simone I., Moore, Penny L., and Georgiev, Ivelin S.

Subjects

*GUINEA pigs, *MONOCLONAL antibodies, *ANTIBODY formation, *B cells, *HIV, *ANTIGEN receptors, *B cell receptors, *VACCINES

Abstract

Consistent elicitation of serum antibody responses that neutralize diverse clades of HIV-1 remains a primary goal of HIV-1 vaccine research. Prior work has defined key features of soluble HIV-1 Envelope (Env) immunogen cocktails that influence the neutralization breadth and potency of multivalent vaccine-elicited antibody responses including the number of Env strains in the regimen. We designed immunization groups that consisted of different numbers of SOSIP Env strains to be used in a cocktail immunization strategy: the smallest cocktail (group 2) consisted of a set of two Env strains, which were a subset of the three Env strains that made up group 3, which, in turn, were a subset of the six Env strains that made up group 4. Serum neutralizing titers were modestly broader in guinea pigs that were immunized with a cocktail of three Envs compared to cocktails of two and six, suggesting that multivalent Env immunization could provide a benefit but may be detrimental when the cocktail size is too large. We then adapted the LIBRA-seq platform for antibody discovery to be compatible with guinea pigs, and isolated several tier 2 neutralizing monoclonal antibodies. Three antibodies isolated from two separate guinea pigs were similar in their gene usage and CDR3s, establishing evidence for a guinea pig public clonotype elicited through vaccination. Taken together, this work investigated multivalent HIV-1 Env immunization strategies and provides a novel methodology for screening guinea pig B cell receptor antigen specificity at a high-throughput level using LIBRA-seq. IMPORTANCE Multivalent vaccination with soluble Env immunogens is at the forefront of HIV-1 vaccination strategies but little is known about the influence of the number of Env strains included in vaccine cocktails. Our results suggest that adding more strains is sometimes beneficial but may be detrimental when the number of strains is too high. In addition, we adapted the LIBRA-seq platform to be compatible with guinea pig samples and isolated several tier 2 neutralizing monoclonal antibodies, some of which share V and J gene usage and >70% CDR3 identity, thus establishing the existence of public clonotypes in guinea pigs elicited through vaccination. [ABSTRACT FROM AUTHOR]

Published

2024

9. Vaccine-induced antibody Fc-effector functions in humans immunized with a combination Ad26.RSV.preF/RSV preF protein vaccine.

Author

Bartsch, Yannic C., Cizmeci, Deniz, Yuan, Dansu, Mehta, Nickita, Tolboom, Jeroen, De Paepe, Els, van Heesbeen, Roy, Sadoff, Jerald, Comeaux, Christy A., Heijnen, Esther, Callendret, Benoit, Alter, Galit, and Bastian, Arangassery Rosemary

Subjects

*IMMUNOGLOBULINS, *KILLER cells, *FC receptors, *COMBINED vaccines, *ANTIBODY formation, *RESPIRATORY syncytial virus, *VACCINE effectiveness

Abstract

An Ad26.RSV.preF/RSV preF protein combination vaccine demonstrated 80.0% vaccine efficacy for the prevention of respiratory syncytial virus (RSV)-mediated lower respiratory tract disease in a phase 2b study. In addition to neutralizing antibodies, Fc-effector functions are associated with protective immunity against RSV. Here, vaccine-induced Fc-effector functions were evaluated for the Ad26.RSV.preF/RSV preF protein vaccine in a subset of participants enrolled in a phase 1/2a study. RSV preF-specific antibody subclasses, isotypes, Fcy receptor binding, and Fc-effector functions were evaluated on days 1 (pre-vaccination), 15, 29, and 183. Compared with Ad26.RSV.preF or RSV preF protein alone, the combination vaccine induced greater Fc-effector functions, including antibody-dependent neutrophil phagocytosis and antibody-dependent natural killer cell activation. Despite RSV pre-exposure, antibody-dependent neutrophil phagocytosis and antibody-dependent natural killer cell activation were not observed at baseline but were induced de novo following vaccination. Compared with the individual vaccine components, the combination vaccine induced a more polyfunctional antibody response. [ABSTRACT FROM AUTHOR]

Published

2023

10. Effect of Passive Administration of Monoclonal Antibodies Recognizing Simian Immunodeficiency Virus (SIV) V2 in CH59-Like Coil/Helical or β-Sheet Conformations on Time of SIVmac251 Acquisition.

Author

Stamos, James D., Rahman, Mohammad Arif, Gorini, Giacomo, Silva de Castro, Isabela, Becerra-Flores, Manuel, Van Wazer, David J., N'Guessan, Kombo F., Clark, Natasha M., Bissa, Massimiliano, Gutowska, Anna, Mason, Rosemarie D., Kim, Jiae, Rao, Mangala, Roederer, Mario, Paquin-Proulx, Dominic, Evans, David T., Cicala, Claudia, Arthos, James, Kwong, Peter D., and Zhou, Tongqing

Subjects

*MONOCLONAL antibodies, *SIMIAN immunodeficiency virus, *ANTIBODY-dependent cell cytotoxicity, *TH2 cells, *INTERLEUKIN-17, *ANTIBODY formation

Abstract

The monoclonal antibodies (MAbs) NCI05 and NCI09, isolated from a vaccinated macaque that was protected from multiple simian immunodeficiency virus (SIV) challenges, both target an overlapping, conformationally dynamic epitope in SIV envelope variable region 2 (V2). Here, we show that NCI05 recognizes a CH59-like coil/helical epitope, whereas NCI09 recognizes a β-hairpin linear epitope. In vitro, NCI05 and, to a lesser extent, NCI09 mediate the killing of SIV-infected cells in a CD4-dependent manner. Compared to NCI05, NCI09 mediates higher titers of antibody-dependent cellular cytotoxicity (ADCC) to gp120-coated cells, as well as higher levels of trogocytosis, a monocyte function that contributes to immune evasion. We also found that passive administration of NCI05 or NCI09 to macaques did not affect the risk of SIVmac251 acquisition compared to controls, demonstrating that these anti-V2 antibodies alone are not protective. However, NCI05 but not NCI09 mucosal levels strongly correlated with delayed SIVmac251 acquisition, and functional and structural data suggest that NCI05 targets a transient state of the viral spike apex that is partially opened, compared to its prefusion-closed conformation. IMPORTANCE Studies suggest that the protection against SIV/simian-human immunodeficiency virus (SHIV) acquisition afforded by the SIV/HIV V1 deletion-containing envelope immunogens, delivered by the DNA/ALVAC vaccine platform, requires multiple innate and adaptive host responses. Anti-inflammatory macrophages and tolerogenic dendritic cells (DC-10), together with CD14+ efferocytes, are consistently found to correlate with a vaccine-induced decrease in the risk of SIV/SHIV acquisition. Similarly, V2-specific antibody responses mediating ADCC, Th1 and Th2 cells expressing no or low levels of CCR5, and envelope-specific NKp44+ cells producing interleukin 17 (IL-17) also are reproducible correlates of decreased risk of virus acquisition. We focused on the function and the antiviral potential of two monoclonal antibodies (NCI05 and NCI09) isolated from vaccinated animals that differ in antiviral function in vitro and recognize V2 in a linear (NCI09) or coil/helical (NCI05) conformation. We demonstrate that NCI05, but not NCI09, delays SIVmac251 acquisition, highlighting the complexity of antibody responses to V2. [ABSTRACT FROM AUTHOR]

Published

2023

11. Combining Phage Display Technology with In Silico-Designed Epitope Vaccine to Elicit Robust Antibody Responses against Emerging Pathogen Tilapia Lake Virus.

Author

Yu-Ming Gong, Xue-Feng Wei, Yu-Ying Zheng, Yang Li, Qing Yu, Peng-Fei Li, and Bin Zhu

Subjects

*IMMUNOGLOBULINS, *ANTIBODY formation, *TILAPIA, *AMINO acid sequence, *AMINO acid residues, *VIRUS diseases

Abstract

Antigen epitope identification is a critical step in the vaccine development process and is a momentous cornerstone for the development of safe and efficient epitope vaccines. In particular, vaccine design is difficult when the function of the protein encoded by the pathogen is unknown. The genome of Tilapia lake virus (TiLV), an emerging virus from fish, encodes protein functions that have not been elucidated, resulting in a lag and uncertainty in vaccine development. Here, we propose a feasible strategy for emerging viral disease epitope vaccine development using TiLV. We determined the targets of specific antibodies in serum from a TiLV survivor by panning a Ph.D.-12 phage library, and we identified a mimotope, TYTTRMHITLPI, referred to as Pep3, which provided protection against TiLV after prime-boost vaccination; its immune protection rate was 57.6%. Based on amino acid sequence alignment and structure analysis of the target protein from TiLV, we further identified a protective antigenic site (399TYTTRNEDFLPT410) which is located on TiLV segment 1 (S1). The epitope vaccine with keyhole limpet hemocyanin (KLH-S1399-410) corresponding to the mimotope induced the tilapia to produce a durable and effective antibody response after immunization, and the antibody depletion test confirmed that the specific antibody against S1399-410 was necessary to neutralize TiLV. Surprisingly, the challenge studies in tilapia demonstrated that the epitope vaccine elicited a robust protective response against TiLV challenge, and the survival rate reached 81.8%. In conclusion, this study revealed a concept for screening antigen epitopes of emerging viral diseases, providing promising approaches for development and evaluation of protective epitope vaccines against viral diseases. IMPORTANCE Antigen epitope determination is an important cornerstone for developing efficient vaccines. In this study, we attempted to explore a novel approach for epitope discovery of TiLV, which is a new virus in fish. We investigated the immunogenicity and protective efficacy of all antigenic sites (mimotopes) identified in serum of primary TiLV survivors by using a Ph.D.-12 phage library. We also recognized and identified the natural epitope of TiLV by bioinformatics, evaluated the immunogenicity and protective effect of this antigenic site by immunization, and revealed 2 amino acid residues that play important roles in this epitope. Both Pep3 and S1399-410 (a natural epitope identified by Pep3) elicited antibody titers in tilapia, but S1399-410 was more prominent. Antibody depletion studies showed that anti-S1399-410-specific antibodies were essential for neutralizing TiLV. Our study demonstrated a model for combining experimental and computational screens to identify antigen epitopes, which is attractive for epitope-based vaccine development. [ABSTRACT FROM AUTHOR]

Published

2023

12. Evolution of Antibody Responses in HIV-1 CRF01_AE Acute Infection: Founder Envelope V1V2 Impacts the Timing and Magnitude of Autologous Neutralizing Antibodies.

Author

Gift, Syna Kuriakose, Wieczorek, Lindsay, Sanders-Buell, Eric, Zemil, Michelle, Molnar, Sebastian, Donofrio, Gina, Townsley, Samantha, Chenine, Agnes L., Bose, Meera, Trinh, Hung V., Barrows, Brittani M., Sriplienchan, Somchai, Kitsiripornchai, Suchai, Nitayapan, Sorachai, Eller, Leigh-Anne, Rao, Mangala, Ferrari, Guido, Michael, Nelson L., Ake, Julie A., and Krebs, Shelly J.

Subjects

*ANTIBODY formation, *HIV, *ANTIBODY-dependent cell cytotoxicity, *VIRAL load, *IMMUNOGLOBULINS, *IMMUNE response

Abstract

Understanding the dynamics of early immune responses to HIV-1 infection, including the evolution of initial neutralizing and antibody-dependent cellular cytotoxicity (ADCC)-mediating antibodies, will inform HIV vaccine design. In this study, we assess the development of autologous neutralizing antibodies (ANAbs) against founder envelopes (Envs) from 18 participants with HIV-1 CRF01_AE acute infection. The timing of ANAb development directly associated with the magnitude of the longitudinal ANAb response. Participants that developed ANAbs within 6 months of infection had significantly higher ANAb responses at 1 year (50% inhibitory concentration [IC50] geometric mean titer [GMT] = 2,010 versus 184; P = 0.001) and 2 years (GMT = 3,479 versus 340; P = 0.015), compared to participants that developed ANAb responses after 6 months. Participants with later development of ANAb tended to develop an earlier, potent heterologous tier 1 (92TH023) neutralizing antibody (NAb) response (P = 0.049). CRF01_AE founder Env V1V2 loop lengths correlated indirectly with the timing (P = 0.002, r = 20.675) and directly with magnitude (P = 0.005, r = 0.635) of ANAb responses; Envs with longer V1V2 loop lengths elicited earlier and more potent ANAb responses. While ANAb responses did not associate with viral load, the viral load set point correlated directly with neutralization of the heterologous 92TH023 strain (P = 0.007, r = 0.638). In contrast, a striking inverse correlation was observed between viral load set point and peak ADCC against heterologous 92TH023 Env strain (P = 0.0005, r = 20.738). These data indicate that specific antibody functions can be differentially related to viral load set point and may affect HIV-1 pathogenesis. Exploiting Env properties, such as V1V2 length, could facilitate development of subtype-specific vaccines that elicit more effective immune responses and improved protection. IMPORTANCE Development of an effective HIV-1 vaccine will be facilitated by better understanding the dynamics between the founder virus and the early humoral responses. Variations between subtypes may influence the evolution of immune responses and should be considered as we strive to understand these dynamics. In this study, autologous founder envelope neutralization and heterologous functional humoral responses were evaluated after acute infection by HIV-1 CRF01_AE, a subtype that has not been thoroughly characterized. The evolution of these humoral responses was assessed in relation to envelope characteristics, magnitude of elicited immune responses, and viral load. Understanding immune parameters in natural infection will improve our understanding of protective responses and aid in the development of immunogens that elicit protective functional antibodies. Advancing our knowledge of correlates of positive clinical outcomes should lead to the design of more efficacious vaccines. [ABSTRACT FROM AUTHOR]

Published

2023

13. Immunization of Mice with Virus-Like Vesicles of Kaposi Sarcoma-Associated Herpesvirus Reveals a Role for Antibodies Targeting ORF4 in Activating Complement-Mediated Neutralization.

Author

Lam, Alex K., Roshan, Romin, Miley, Wendell, Labo, Nazzarena, Zhenx, James, Kurland, Andrew P., Cheng, Celine, Haigen Huang, Pu-Lin Teng, Harelson, Claire, Danyang Gong, Tam, Ying K., Radu, Caius G., Epeldegui, Marta, Johnson, Jeffrey R., Zhou, Z. Hong, Whitby, Denise, and Ting-Ting Wu

Subjects

*IMMUNOGLOBULINS, *IMMUNE serums, *VIRAL antibodies, *VIRAL proteins, *IMMUNE response, *ANTIBODY formation, *FC receptors

Abstract

Infection by Kaposi sarcoma-associated herpesvirus (KSHV) can cause severe consequences, such as cancers and lymphoproliferative diseases. Whole inactivated viruses (WIV) with chemically destroyed genetic materials have been used as antigens in several licensed vaccines. During KSHV productive replication, virus-like vesicles (VLVs) that lack capsids and viral genomes are generated along with virions. Here, we investigated the immunogenicity of KSHV VLVs produced from a viral mutant that was defective in capsid formation and DNA packaging. Mice immunized with adjuvanted VLVs generated KSHV-specific T cell and antibody responses. Neutralization of KSHV infection by the VLV immune serum was low but was markedly enhanced in the presence of the complement system. Complement-enhanced neutralization and complement deposition on KSHV-infected cells was dependent on antibodies targeting viral open reading frame 4 (ORF4). However, limited complement-mediated enhancement was detected in the sera of a small cohort of KSHV-infected humans which contained few neutralizing antibodies. Therefore, vaccination that induces antibody effector functions can potentially improve infection-induced humoral immunity. Overall, our study highlights a potential benefit of engaging complement-mediated antibody functions in future KSHV vaccine development. IMPORTANCE KSHV is a virus that can lead to cancer after infection. A vaccine that prevents KSHV infection or transmission would be helpful in preventing the development of these cancers. We investigated KSHV VLV as an immunogen for vaccination. We determined that antibodies targeting the viral protein ORF4 induced by VLV immunization could engage the complement system and neutralize viral infection. However, ORF4-specific antibodies were seldom detected in the sera of KSHV-infected humans. Moreover, these human sera did not potently trigger complement-mediated neutralization, indicating an improvement that immunization can confer. Our study suggests a new antibody-mediated mechanism to control KSHV infection and underscores the benefit of activating the complement system in a future KSHV vaccine. [ABSTRACT FROM AUTHOR]

Published

2023

14. Evaluating the Breadth of Neutralizing Antibody Responses Elicited by Infectious Bursal Disease Virus Genogroup A1 Strains Using a Novel Chicken B-Cell Rescue System and Neutralization Assay.

Author

Reddy, Vishwanatha R. A. P., Nazki, Salik, Brodrick, Andrew J., Asfor, Amin, Urbaniec, Joanna, Morris, Yasmin, and Broadbent, Andrew J.

Subjects

*CHICKEN diseases, *INFECTIOUS bursal disease virus, *VIRAL antibodies, *ANTIBODY formation, *REVERSE genetics, *HYPERVARIABLE regions, *CHICKENS

Abstract

Eight infectious bursal disease virus (IBDV) genogroups have been identified based on the sequence of the capsid hypervariable region (HVR) (A1 to A8). Given reported vaccine failures, there is a need to evaluate the ability of vaccines to neutralize the different genogroups. To address this, we used a reverse genetics system and the chicken B-cell line DT40 to rescue a panel of chimeric IBDVs and perform neutralization assays. Chimeric viruses had the backbone of a lab-adapted strain (PBG98) and the HVRs from diverse field strains as follows: classical F52-70 (A1), U.S. variant Del-E (A2), Chinese variant SHG19 (A2), very virulent UK661 (A3), M04/09 distinct (A4), Italian ITA-04 (A6), and Australian variant Vic-01/94 (A8). Rescued viruses showed no substitutions at amino acid positions 253, 284, or 330, previously found to be associated with cell-culture adaptation. Sera from chickens inoculated with wild-type (wt) (F52-70) or vaccine (228E) A1 strains had the highest mean virus neutralization (VN) titers against the A1 virus (log2 15.4 and 12.7) and the lowest against A2 viruses (log2 7.4 to 7.9; P = 0.0001 to 0.0274), consistent with A1 viruses being most antigenically distant from A2 strains, which correlated with the extent of differences in the predicted HVR structure. VN titers against the other genogroups ranged from log2 9.3 to 13.3, and A1 strains were likely more closely antigenically related to genogroups A3 and A4 than A6 and A8. Our data are consistent with field observations and validate the new method, which can be used to screen future vaccine candidates for breadth of neutralizing antibodies and evaluate the antigenic relatedness of different genogroups. [ABSTRACT FROM AUTHOR]

Published

2022

15. Evaluation of Multivalent Enterotoxigenic Escherichia coli Vaccine Candidate MecVax Antigen Dose-Dependent Effect in a Murine Model.

Author

Seo, Hyesuk, Qiangde Duan, Upadhyay, Ipshita, and Weiping Zhanga

Subjects

*ESCHERICHIA coli, *ANTIGENS, *ANTIBODY formation, *IMMUNOGLOBULINS, *INTESTINAL physiology, *BACTERIAL toxins, *IMMUNE response

Abstract

There are no licensed vaccines against enterotoxigenic Escherichia coli (ETEC), a leading cause of children’s diarrhea and travelers’ diarrhea. Recently, protein-based vaccine candidate MecVax was demonstrated to induce functional antibodies against both ETEC toxins (heat-stable toxin [STa] and heat-labile toxin [LT]) and seven ETEC adhesins (CFA/I and CS1 to CS6) and to protect against ETEC clinical diarrhea or intestinal colonization preclinically. Those studies used intraperitoneal, intramuscular, and intradermal routes, and a dose range for MecVax protein antigens, toxoid fusion 3xSTaN12S-mnLTR192G/L211A, and adhesin CFA/I/II/IV MEFA has not been investigated. Here, we further characterized MecVax broad immunogenicity, utilizing a subcutaneous route, and examined vaccine dose-dependent antibody response effects and also antibody functional activities against ETEC enterotoxicity and bacterial adherence. Data showed that mice immunized subcutaneously with MecVax developed robust IgG responses to seven ETEC adhesins (CFA/I, as well as CS1 to CS6) and two toxins (STa and LT). At a subcutaneous dose of 25, 20, or 10 mg or at an intramuscular dose of 12, 6, or 3 mg, MecVax induced similar levels IgG responses to the targeted toxins and adhesins, and these antibodies exhibited equivalent functional activities against ETEC toxin enterotoxicity and bacterial adherence. Once the intramuscular dose was decreased to 1 mg, vaccine-induced antibodies were significantly reduced and no longer neutralized STa enterotoxicity. The results indicated that MecVax administered subcutaneously is broadly immunogenic and, at an intramuscular dose of 3 mg, can induce functional antitoxin and anti-adhesin antibodies in mice, providing instructive information for future vaccine dose studies in humans and accelerating MecVax vaccine development. [ABSTRACT FROM AUTHOR]

Published

2022

16. Loss of Pfizer (BNT162b2) Vaccine-Induced Antibody Responses against the SARS-CoV-2 Omicron Variant in Adolescents and Adults.

Author

Gupta, Sneh Lata, Mantus, Grace, Manning, Kelly E., Ellis, Madison, Patel, Mit, Ciric, Caroline Rose, Lu, Austin, Turner, Jackson S., O'Halloran, Jane A., Presti, Rachel M., Joshi, Devyani Jaideep, Ellebedy, Ali H., Anderson, Evan J., Rostad, Christina A., Suthar, Mehul S., and Wrammert, Jens

Subjects

*SARS-CoV-2 Omicron variant, *SARS-CoV-2 Delta variant, *ANTIBODY formation, *COVID-19 vaccines, *SARS-CoV-2, *IMMUNOGLOBULINS

Abstract

Emerging variants, especially the recent Omicron variant, and gaps in vaccine coverage threaten mRNA vaccine mediated protection against SARS-CoV-2. While children have been relatively spared by the ongoing pandemic, increasing case numbers and hospitalizations are now evident among children. Thus, it is essential to better understand the magnitude and breadth of vaccine-induced immunity in children against circulating viral variant of concerns (VOCs). Here, we compared the magnitude and breadth of humoral immune responses in adolescents and adults 1 month after the two-dose Pfizer (BNT162b2) vaccination. We found that adolescents (aged 11 to 16) demonstrated more robust binding antibody and neutralization responses against the wild-type SARS-CoV-2 virus spike protein contained in the vaccine compared to adults (aged 27 to 55). The quality of the antibody responses against VOCs in adolescents were very similar to adults, with modest changes in binding and neutralization of Beta, Gamma, and Delta variants. In comparison, a significant reduction of binding titers and a striking lack of neutralization was observed against the newly emerging Omicron variant for both adolescents and adults. Overall, our data show that a two-dose BNT162b2 vaccine series may be insufficient to protect against the Omicron variant. [ABSTRACT FROM AUTHOR]

Published

2022

17. A Glycosylated RBD Protein Induces Enhanced Neutralizing Antibodies against Omicron and Other Variants with Improved Protection against SARS-CoV-2 Infection.

Author

Juan Shi, Jian Zheng, Wanbo Tai, Verma, Abhishek K., Xiujuan Zhang, Qibin Geng, Gang Wang, Xiaoqing Guan, Malisheni, Moffat M., Odle, Abby E., Wei Zhang, Fang Li, Perlman, Stanley, and Lanying Du

Subjects

*SARS-CoV-2 Omicron variant, *SARS-CoV-2 Delta variant, *IMMUNOGLOBULINS, *SARS-CoV-2, *ANTIBODY titer, *ANTIBODY formation

Abstract

SARS-CoV-2 has mutated frequently since its first emergence in 2019. Numerous variants, including the currently emerging Omicron variant, have demonstrated high transmissibility or increased disease severity, posing serious threats to global public health. This study describes the identification of an immunodominant non-neutralizing epitope on SARS-CoV-2 receptor-binding domain (RBD). A subunit vaccine against this mutant RBD, constructed by masking this epitope with a glycan probe, did not significantly affect RBD's receptor-binding affinity or antibody-binding affinity, or its ability to induce antibody production. However, this vaccine enhanced the neutralizing activity of this RBD and its protective efficacy in immunized mice. Specifically, this vaccine elicited significantly higher-titer neutralizing antibodies than the prototypic RBD protein against Alpha (B.1.1.7 lineage), Beta (B.1.351 lineage), Gamma (P.1 lineage), and Epsilon (B.1.427 or B.1.429 lineage) variant pseudoviruses containing single or combined mutations in the spike (S) protein, albeit the neutralizing antibody titers against some variants were slightly lower than against original SARS-CoV-2. This vaccine also significantly improved the neutralizing activity of the prototypic RBD against pseudotyped and authentic Delta (B.1.617.2 lineage) and Omicron (B.1.1.529 lineage) variants, although the neutralizing antibody titers were lower than against original SARS-CoV-2. In contrast to the prototypic RBD, the mutant RBD completely protected human ACE2 (hACE2)-transgenic mice from lethal challenge with a prototype SARS-CoV-2 strain and a Delta variant without weight loss. Overall, these findings indicate that this RBD vaccine has broad-spectrum activity against multiple SARS-CoV-2 variants, as well as the potential to be effective and have improved efficacy against Omicron and other pandemic variants. [ABSTRACT FROM AUTHOR]

Published

2022

18. WNV and SLEV coinfection in avian and mosquito hosts: impact on viremia, antibody responses, and vector competence.

Author

Gallichotte EN, Fitzmeyer EA, Williams L, Spangler MC, Bosco-Lauth AM, and Ebel GD

Subjects

Animals, Encephalitis, St. Louis virology, Encephalitis, St. Louis transmission, Virus Replication, Songbirds virology, Antibody Formation, Birds virology, West Nile virus immunology, West Nile Fever virology, West Nile Fever transmission, West Nile Fever veterinary, West Nile Fever immunology, Coinfection virology, Coinfection immunology, Culex virology, Mosquito Vectors virology, Viremia virology, Encephalitis Virus, St. Louis immunology, Antibodies, Viral blood, Antibodies, Viral immunology, Bird Diseases virology, Bird Diseases transmission, Bird Diseases immunology

Abstract

West Nile virus (WNV) and St. Louis encephalitis virus (SLEV) are closely related flaviviruses that can cause encephalitis in humans and related diseases in animals. In nature, both are transmitted by Culex , with wild birds, including jays, sparrows, and robins, serving as vertebrate hosts. WNV and SLEV circulate in the same environments and have recently caused concurrent disease outbreaks in humans. The extent that coinfection of mosquitoes or birds may alter transmission dynamics, however, is not well characterized. We therefore sought to determine if coinfection alters infection kinetics and virus levels in birds and infection rates in mosquitoes. Accordingly, American robins ( Turdus migratorius ), two species of mosquitoes, and vertebrate and invertebrate cells were infected with WNV and/or SLEV to assess how simultaneous exposure may alter infection outcomes. There was variable impact of coinfection in vertebrate cells, with some evidence that SLEV can suppress WNV replication. However, robins had comparable viremia and antibody responses regardless of coinfection. Conversely, in Culex cells and mosquitoes, we saw a minimal impact of simultaneous exposure to both viruses on replication, with comparable infection, dissemination, and transmission rates in singly infected and coinfected mosquitoes. Importantly, while WNV and SLEV levels in coinfected mosquito midguts were positively correlated, we saw no correlation between them in salivary glands and saliva. These results reveal that while coinfection can occur in both avian and mosquito hosts, the viruses minimally impact one another. The potential for coinfection to alter virus population structure or the likelihood of rare genotypes emerging remains unknown.IMPORTANCEWest Nile virus (WNV) and St. Louis encephalitis virus (SLEV) are closely related viruses that are transmitted by the same mosquitoes and infect the same birds in nature. Both viruses circulate in the same regions and have caused concurrent outbreaks in humans. It is possible that mosquitoes, birds, and/or humans could be infected with both WNV and SLEV simultaneously, as has been observed with Zika, chikungunya, and dengue viruses. To study the impact of coinfection, we experimentally infected vertebrate and invertebrate cells, American robins, and two Culex species with WNV and/or SLEV. Robins were efficiently coinfected, with no impact of coinfection on virus levels or immune response. Similarly, in mosquitoes, coinfection did not impact infection rates, and mosquitoes could transmit both WNV and SLEV together. These results reveal that WNV and SLEV coinfection in birds and mosquitoes can occur in nature, which may impact public health and human disease risk., Competing Interests: The authors declare no conflict of interest.

Published

2024

19. Differential Recognition of Computationally Optimized H3 Hemagglutinin Influenza Vaccine Candidates by Human Antibodies.

Author

Abbadi, Nada, Nagashima, Kaito, Pena-Briseno, Alma, Ross, Ted M., and Mousa, Jarrod J.

Subjects

*INFLUENZA vaccines, *INFLUENZA, *MONOCLONAL antibodies, *HEMAGGLUTININ, *AVIAN influenza, *INFLUENZA A virus, H3N2 subtype, *B cells, *ANTIBODY formation

Abstract

Among circulating influenza viruses in humans, H3N2 viruses typically evolve faster than other subtypes and have caused disease in millions of people since emerging in 1968. Computationally optimized broadly reactive antigen (COBRA) technology is one strategy to broaden vaccine-elicited antibody responses among influenza subtypes. In this study, we determined the structural integrity of an H3N2 COBRA hemagglutinin (HA), TJ5, and we probed the antigenic profile of several H3N2 COBRA HAs by assessing recognition of these immunogens by human B cells from seasonally vaccinated human subjects. Of three recently described COBRA H3 HA antigens (TJ5, NG2, and J4), we determined that TJ5 and J4 HA proteins recognize pre-existing B cells more effectively than NG2 HA and a wild-type Hong Kong/4801/2014 protein. We also isolated a panel of 12 H3 HA-specific human monoclonal antibodies (MAbs) and identified that most MAbs recognize both wild-type and COBRA HA proteins and have functional activity against a broad panel of H3N2 viruses. Most MAbs target the receptor-binding site, and one MAb targets the HA stem. MAb TJ5-5 recognizes TJ5 and J4 COBRA HA proteins but has poor recognition of NG2 HA, similar to the global B-cell analysis. We determined a 3.4 Å structure via cryoelectron microscopy of Fab TJ5-5 complexed with the H3 COBRA TJ5, which revealed residues important to the differential binding. Overall, these studies determined that COBRA H3 HA proteins have correct antigenic and structural features, and the proteins are recognized by B cells and MAbs isolated from seasonally vaccinated humans. [ABSTRACT FROM AUTHOR]

Published

2022

20. HIV Coinfection Provides Insights for the Design of Vaccine Cocktails to Elicit Broadly Neutralizing Antibodies.

Author

Sheward, Daniel J., Hermanus, Tandile, Murrell, Ben, Garrett, Nigel, Karim, Salim S. Abdool, Morris, Lynn, Moore, Penny L., and Williamson, Carolyn

Subjects

*IMMUNOGLOBULINS, *MIXED infections, *ANTIBODY formation, *HIV

Abstract

Induction of broadly neutralizing antibodies (bNAbs) to HIV and other diverse pathogens will likely require the use of multiple immunogens. An understanding of the dynamics of antibody development to multiple diverse but related antigens would facilitate the rational design of immunization strategies. Here, we characterize, in detail, the development of neutralizing antibodies in three individuals coinfected with several divergent HIV variants. Two of these coinfected individuals developed additive or cross-neutralizing antibody responses. However, interference was observed in the third case, with neutralizing antibody responses to one viral variant arising to the near exclusion of neutralizing responses to the other. Longitudinal characterization of the diversity in the Envelope glycoprotein trimer (Env) structure showed that in the individual who developed the broadest neutralizing antibodies, circulating viruses shared a conserved epitope on the trimer apex that was targeted by cross-neutralizing antibodies. In contrast, in the other two individuals, diversity was distributed across Env. Taken together, these data highlight that multiple related immunogens can result in immune interference. However, they also suggest that immunogen cocktails presenting shared, conserved neutralizing epitopes in a variable background may focus broadly neutralizing antibody responses to these targets. IMPORTANCE Despite being the focus of extensive research, we still do not know how to reproducibly elicit cross-neutralizing antibodies against variable pathogens by vaccination. Here, we characterize the antibody responses in people coinfected with more than one HIV variant, providing insights into how the use of antigen "cocktails" might affect the breadth of the elicited neutralizing antibody response and how the relatedness of the antigens may shape this. [ABSTRACT FROM AUTHOR]

Published

2022

21. Commonly Elicited Antibodies against the Base of the HIV-1 Env Trimer Guide the Population-Level Evolution of a Structure-Regulating Region in gp41.

Author

Rojas Chávez, Roberth Anthony, Boyt, Devlin, Schwery, Nathan, Changze Han, Li Wu, and Haim, Hillel

Subjects

*HIV, *MONOCLONAL antibodies, *VIRAL proteins, *ANTIBODY formation, *BINDING site assay, *IMMUNOGLOBULINS, *GLYCOPROTEINS

Abstract

The antibody response against the HIV-1 envelope glycoproteins (Envs) guides evolution of this protein within each host. Whether antibodies with similar target specificities are elicited in different individuals and affect the population-level evolution of Env is poorly understood. To address this question, we analyzed properties of emerging variants in the gp41 fusion peptide-proximal region (FPPR) that exhibit distinct evolutionary patterns in HIV-1 clade B. For positions 534, 536, and 539 in the FPPR, alanine was the major emerging variant. However, 534A and 536A show a constant frequency in the population between 1979 and 2016, whereas 539A is gradually increasing. To understand the basis for these differences, we introduced alanine substitutions in the FPPR of primary HIV-1 strains and examined their functional and antigenic properties. Evolutionary patterns could not be explained by fusion competence or structural stability of the emerging variants. Instead, 534A and 536A exhibited modest but significant increases in sensitivity to antibodies against the membrane-proximal external region (MPER) and gp120-gp41 interface. These Envs were also more sensitive to poorly neutralizing sera from HIV-1-infected individuals than the clade ancestral form or 539A variant. Competition binding assays confirmed for all sera tested the presence of antibodies against the base of the Env trimer that compete with monoclonal antibodies targeting the MPER and gp120-gp41 interface. Our findings suggest that weakly neutralizing antibodies against the trimer base are commonly elicited; they do not exert catastrophic population size reduction effects on emerging variants but, instead, determine their set point frequencies in the population and historical patterns of change. IMPORTANCE Infection by HIV-1 elicits formation of antibodies that target the viral Env proteins and can inactivate the virus. The specific targets of these antibodies vary among infected individuals. It is unclear whether some target specificities are shared among the antibody responses of different individuals. We observed that antibodies against the base of the Env protein are commonly elicited during infection. The selective pressure applied by such antibodies is weak. As a result, they do not completely eliminate the sensitive forms of the virus from the population, but maintain their frequency at a low level that has not increased since the beginning of the AIDS pandemic. Interestingly, the changes in Env do not occur at the sites targeted by the antibodies, but at a distinct region of Env, the fusion peptide-proximal region, which regulates their exposure. [ABSTRACT FROM AUTHOR]

Published

2022

22. Induction of Broadly Cross-Reactive Antibody Responses to SARS-CoV-2 Variants by S1 Nanoparticle Vaccines.

Author

Cong Sun, Run-Yu Yuan, Chu Xie, Jiu-Feng Sun, Xin-Yan Fang, Yi-Sha Hu, Xiao-Hui Yu, Zheng Liu, Mu-Sheng Zeng, and Yin-Feng Kang

Subjects

*SARS-CoV-2, *MERS coronavirus, *IMMUNOGLOBULINS, *ANTIBODY formation

Abstract

Despite the rapid deployment of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) vaccines, the emergence of SARS-CoV-2 variants and reports of their immune evasion characteristics have led to an urgent need for novel vaccines that confer potent cross-protective immunity. In this study, we constructed three different SARS-CoV-2 spike S1-conjugated nanoparticle vaccine candidates that exhibited high structural homogeneity and stability. Notably, these vaccines elicited up to 50-timeshigher neutralizing antibody titers than the S1 monomer in mice. Crucially, it was found that the S1-conjugated nanoparticle vaccine could elicit comparable levels of neutralizing antibodies against wild-type or emerging variant SARS-CoV-2, with cross-reactivity to SARS-CoV and Middle East respiratory syndrome coronavirus (MERS-CoV), the effect of which could be further enhanced using our designed nanoparticles. Our results indicate that the S1-conjugated nanoparticles are promising vaccine candidates with the potential to elicit potent and cross-reactive immunity against not only wild-type SARS-CoV-2, but also its variants of concern, variants of interest, and even other pathogenic betacoronaviruses. IMPORTANCE The emergence of SARS-CoV-2 variants led to an urgent demand for a broadly effective vaccine against the threat of variant infection. The spike protein S1-based nanoparticle designed in our study could elicit a comprehensive humoral response toward different SARS-CoV-2 variants of concern and variants of interest and will be helpful to combat COVID-19 globally. [ABSTRACT FROM AUTHOR]

Published

2022

23. Vertical HIV-1 Transmission in the Setting of Maternal Broad and Potent Antibody Responses.

Author

Tu, Joshua J., Kumar, Amit, Giorgi, Elena E., Eudailey, Joshua, LaBranche, Celia C., Martinez, David R., Fouda, Genevieve G., Moreau, Yvetane, Thomas, Allison, Montefiori, David, Feng Gao, Sagar, Manish, and Permar, Sallie R.

Subjects

*ANTIBODY formation, *MATERNALLY acquired immunity, *HIV-positive children, *VERTICAL transmission (Communicable diseases), *AIDS vaccines, *MATERNAL-fetal exchange, *HIV infection transmission, *HIV prevention

Abstract

Despite the worldwide availability of antiretroviral therapy (ART), approximately 150,000 pediatric HIV infections continue to occur annually. ART can dramatically reduce HIV mother-to-child transmission (MTCT), but inconsistent drug access and adherence, as well as primary maternal HIV infection during pregnancy and lactation are major barriers to eliminating vertical HIV transmission. Thus, immunologic strategies to prevent MTCT, such as an HIV vaccine, will be required to attain an HIV-free generation. A primary goal of HIV vaccine research has been to elicit broadly neutralizing antibodies (bnAbs) given the ability of passive bnAb immunization to protect against sensitive strains, yet we previously observed that HIV-transmitting mothers have more plasma neutralization breadth than nontransmitting mothers. Additionally, we have identified infant transmitted/founder (T/F) viruses that escape maternal bnAb responses. In this study, we examine a cohort of postpartum HIV-transmitting women with neutralization breadth to determine if certain maternal bnAb specificities drive the selection of infant T/F viruses. Using HIV pseudoviruses that are resistant to neutralizing antibodies targeting common bnAb epitopes, we mapped the plasma bnAb specificities of this cohort. Significantly more transmitting women with plasma bnAb activity had a mappable plasma bnAb specificity (six of seven, or 85.7%) compared to that of nontransmitting women with plasma bnAb activity (7 of 21, or 33.3%, P = 0.029 by 2-sided Fisher exact test). Our study suggests that having multispecific broad activity and/or uncommon epitope- specific bnAbs in plasma may be associated with protection against the vertical HIV transmission in the setting of maternal bnAb responses. IMPORTANCE As mother to child transmission (MTCT) of HIV plays a major part in the persistence of the HIV/AIDS epidemic and bnAb-based passive and active vaccines are a primary strategy for HIV prevention, research in this field is of great importance. While previous MTCT research has investigated the neutralizing antibody activity of HIV-infected women, this is, to our knowledge, the largest study identifying differences in bnAb specificity of maternal plasma between transmitting and nontransmitting women. Here, we show that among HIV-infected women with broad and potent neutralization activity, more postpartum-transmitting women had a mappable plasma broadly neutralizing antibody (bnAb) specificity, compared to that of nontransmitting women, suggesting that the nontransmitting women more often have multispecific bnAb responses or bnAb responses that target uncommon epitopes. Such responses may be required for protection against vertical HIV transmission in the setting of maternal bnAb responses. [ABSTRACT FROM AUTHOR]

Published

2022

24. Persistence of Virus-Specific Antibody after Depletion of Memory B Cells.

Author

Langley, William A., Wieland, Andreas, Ahmed, Hasan, ur Rasheed, Mohammed Ata, Davis, Carl W., Sewatanon, Jaturong, Mueller, Scott N., Shlomchik, Mark J., Zarnitsyna, Veronika I., Antia, Rustom, and Ahmed, Rafi

Subjects

*IMMUNOLOGIC memory, *RITUXIMAB, *MONOCLONAL antibodies, *BONE marrow cells, *PLASMA cells, *LYMPHOCYTIC choriomeningitis virus, *ANTIBODY formation

Abstract

Humoral immunity is a major component of the adaptive immune response against viruses and other pathogens with pathogen-specific antibody acting as the first line of defense against infection. Virus-specific antibody levels are maintained by continual secretion of antibody by plasma cells residing in the bone marrow. This raises the important question of how the virus-specific plasma cell population is stably maintained and whether memory B cells are required to replenish plasma cells, balancing their loss arising from their intrinsic death rate. In this study, we examined the longevity of virusspecific antibody responses in the serum of mice following acute viral infection with three different viruses: lymphocytic choriomeningitis virus (LCMV), influenza virus, and vesicular stomatitis virus (VSV). To investigate the contribution of memory B cells to the maintenance of virus-specific antibody levels, we employed human CD20 transgenic mice, which allow for the efficient depletion of B cells with rituximab, a human CD20-specific monoclonal antibody. Mice that had resolved an acute infection with LCMV, influenza virus, or VSV were treated with rituximab starting at 2 months after infection, and the treatment was continued for up to a year postinfection. This treatment regimen with rituximab resulted in efficient depletion of B cells (.95%), with virus-specific memory B cells being undetectable. There was an early transient drop in the antibody levels after rituximab treatment followed by a plateauing of the curve with virus-specific antibody levels remaining relatively stable (half-life of 372 days) for up to a year after infection in the absence of memory B cells. The number of virus-specific plasma cells in the bone marrow were consistent with the changes seen in serum antibody levels. Overall, our data show that virus-specific plasma cells in the bone marrow are intrinsically long-lived and can maintain serum antibody titers for extended periods of time without requiring significant replenishment from memory B cells. These results provide insight into plasma cell longevity and have implications for B cell depletion regimens in cancer and autoimmune patients in the context of vaccination in general and especially for COVID-19 vaccines. [ABSTRACT FROM AUTHOR]

Published

2022

25. Intradermally Administered Enterotoxigenic Escherichia coli Vaccine Candidate MecVax Induces Functional Serum Immunoglobulin G Antibodies against Seven Adhesins (CFA/I and CS1 through CS6) and Both Toxins (STa and LT).

Author

Garcia, Carolina Y., Hyesuk Seo, Sack, David A., and Weiping Zhang

Subjects

*ESCHERICHIA coli, *IMMUNOGLOBULINS, *ANTIBODY formation, *IMMUNE response, *VACCINES, *TOXINS, *IMMUNOGLOBULIN G, *FC receptors

Abstract

There are no vaccines licensed for enterotoxigenic Escherichia coli (ETEC), a leading bacterial cause of children's diarrhea and travelers' diarrhea. MecVax, a multivalent E. coli vaccine candidate composed of two epitope- and structure-based polyvalent proteins (toxoid fusion 3xSTaN12S-mnLTR192G/L211A and colonization factor antigen [CFA]/I/II/IV multiepitope fusion antigen [MEFA]), is designed to induce broad antiadhesin and antitoxin antibodies against heterogeneous ETEC pathovars. When administered intraperitoneally or intramuscularly, MecVax was shown to induce antibodies against seven ETEC adhesins (CFA/I and CS1 to CS6) produced by ETEC pathovars that cause over 60% of ETEC-associated diarrheal cases and moderate-to-severe cases and both toxins (heat-labile toxin [LT] and heat-stable toxin [STa]) expressed by all ETEC strains. To further characterize the immunogenicity of this protein-based injectable subunit vaccine candidate and to explore other parenteral administration routes for the product, in this study we immunized mice intradermally (i.d.) with MecVax and measured antigen-specific antibody responses and further antibody functional activities against the adhesins and toxins targeted by the vaccine. Data showed that mice immunized i.d. with MecVax developed robust anti-CFA/I, CS1, CS2, CS3, CS4, CS5, CS6, LT and anti-STa IgG responses. Furthermore, antibodies derived from MecVax administered via the i.d. route inhibited the adherence of ETEC or E. coli strains expressing any of the seven target adhesins (CFA/I and CS1 to CS6) and neutralized the enterotoxicity of LT and STa. These results confirmed broad immunogenicity of MecVax and suggested that this multivalent ETEC subunit vaccine candidate can be effectively delivered via the i.d. route. [ABSTRACT FROM AUTHOR]

Published

2022

26. Analysis of B Cell Receptor Repertoires Reveals Key Signatures of the Systemic B Cell Response after SARS-CoV-2 Infection.

Author

Yudi Zhang, Qihong Yan, Kun Luo, Ping He, Ruitian Hou, Xinwei Zhao, Qian Wang, Haisu Yi, Huan Liang, Yijun Deng, Fengyu Hu, Feng Li, Xinglong Liu, Ying Feng, Pingchao Li, Linbing Qu, Zhaoming Chen, Qiang Pan-Hammarström, Liqiang Feng, and Xuefeng Niu

Subjects

*B cell receptors, *CELL analysis, *SARS-CoV-2, *IMMUNOGLOBULIN heavy chains, *ANTIBODY formation, *IMMUNOGLOBULIN class switching, *B cells, *MONOCLONAL antibodies

Abstract

A comprehensive study of the B cell response against SARS-CoV-2 could be significant for understanding the immune response and developing therapeutical antibodies and vaccines. To define the dynamics and characteristics of the antibody repertoire following SARS-CoV-2 infection, we analyzed the mRNA transcripts of immunoglobulin heavy chain (IgH) repertoires of 24 peripheral blood samples collected between 3 and 111 days after symptom onset from 10 COVID-19 patients. Massive clonal expansion of naive B cells with limited somatic hypermutation (SHM) was observed in the second week after symptom onset. The proportion of low-SHM IgG clones strongly correlated with spike-specific IgG antibody titers, highlighting the significant activation of naive B cells in response to a novel virus infection. The antibody isotype switching landscape showed a transient IgA surge in the first week after symptom onset, followed by a sustained IgG elevation that lasted for at least 3 months. SARS-CoV-2 infection elicited poly-germ line reactive antibody responses. Interestingly, 17 different IGHV germ line genes recombined with IGHJ6 showed significant clonal expansion. By comparing the IgH repertoires that we sequenced with the 774 reported SARS-CoV-2-reactive monoclonal antibodies (MAbs), 13 shared spike-specific IgH clusters were found. These shared spike-specific IgH clusters are derived from the same lineage of several recently published neutralizing MAbs, including CC12.1, CC12.3, C102, REGN10977, and 4A8. Furthermore, identical spike-specific IgH sequences were found in different COVID-19 patients, suggesting a highly convergent antibody response to SARS-CoV-2. Our analysis based on sequencing antibody repertoires from different individuals revealed key signatures of the systemic B cell response induced by SARS-CoV-2 infection. IMPORTANCE Although the canonical delineation of serum antibody responses following SARS-CoV-2 infection has been well established, the dynamics of antibody repertoire at the mRNA transcriptional level has not been well understood, especially the correlation between serum antibody titers and the antibody mRNA transcripts. In this study, we analyzed the IgH transcripts and characterized the B cell clonal expansion and differentiation, isotype switching, and somatic hypermutation in COVID-19 patients. This study provided insights at the repertoire level for the B cell response after SARS-CoV-2 infection. [ABSTRACT FROM AUTHOR]

Published

2022

27. Selection of HIV Envelope Strains for Standardized Assessments of Vaccine-Elicited Antibody-Dependent Cellular Cytotoxicity- Mediating Antibodies.

Author

Mielke, Dieter, Stanfield-Oakley, Sherry, Borate, Bhavesh, Fisher, Leigh H., Faircloth, Katelyn, Tuyishime, Marina, Greene, Kelli, Hongmei Gao, Williamson, Carolyn, Morris, Lynn, Ochsenbauer, Christina, Tomaras, Georgia, Haynes, Barton F., Montefiori, David, Pollara, Justin, deCamp, Allan C., and Ferrari, Guido

Subjects

*ANTIBODY-dependent cell cytotoxicity, *VACCINE trials, *IMMUNOGLOBULINS, *ANTIBODY formation, *HIV, *MOLECULAR cloning

Abstract

Antibody-dependent cellular cytotoxicity (ADCC) has been correlated with reduced risk of human immunodeficiency virus type 1 (HIV-1) infection in several preclinical vaccine trials and in the RV144 clinical trial, indicating that this is a relevant antibody function to study. Given the diversity of HIV-1, the breadth of vaccineinduced antibody responses is a critical parameter to understand if a universal vaccine is to be realized. Moreover, the breadth of ADCC responses can be influenced by different vaccine strategies and regimens, including adjuvants. Therefore, to accurately evaluate ADCC and to compare vaccine regimens, it is important to understand the range of HIV Envelope (Env) susceptibility to these responses. These evaluations have been limited because of the complexity of the assay and the lack of a comprehensive panel of viruses for the assessment of these humoral responses. Here, we used 29 HIV- 1 infectious molecular clones (IMCs) representing different Envelope subtypes and circulating recombinant forms to characterize susceptibility to ADCC from antibodies in plasma from infected individuals, including 13 viremic individuals, 10 controllers, and six with broadly neutralizing antibody responses. We found in our panel that ADCC susceptibility of the IMCs in our panel did not cluster by subtype, infectivity, level of CD4 downregulation, level of shedding, or neutralization sensitivity. Using partitioning around medoids (PAM) clustering to distinguish smaller groups of IMCs with similar ADCC susceptibility, we identified nested panels of four to eight IMCs that broadly represent the ADCC susceptibility of the entire 29-IMC panel. These panels, together with reagents developed to specifically accommodate circulating viruses at the geographical sites of vaccine trials, will provide a powerful tool to harmonize ADCC data generated across different studies and to detect common themes of ADCC responses elicited by various vaccines. [ABSTRACT FROM AUTHOR]

Published

2022

28. Potent Induction of Envelope-Specific Antibody Responses by Virus-Like Particle Immunogens Based on HIV-1 Envelopes from Patients with Early Broadly Neutralizing Responses.

Author

Beltran-Pavez, Carolina, Bontjer, Ilja, Gonzalez, Nuria, Pernas, Maria, Merino-Mansilla, Alberto, Olvera, Alex, Miro, Jose M., Brander, Christian, Alcami, Jose, Sanders, Rogier W., Sanchez-Merino, Victor, and Yuste, Eloisa

Subjects

*VIRUS-like particles, *ANTIBODY formation, *HIV, *IMMUNE response, *IMMUNOGLOBULINS

Abstract

Longitudinal studies in HIV-1-infected individuals have indicated that 2 to 3 years of infection are required to develop broadly neutralizing antibodies. However, we have previously identified individuals with broadly neutralizing activity (bNA) in early HIV-1 infection, indicating that a vaccine may be capable of bNA induction after short periods of antigen exposure. Here, we describe 5 HIV-1 envelope sequences from individuals who have developed bNA within the first 100 days of infection (early neutralizers) and selected two of them to design immunogens based on HIV-1-Gag virus-like particles (VLPs). These VLPs were homogeneous and incorporated the corresponding envelopes (7 to 9 mg of gp120 in 1010 VLPs). Both envelopes (Envs) bound to well-characterized broadly neutralizing antibodies (bNAbs), including trimer-specific antibodies (PGT145, VRC01, and 35022). For immunogenicity testing, we immunized rabbits with the Env-VLPs or with the corresponding stabilized soluble envelope trimers. A short immunization protocol (105 days) was used to recapitulate the early nAb induction observed after HIV-1 infection in these two individuals. All VLP and trimeric envelope immunogens induced a comparably strong anti-gp120 response despite having immunized rabbits with 30 times less gp120 in the case of the Env-VLPs. In addition, animals immunized with VLP-formulated Envs induced antibodies that cross-recognized the corresponding soluble stabilized trimer and vice versa, even though no neutralizing activity was observed. Nevertheless, our data may provide a new platform of immunogens, based on HIV-1 envelopes from patients with early broadly neutralizing responses, with the potential to generate protective immune responses using vaccination protocols similar to those used in classical preventive vaccines. [ABSTRACT FROM AUTHOR]

Published

2022

29. Asymmetric Structures and Conformational Plasticity of the Uncleaved Full-Length Human Immunodeficiency Virus Envelope Glycoprotein Trimer.

Author

Shijian Zhang, Kunyu Wang, Wei Li Wang, Nguyen, Hanh T., Shuobing Chen, Maolin Lu, Go, Eden P., Haitao Ding, Steinbock, Robert T., Desaire, Heather, Kappes, John C., Sodroski, Joseph, and Youdong Mao

Subjects

*VIRAL envelope proteins, *MONOCLONAL antibodies, *ANTIBODY formation, *CD4 antigen, *HIV

Abstract

The functional human immunodeficiency virus (HIV-1) envelope glycoprotein (Env) trimer [(gp120/gp41)3] is produced by cleavage of a conformationally flexible gp160 precursor. gp160 cleavage or the binding of BMS-806, an entry inhibitor, stabilizes the pretriggered, "closed" (state 1) conformation recognized by rarely elicited broadly neutralizing antibodies. Poorly neutralizing antibodies (pNAbs) elicited at high titers during natural infection recognize more "open" Env conformations (states 2 and 3) induced by binding the receptor, CD4. We found that BMS-806 treatment and cross-linking decreased the exposure of pNAb epitopes on cell surface gp160; however, after detergent solubilization, cross-linked and BMS-806-treated gp160 sampled non-state-1 conformations that could be recognized by pNAbs. Cryo-electron microscopy of the purified BMS-806-bound gp160 revealed two hitherto unknown asymmetric trimer conformations, providing insights into the allosteric coupling between trimer opening and structural variation in the gp41 HR1N region. The individual protomer structures in the asymmetric gp160 trimers resemble those of other genetically modified or antibody-bound cleaved HIV-1 Env trimers, which have been suggested to assume state-2-like conformations. Asymmetry of the uncleaved Env potentially exposes surfaces of the trimer to pNAbs. To evaluate the effect of stabilizing a state-1-like conformation of the membrane Env precursor, we treated cells expressing wild-type HIV-1 Env with BMS-806. BMS-806 treatment decreased both gp160 cleavage and the addition of complex glycans, implying that gp160 conformational flexibility contributes to the efficiency of these processes. Selective pressure to maintain flexibility in the precursor of functional Env allows the uncleaved Env to sample asymmetric conformations that potentially skew host antibody responses toward pNAbs. [ABSTRACT FROM AUTHOR]

Published

2021

30. Dengue Virus Serotype 1 Conformational Dynamics Confers Virus Strain-Dependent Patterns of Neutralization by Polyclonal Sera.

Author

VanBlargan, Laura A., Milutinovic, Pavle S., Goo, Leslie, DeMaso, Christina R., Durbin, Anna P., Whitehead, Stephen S., Pierson, Theodore C., and Dowd, Kimberly A.

Subjects

*IMMUNOGLOBULINS, *DENGUE viruses, *IMMUNE serums, *VIRAL antibodies, *ANTIBODY formation, *IMMUNE recognition, *VIRAL variation

Abstract

Dengue virus cocirculates globally as four serotypes (DENV1 to 24) that vary up to 40% at the amino acid level. Viral strains within a serotype further cluster into multiple genotypes. Eliciting a protective tetravalent neutralizing antibody response is a major goal of vaccine design, and efforts to characterize epitopes targeted by polyclonal mixtures of antibodies are ongoing. Previously, we identified two E protein residues (126 and 157) that defined the serotype-specific antibody response to DENV1 genotype 4 strain West Pac-74. DENV1 and DENV2 human vaccine sera neutralized DENV1 viruses incorporating these substitutions equivalently. In this study, we explored the contribution of these residues to the neutralization of DENV1 strains representing distinct genotypes. While neutralization of the genotype 1 strain TVP2130 was similarly impacted by mutation at E residues 126 and 157, mutation of these residues in the genotype 2 strain 16007 did not markedly change neutralization sensitivity, indicating the existence of additional DENV1 type-specific antibody targets. The accessibility of antibody epitopes can be strongly influenced by the conformational dynamics of virions and modified allosterically by amino acid variation. We found that changes at E domain II residue 204, shown previously to impact access to a poorly accessible E domain III epitope, impacted sensitivity of DENV1 16007 to neutralization by vaccine immune sera. Our data identify a role for minor sequence variation in changes to the antigenic structure that impacts antibody recognition by polyclonal immune sera. Understanding how the many structures sampled by flaviviruses influence antibody recognition will inform the design and evaluation of DENV immunogens. IMPORTANCE Dengue virus (DENV) is an important human pathogen that cocirculates globally as four serotypes. Because sequential infection by different DENV serotypes is associated with more severe disease, eliciting a protective neutralizing antibody response against all four serotypes is a major goal of vaccine efforts. Here, we report that neutralization of DENV serotype 1 by polyclonal antibody is impacted by minor sequence variation among virus strains. Our data suggest that mechanisms that control neutralization sensitivity extend beyond variation within antibody epitopes but also include the influence of single amino acids on the ensemble of structural states sampled by structurally dynamic virions. A more detailed understanding of the antibody targets of DENV-specific polyclonal sera and factors that govern their access to antibody has important implications for flavivirus antigen design and evaluation. [ABSTRACT FROM AUTHOR]

Published

2021

31. Antibody responses after sequential vaccination with PCV13 and PPSV23 in patients with moderate to severe plaque psoriasis under immunosuppressive therapy.

Author

Helmer L, van de Sand L, Wojtakowski T, Otte M, Witzke O, Sondermann W, Krawczyk A, and Lindemann M

Subjects

Humans, Male, Female, Middle Aged, Prospective Studies, Adult, Pneumococcal Infections prevention & control, Pneumococcal Infections immunology, Antibody Formation, Aged, Streptococcus pneumoniae immunology, Immunosuppressive Agents administration & dosage, Immunosuppressive Agents therapeutic use, Immunocompromised Host, Young Adult, Immunosuppression Therapy, Psoriasis immunology, Psoriasis drug therapy, Pneumococcal Vaccines administration & dosage, Pneumococcal Vaccines immunology, Antibodies, Bacterial blood, Vaccination

Abstract

A crucial step in lowering the risk of invasive pneumococcal illness in high-risk populations, such as individuals with plaque psoriasis, is pneumococcal vaccination. The serologic response to the sequential vaccination with Prevenar 13 (PCV13) and Pneumovax 23 (PPSV23) in psoriasis patients under immunosuppressive therapy is still poorly characterized despite national recommendations suggesting vaccination for immunocompromised patients. In this prospective study, we investigated the serological response in 57 patients under active systemic treatment for moderate to severe plaque psoriasis who underwent sequential vaccination with PCV13 followed by PPSV23. Our analysis focused on global and serotype-specific anti-pneumococcal antibody responses over a 7-month period post-vaccination. Our findings reveal a robust serological response in patients with plaque psoriasis under systemic therapy. When comparing our results with a cohort of kidney transplant recipients who completed a similar sequential vaccination protocol, psoriasis patients showed higher antibody concentrations. In psoriasis patients, the mean levels of all global antibody classes tested (IgG, IgG2, IgA, IgM) increased more than 4-fold ( P < 0.0001) and serotype-specific antibodies more than 1.9-fold ( P < 0.01). In addition to providing strong evidence of the safety and effectiveness of sequential pneumococcal vaccination in individuals with plaque psoriasis, our work sheds light on the complex interactions that exist between immunosuppressive treatment, vaccination schedule, and antibody responses in various risk groups., Importance: To protect against severe courses of infection with Streptococcus pneumoniae , the national guidelines recommend sequential vaccination for these patients. However, there are only studies on the efficacy of a single administration of these vaccines in this particular risk group. The immunological responses to the vaccine were correlated with clinical patient data. In summary, our study shows for the first time that sequential vaccination is immunogenic in patients with moderate to severe plaque psoriasis., Competing Interests: Wiebke Sondermann received travel support for participation in congresses and/or (speaker) honoraria and/or research grants from medi GmbH Bayreuth, Abbvie, Almirall, Amgen, Boehringer Ingelheim, Bristol-Myers Squibb, Celgene, GSK, Janssen, LEO Pharma, Lilly, MSD, Novartis, Pfizer, Roche, Sanofi Genzyme, and UCB outside of the present publication.

Published

2024

32. A Novel Strain-Specific Neutralizing Epitope on Glycoprotein H of Human Cytomegalovirus.

Author

Thomas, Marco, Kropff, Barbara, Schneider, Andrea, Winkler, Thomas H., Görzer, Irene, Sticht, Heinrich, Britt, William J., Mach, Michael, and Reuter, Nina

Subjects

*HUMAN cytomegalovirus, *ANTIBODY formation, *NEWBORN infants, *MONOCLONAL antibodies, *VIRAL envelopes, *IMMUNOFLUORESCENCE

Abstract

Human cytomegalovirus (HCMV) is a ubiquitous pathogen that causes severe clinical disease in immunosuppressed patients and congenitally infected newborn infants. Viral envelope glycoproteins represent attractive targets for vaccination or passive immunotherapy. To extend the knowledge of mechanisms of virus neutralization, monoclonal antibodies (MAbs) were generated following immunization of mice with HCMV virions. Hybridoma supernatants were screened for in vitro neutralization activity, yielding three potent MAbs, 6E3, 3C11, and 2B10. MAbs 6E3 and 3C11 blocked infection of all viral strains that were tested, while MAb 2B10 neutralized only 50% of the HCMV strains analyzed. Characterization of the MAbs using indirect immunofluorescence analyses demonstrated their reactivity with recombinantly derived gH. While MAbs 6E3 and 3C11 reacted with gH when expressed alone, 2B10 detected gH only when it was coexpressed with gB and gL. Recognition of gH by 3C11 was dependent on the expression of the entire ectodomain of gH, whereas 6E3 required residues 1 to 629 of gH. The strain-specific determinant for neutralization by Mab 2B10 was identified as a single Met!Ile amino acid polymorphism within gH, located within the central part of the protein. The polymorphism is evenly distributed among described HCMV strains. The 2B10 epitope thus represents a novel strain-specific antibody target site on gH of HCMV. The dependence of the reactivity of 2B10 on the simultaneous presence of gB/gH/gL will be of value in the structural definition of this tripartite complex. The 2B10 epitope may also represent a valuable tool for diagnostics to monitor infections/reinfections with different HCMV strains during pregnancy or after transplantation. IMPORTANCE HCMV infections are life threatening to people with compromised or immature immune systems. Understanding the antiviral antibody repertoire induced during HCMV infection is a necessary prerequisite to define protective antibody responses. Here, we report three novel anti-gH MAbs that potently neutralized HCMV infectivity. One of these MAbs (2B10) targets a novel strain-specific conformational epitope on gH that only becomes accessible upon coexpression of the minimal fusion machinery gB/gH/gL. Strain specificity is dependent on a single amino acid polymorphism within gH. Our data highlight the importance of strain-specific neutralizing antibody responses against HCMV. The 2B10 epitope may also represent a valuable tool for diagnostics to monitor infections/reinfections with different HCMV strains during pregnancy or after transplantation. In addition, the dependence of the reactivity of 2B10 on the simultaneous presence of gB/gH/gL will be of value in the structural definition of this tripartite complex. [ABSTRACT FROM AUTHOR]

Published

2021

33. Enhanced Ability of Plant-Derived PGT121 Glycovariants To Eliminate HIV-1-Infected Cells.

Author

Anand, Sai Priya, Shilei Ding, Tolbert, William D., Prévost, Jérémie, Richard, Jonathan, Hwi Min Gil, Gendron-Lepage, Gabrielle, Wing-Fai Cheung, Haifeng Wang, Pastora, Rebecca, Saxena, Hirak, Wakarchuk, Warren, Medjahed, Halima, Wines, Bruce D., Hogarth, Mark, Shaw, George M., Martin, Malcom A., Burton, Dennis R., Hangartner, Lars, and Evans, David T.

Subjects

*HIV, *ANTIBODY formation, *NICOTIANA benthamiana, *T cells, *FUCOSYLATION

Abstract

The activity of broadly neutralizing antibodies (bNAbs) targeting HIV-1 depends on pleiotropic functions, including viral neutralization and the elimination of HIV-1-infected cells. Several in vivo studies have suggested that passive administration of bNAbs represents a valuable strategy for the prevention or treatment of HIV-1. In addition, different strategies are currently being tested to scale up the production of bNAbs to obtain the large quantities of antibodies required for clinical trials. Production of antibodies in plants permits low-cost and large-scale production of valuable therapeutics; furthermore, pertinent to this work, it also includes an advanced glycoengineering platform. In this study, we used Nicotiana benthamiana to produce different Fc-glycovariants of a potent bNAb, PGT121, with near-homogeneous profiles and evaluated their antiviral activities. Structural analyses identified a close similarity in overall structure and glycosylation patterns of Fc regions for these plant-derived Abs and mammalian cell-derived Abs. When tested for Fc-effector activities, afucosylated PGT121 showed significantly enhanced FcgRIIIa interaction and antibody dependent cellular cytotoxicity (ADCC) against primary HIV-1-infected cells, both in vitro and ex vivo. However, the overall galactosylation profiles of plant PGT121 did not affect ADCC activities against infected primary CD41 T cells. Our results suggest that the abrogation of the Fc N-linked glycan fucosylation of PGT121 is a worthwhile strategy to boost its Fc-effector functionality. IMPORTANCE PGT121 is a highly potent bNAb and its antiviral activities for HIV-1 prevention and therapy are currently being evaluated in clinical trials. The importance of its Fc-effector functions in clearing HIV-1-infected cells is also under investigation. Our results highlight enhanced Fc-effector activities of afucosylated PGT121 MAbs that could be important in a therapeutic context to accelerate infected cell clearance and slow disease progression. Future studies to evaluate the potential of plant-produced afucosylated PGT121 in controlling HIV-1 replication in vivo are warranted. [ABSTRACT FROM AUTHOR]

Published

2021

34. Limited Evidence for a Relationship between HIV-1 Glycan Shield Features in Early Infection and the Development of Neutralization Breadth.

Author

Yifan Li, Hongjun Bai, Sanders-Buell, Eric, Dussupt, Vincent, Townsley, Samantha, Donofrio, Gina, Bose, Meera, O'Sullivan, Anne Marie, Kibuuka, Hannah, Maganga, Lucas, Nitayaphan, Sorachai, Kosgei, Josphat, Pitisuttithum, Punnee, Rerks-Ngarm, Supachai, Eller, Leigh Anne, Michael, Nelson L., Robb, Merlin L., Ake, Julie, Vasan, Sandhya, and Tovanabutra, Sodsai

Subjects

*HIV, *GLYCANS, *ANTIBODY formation, *INFECTION, *EVIDENCE

Abstract

Identifying whether viral features present in acute HIV-1 infection predetermine the development of neutralization breadth is critical to vaccine design. Incorporating such features in vaccine antigens could initiate cross-reactive antibody responses that could sufficiently protect vaccinees from HIV-1 infection despite the uniqueness of each founder virus. To understand the relationship between Env determinants and the development of neutralization breadth, we focused on 197 individuals enrolled in two cohorts in Thailand and East Africa (RV144 and RV217) and followed since their diagnosis in acute or early HIV-1 infection. We analyzed the distribution of variable loop lengths and glycans, as well as the predicted density of the glycan shield, and compared these envelope features to the neutralization breadth data obtained 3 years after infection (n =121). Our study revealed limited evidence for glycan shield features that associate with the development of neutralization breadth. While the glycan shield tended to be denser in participants who subsequently developed breadth, no significant relationship was found between the size of glycan holes and the development of neutralization breadth. The parallel analysis of 3,000 independent Env sequences showed no evidence of directional evolution of glycan shield features since the beginning of the epidemic. Together, our results highlight that glycan shield features in acute and early HIV-1 infection may not play a role determinant enough to dictate the development of neutralization breadth and instead suggest that the glycan shield's reactive properties that are associated with immune evasion may have a greater impact. [ABSTRACT FROM AUTHOR]

Published

2021

35. SARS-CoV-2 Spike Protein Stabilized in the Closed State Induces Potent Neutralizing Responses.

Author

Carnell, George W., Ciazynska, Katarzyna A., Wells, David A., Xiaoli Xiong, Aguinam, Ernest T., McLaughlin, Stephen H., Mallery, Donna, Ebrahimi, Soraya, Ceron-Gutierrez, Lourdes, Asbach, Benedikt, Einhauser, Sebastian, Wagner, Ralf, James, Leo C., Doffinger, Rainer, Heeney, Jonathan L., and Briggs, John A. G.

Subjects

*SARS-CoV-2, *VIRAL proteins, *LABORATORY mice, *ANTIBODY formation, *PROTEINS, *T cells, *COVID-19

Abstract

The majority of SARS-CoV-2 vaccines in use or advanced development are based on the viral spike protein (S) as their immunogen. S is present on virions as prefusion trimers in which the receptor binding domain (RBD) is stochastically open or closed. Neutralizing antibodies have been described against both open and closed conformations. The long-term success of vaccination strategies depends upon inducing antibodies that provide long-lasting broad immunity against evolving SARS-CoV-2 strains. Here, we have assessed the results of immunization in a mouse model using an S protein trimer stabilized in the closed state to prevent full exposure of the receptor binding site and therefore interaction with the receptor. We compared this with other modified S protein constructs, including representatives used in current vaccines. We found that all trimeric S proteins induced a T cell response and long-lived, strongly neutralizing antibody responses against 2019 SARS-CoV-2 and variants of concern P.1 and B.1.351. Notably, the protein binding properties of sera induced by the closed spike differed from those induced by standard S protein constructs. Closed S proteins induced more potent neutralizing responses than expected based on the degree to which they inhibit interactions between the RBD and ACE2. These observations suggest that closed spikes recruit different, but equally potent, immune responses than open spikes and that this is likely to include neutralizing antibodies against conformational epitopes present in the closed conformation. We suggest that closed spikes, together with their improved stability and storage properties, may be a valuable component of refined, next-generation vaccines. [ABSTRACT FROM AUTHOR]

Published

2021

36. An H1N1 Computationally Optimized Broadly Reactive Antigen Elicits a Neutralizing Antibody Response against an Emerging Human-Infecting Eurasian Avian-Like Swine Influenza Virus.

Author

Sautto, Giuseppe A., Ecker, Jeffrey W., and Ross, Ted M.

Subjects

*INFLUENZA A virus, H1N1 subtype, *PANDEMICS, *SWINE influenza, *INFLUENZA A virus, *INFLUENZA viruses, *ANTIBODY formation, *INFLUENZA A virus, H3N2 subtype

Published

2021

37. Mucosal Priming with a Recombinant Influenza A Virus-Vectored Vaccine Elicits T-Cell and Antibody Responses to HIV-1 in Mice.

Author

Jinlin Wang, Tao Shu, Weiqi Deng, Yali Zheng, Min Liao, Xianmiao Ye, Lujie Han, Ping He, Xuehua Zheng, Ting Li, Ying Feng, Fengyu Hu, Pingchao Li, Caijun Sun, Ling Chen, Feng Li, and Liqiang Feng

Subjects

*HIV, *ANTIBODY formation, *INFLUENZA vaccines, *MUCOUS membranes, *ADENOVIRUS diseases, *SPLEEN

Abstract

Recombinant influenza A viral (IAV) vectors are potential to stimulate systemic and mucosal immunity, but the packaging capacity is limited and only one or a few epitopes can be carried. Here, we report the generation of a replication-competent IAV vector that carries a full-length HIV-1 p24 gene linked to the 59-terminal coding region of the neuraminidase segment via a protease cleavage sequence (IAV-p24). IAV-p24 was successfully rescued and stably propagated, and P24 protein was efficiently expressed in infected mammalian cells. In BALB/c mice, IAV-p24 showed attenuated pathogenicity compared to that of the parental A/PR/8/34 (H1N1) virus. An intranasal inoculation with IAV-p24 elicited moderate HIV-specific cell-mediated immune (CMI) responses in the airway and vaginal tracts and in the spleen, and an intranasal boost with a replication-incompetent adenovirus type 2 vector expressing the HIV-1 gag gene (Ad2-gag) greatly improved these responses. Importantly, compared to an Ad2-gag prime plus IAV-p24 boost regimen, the IAV-p24 prime plus Ad2-gag boost regimen had a greater efficacy in eliciting HIV-specific CMI responses. P24-specific CD81 T cells and antibodies were robustly provoked both systemically and in mucosal sites and showed long-term durability, revealing that IAV-p24 may be used as a mucosa-targeted priming vaccine. Our results illustrate that IAV-p24 is able to prime systemic and mucosal immunity against HIV-1 and warrants further evaluation in nonhuman primates. [ABSTRACT FROM AUTHOR]

Published

2021

38. Comparative Antibody Responses to the Live-Attenuated and Recombinant Herpes Zoster Vaccines.

Author

Schmid, D. Scott, Miao, Congrong, Leung, Jessica, Johnson, Michael, Weinberg, Adriana, and Levin, Myron J.

Subjects

*ANTIBODY formation, *HERPES zoster vaccines, *VACCINE effectiveness, *HERPES zoster, *CELLULAR immunity, *HUMORAL immunity, *COMPLEMENT receptors

Abstract

Two herpes zoster (HZ) vaccines licensed in the United States are recommended by the Advisory Committee on Immunization Practices (ACIP): (i) live-attenuated vaccine (ZVL) using vOka strain varicella-zoster virus (VZV) and (ii) recombinant adjuvanted vaccine (RZV) containing recombinant varicella-zoster virus (VZV) glycoprotein E (gE). Two phase 3 clinical trials of RZV led the Advisory Committee on Immunization Practices (ACIP) to recommend it with preferred status. VZV T cell-mediated immunity (CMI), but not humoral immunity, is considered essential for protection against HZ. Published studies of humoral immunity focused on VZV-specific IgG concentration. To complement reports comparing the CMI responses to these vaccines, we compared humoral responses in ZVL and RZV recipients, emphasizing functional qualities (avidity and neutralization). Baseline avidities to a VZV glycoprotein mixture (gp) were near the upper limit of detection, but avidity to gE was much lower. Small increases in gp avidity were observed for both RZV and ZVL vaccination (19 and 12 avidity index units [AIU], respectively). RZV boosted both gE avidity and VZV neutralizing antibody significantly more than ZVL (mean gE avidity boost, 47 AIU versus 22 AIU; mean neutralizing antibody boost, 22-fold versus 8-fold). Increases in neutralizing antibodies strongly correlated with gE avidity increases (r=0.5) and moderately with gp avidity increases (r= 0.23). After 1 year, 81% of RZV recipients and only 18% of ZVL recipients retained >50% of their peak avidity boosts. These results are consistent with the CMI responses to these vaccines: RZV responses are skewed to long-term memory, whereas ZVL preferentially induces transient effector responses. [ABSTRACT FROM AUTHOR]

Published

2021

39. Link between Interleukin-23 and Anti-CD4 Autoantibody Production in Antiretroviral-Treated HIV-Infected Individuals.

Author

Zhenwu Luo, Min Li, Fuli Mi, Zhefeng Meng, Guoqiang Du, Martin, Lisa, Hui Liu, Ping Jin, Stroncek, David, Heath, Sonya L., and Wei Jiang

Subjects

*AUTOANTIBODIES, *INTERLEUKIN-23, *T cells, *ANTIBODY formation, *SEASONAL influenza, *IMMUNOGLOBULIN G

Abstract

Potential mechanisms of poor CD4+ T cell reconstitution after viral suppression with antiretroviral therapy (ART) in HIV disease have been extensively investigated. We recently discovered that anti-CD4 autoantibody plays a role in impaired CD4+ T cell recovery from ART in HIV-infected individuals with viral suppression, which accounts for a mechanism specific for CD4+ T cell depletion. However, the mechanism of pathological anti-CD4 autoantibody production in treated HIV disease remains unknown. Here, we report that seasonal influenza vaccination induced IgG anti-CD4 autoantibodies, predominantly of the IgG3 subclass, in some virus-suppressed ART-treated HIV1 subjects. To explore the mechanism of anti-CD4 antibody production in this population, we performed and analyzed gene profiles in isolated B cells using a gene microarray and 32 plasma cytokines. Notably, both gene expression and multiple cytokine analyses showed that interleukin 23 (IL-23), at the prevaccination plasma level, was the key cytokine linked to IgG anti-CD4 antibody production in response to immunization in vivo. Exogenous recombinant IL-23 (rIL-23) increased autoreactive IgG binding on CD4+ T cells from HIV1 subjects in vitro. Results from this study may reveal a role of IL-23 in anti-CD4 autoantibody production in treated HIV. [ABSTRACT FROM AUTHOR]

Published

2021

40. Nonsteroidal Anti-inflammatory Drugs Dampen the Cytokine and Antibody Response to SARS-CoV-2 Infection.

Author

Chen, Jennifer S., Alfajaro, Mia Madel, Chow, Ryan D., Jin Wei, Filler, Renata B., Eisenbarth, Stephanie C., and Wilen, Craig B.

Subjects

*COVID-19, *SARS-CoV-2, *ANTI-inflammatory agents, *ANTIBODY formation, *HUMAN cell culture, *PROSTAGLANDIN receptors

Abstract

Identifying drugs that regulate severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection and its symptoms has been a pressing area of investigation during the coronavirus disease 2019 (COVID-19) pandemic. Nonsteroidal anti-inflammatory drugs (NSAIDs), which are frequently used for the relief of pain and inflammation, could modulate both SARS-CoV-2 infection and the host response to the virus. NSAIDs inhibit the enzymes cyclooxygenase-1 (COX-1) and cyclooxygenase-2 (COX-2), which mediate the production of prostaglandins (PGs). Since PGs play diverse biological roles in homeostasis and inflammatory responses, inhibiting PG production with NSAIDs could affect COVID-19 pathogenesis in multiple ways, including (i) altering susceptibility to infection by modifying expression of angiotensin-converting enzyme 2 (ACE2), the cell entry receptor for SARS-CoV-2; (ii) regulating replication of SARS-CoV-2 in host cells; and (iii) modulating the immune response to SARS-CoV-2. Here, we investigate these potential roles. We demonstrate that SARS-CoV-2 infection upregulates COX-2 in diverse human cell culture and mouse systems. However, suppression of COX-2 by two commonly used NSAIDs, ibuprofen and meloxicam, had no effect on ACE2 expression, viral entry, or viral replication. In contrast, in a mouse model of SARS-CoV-2 infection, NSAID treatment reduced production of proinflammatory cytokines and impaired the humoral immune response to SARS-CoV-2, as demonstrated by reduced neutralizing antibody titers. Our findings indicate that NSAID treatment may influence COVID-19 outcomes by dampening the inflammatory response and production of protective antibodies rather than modifying susceptibility to infection or viral replication. [ABSTRACT FROM AUTHOR]

Published

2021

41. Dual Pathways of Human Immunodeficiency Virus Type 1 Envelope Glycoprotein Trafficking Modulate the Selective Exclusion of Uncleaved Oligomers from Virions.

Author

Shijian Zhang, Nguyen, Hanh T., Haitao Ding, Jia Wang, Shitao Zou, Lihong Liu, Guha, Debjani, Gabuzda, Dana, Ho, David D., Kappes, John C., and Sodroski, Joseph

Subjects

*HIV, *CELL membranes, *OLIGOMERS, *GOLGI apparatus, *VIRUS-like particles, *ANTIBODY formation, *VIRAL antibodies

Abstract

The human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein (Env) trimer is transported through the secretory pathway to the infected cell surface and onto virion particles. In the Golgi, the gp160 Env precursor is modified by complex sugars and proteolytically cleaved to produce the mature functional Env trimer, which resists antibody neutralization. We observed mostly uncleaved gp160 and smaller amounts of cleaved gp120 and gp41 Envs on the surface of HIV-1-infected or Env-expressing cells; however, cleaved Envs were relatively enriched in virions and virus-like particles (VLPs). This relative enrichment of cleaved Env in VLPs was observed for wild-type Envs, for Envs lacking the cytoplasmic tail, and for CD4-independent, conformationally flexible Envs. On the cell surface, we identified three distinct populations of Envs: (i) the cleaved Env was transported through the Golgi, was modified by complex glycans, formed trimers that cross-linked efficiently, and was recognized by broadly neutralizing antibodies; (ii) a small fraction of Env modified by complex carbohydrates escaped cleavage in the Golgi; and (iii) the larger population of uncleaved Env lacked complex carbohydrates, cross-linked into diverse oligomeric forms, and was recognized by poorly neutralizing antibodies. This last group of more "open" Env oligomers reached the cell surface in the presence of brefeldin A, apparently bypassing the Golgi apparatus. Relative to Envs transported through the Golgi, these uncleaved Envs were counterselected for virion incorporation. By employing two pathways for Env transport to the surface of infected cells, HIV-1 can misdirect host antibody responses toward conformationally flexible, uncleaved Env without compromising virus infectivity. IMPORTANCE The envelope glycoprotein (Env) trimers on the surface of human immunodeficiency virus type 1 (HIV-1) mediate the entry of the virus into host cells and serve as targets for neutralizing antibodies. The cleaved, functional Env is incorporated into virus particles from the surface of the infected cell. We found that an uncleaved form of Env is transported to the cell surface by an unconventional route, but this nonfunctional Env is mostly excluded from the virus. Thus, only one of the pathways by which Env is transported to the surface of infected cells results in efficient incorporation into virus particles, potentially allowing the uncleaved Env to act as a decoy to the host immune system without compromising virus infectivity. [ABSTRACT FROM AUTHOR]

Published

2021

42. Changes in SARS-CoV-2 Spike versus Nucleoprotein Antibody Responses Impact the Estimates of Infections in Population-Based Seroprevalence Studies.

Author

Fenwick, Craig, Croxatto, Antony, Coste, Alix T., Pojer, Florence, André, Cyril, Pellaton, Céline, Farina, Alex, Campos, Jérémy, Hacker, David, Lau, Kelvin, Bosch, Berend-Jan, Nussle, Semira Gonseth, Bochud, Murielle, D'Acremont, Valerie, Trono, Didier, Greub, Gilbert, and Pantaleo, Giuseppe

Subjects

*ANTIBODY formation, *SARS-CoV-2, *NUCLEOPROTEINS, *PROTEIN S, *VIRAL antibodies, *SEROPREVALENCE, *CARRIER proteins

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)-specific antibody responses to the spike (S) protein monomer, S protein native trimeric form, or the nucleocapsid (N) proteins were evaluated in cohorts of individuals with acute infection (n=93) and in individuals enrolled in a postinfection seroprevalence population study (n=578) in Switzerland. Commercial assays specific for the S1 monomer, for the N protein, or within a newly developed Luminex assay using the S protein trimer were found to be equally sensitive in antibody detection in the acute-infection-phase samples. Interestingly, compared to anti-S antibody responses, those against the N protein appear to wane in the postinfection cohort. Seroprevalence in a "positive patient contacts" group (n=177) was underestimated by N protein assays by 10.9 to 32.2%, while the "randomly selected" general population group (n=311) was reduced by up to 45% relative to the S protein assays. The overall reduction in seroprevalence targeting only anti-N antibodies for the total cohort ranged from 9.4 to 31%. Of note, the use of the S protein in its native trimer form was significantly more sensitive compared to monomeric S proteins. These results indicate that the assessment of anti-S IgG antibody responses against the native trimeric S protein should be implemented to estimate SARS-CoV-2 infections in population-based seroprevalence studies. In the present study, we have determined SARS-CoV-2-specific antibody responses in sera of acute and postinfection phase subjects. Our results indicate that antibody responses against viral S and N proteins were equally sensitive in the acute phase of infection, but that responses against N appear to wane in the postinfection phase where those against the S protein persist over time. The most sensitive serological assay in both acute and postinfection phases used the native S protein trimer as the binding antigen, which has significantly greater conformational epitopes for antibody binding compared to the S1 monomer protein used in other assays. We believe these results are extremely important in order to generate correct estimates of SARS-CoV-2 infections in the general population. Furthermore, the assessment of antibody responses against the trimeric S protein will be critical to evaluate the durability of the antibody response and for the characterization of a vaccine-induced antibody response. [ABSTRACT FROM AUTHOR]

Published

2021

43. Reduced control of SARS-CoV-2 infection associates with lower mucosal antibody responses in pregnancy.

Author

St Clair LA, Eldesouki RE, Sachithanandham J, Yin A, Fall A, Morris CP, Norton JM, Abdullah O, Dhakal S, Barranta C, Golding H, Bersoff-Matcha SJ, Pilgrim-Grayson C, Berhane L, Cox AL, Burd I, Pekosz A, Mostafa HH, Klein EY, and Klein SL

Subjects

Pregnancy, Humans, Female, SARS-CoV-2, Antibody Formation, Breakthrough Infections, Cohort Studies, Retrospective Studies, RNA, Viral, Immunoglobulin G, COVID-19, Pregnancy Complications, Infectious

Abstract

Pregnant patients are at greater risk of hospitalization with severe COVID-19 than non-pregnant people. This was a retrospective observational cohort study of remnant clinical specimens from patients who visited acute care hospitals within the Johns Hopkins Health System in the Baltimore, MD-Washington DC, area between October 2020 and May 2022. Participants included confirmed severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)-infected pregnant people and matched non-pregnant people (the matching criteria included age, race/ethnicity, area deprivation index, insurance status, and vaccination status to ensure matched demographics). The primary dependent measures were clinical COVID-19 outcomes, infectious virus recovery, viral RNA levels, and mucosal anti-spike (S) IgG titers from upper respiratory tract samples. A total of 452 individuals (117 pregnant and 335 non-pregnant) were included in the study, with both vaccinated and unvaccinated individuals represented. Pregnant patients were at increased risk of hospitalization (odds ratio [OR] = 4.2; confidence interval [CI] = 2.0-8.6), intensive care unit admittance (OR = 4.5; CI = 1.2-14.2), and being placed on supplemental oxygen therapy (OR = 3.1; CI = 1.3-6.9). Individuals infected during their third trimester had higher mucosal anti-S IgG titers and lower viral RNA levels ( P < 0.05) than those infected during their first or second trimesters. Pregnant individuals experiencing breakthrough infections due to the Omicron variant had reduced anti-S IgG compared to non-pregnant patients ( P < 0.05). The observed increased severity of COVID-19 and reduced mucosal antibody responses particularly among pregnant participants infected with the Omicron variant suggest that maintaining high levels of SARS-CoV-2 immunity through booster vaccines may be important for the protection of this at-risk population.IMPORTANCEIn this retrospective observational cohort study, we analyzed remnant clinical samples from non-pregnant and pregnant individuals with confirmed severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections who visited the Johns Hopkins Hospital System between October 2020 and May 2022. Disease severity, including intensive care unit admission, was greater among pregnant than non-pregnant patients. Vaccination reduced recovery of infectious virus and viral RNA levels in non-pregnant patients, but not in pregnant patients. In pregnant patients, increased nasopharyngeal viral RNA levels and recovery of infectious virus were associated with reduced mucosal IgG antibody responses, especially among women in their first trimester of pregnancy or experiencing breakthrough infections from Omicron variants. Taken together, this study provides insights into how pregnant patients are at greater risk of severe COVID-19. The novelty of this study is that it focuses on the relationship between the mucosal antibody response and its association with virus load and disease outcomes in pregnant people, whereas previous studies have focused on serological immunity. Vaccination status, gestational age, and SARS-CoV-2 omicron variant impact mucosal antibody responses and recovery of infectious virus from pregnant patients., Competing Interests: The authors declare no conflict of interest.

Published

2024

44. Cholera toxin and O-specific polysaccharide immune responses after oral cholera vaccination with Dukoral in different age groups of Bangladeshi participants.

Author

Dash P, Hakim A, Akter A, Banna HA, Kaisar MH, Aktar A, Jahan SR, Ferdous J, Basher SR, Kamruzzaman M, Chowdhury F, Akter A, Tauheed I, Weil AA, Charles RC, Calderwood SB, Ryan ET, LaRocque RC, Harris JB, Bhuiyan TR, and Qadri F

Subjects

Adult, Child, Humans, Adolescent, Child, Preschool, Aged, Infant, Newborn, Cholera Toxin, O Antigens, Immunoglobulin M, Antibodies, Bacterial, Immunoglobulin A, Vaccination, Antibody Formation, Immunoglobulin G, Cholera Vaccines, Cholera prevention & control, Vibrio cholerae O1

Abstract

Vaccination is important to prevent cholera. There are limited data comparing anti-O-specific polysaccharide (OSP) and anti-cholera toxin-specific immune responses following oral whole-cell with cholera toxin B-subunit (WC-rBS) vaccine (Dukoral, Valneva) administration in different age groups. An understanding of the differences is relevant because young children are less well protected by oral cholera vaccines than older children and adults. We compared responses in 50 adults and 49 children (ages 2 to <18) who were administered two doses of WC-rBS at a standard 14-day interval. All age groups had significant IgA and IgG plasma-blast responses to the OSP and cholera toxin B-subunit (CtxB) antigens that peaked 7 days after vaccination. However, in adults and older children (ages 5 to <18), antibody responses directed at the OSP antigen were largely IgA and IgG, with a minimal IgM response, while younger children (ages 2 to <5) mounted significant increases in IgM with minimal increases in IgA and IgG antibody responses 30 days after vaccination. In adults, anti-OSP and CtxB memory B-cell responses were detected after completion of the vaccination series, while children only mounted CtxB-specific IgG memory B-cell responses and no OSP-memory B-cell responses. In summary, children and adults living in a cholera endemic area mounted different responses to the WC-rBS vaccine, which may be a result of more prior exposure to Vibrio cholerae in older participants. The absence of class-switched antibody responses and memory B-cell responses to OSP may explain why protection wanes more rapidly after vaccination in young children compared to older vaccinees.IMPORTANCEVaccination is an important strategy to prevent cholera. Though immune responses targeting the OSP of V. cholerae are believed to mediate protection against cholera, there are limited data on anti-OSP responses after vaccination in different age groups, which is important as young children are not well protected by current oral cholera vaccines. In this study, we found that adults mounted memory B-cell responses to OSP, which were not seen in children. Adults and older children mounted class-switched (IgG and IgA) serum antibody responses to OSP, which were not seen in young children who had only IgM responses to OSP. The lack of class-switched antibody responses and memory B-cell responses to OSP in younger participants may be due to lack of prior exposure to V. cholerae and could explain why protection wanes more rapidly after vaccination in young children., Competing Interests: The authors declare no conflict of interest.

Published

2024

45. Visualization of immune pathways that enhance the neutralizing antibody response to vaccines after primary immunization.

Author

Verma A, De Pascalis R, Mocca CP, Li X, and Burns DL

Subjects

Antibodies, Neutralizing, Antibody Formation, Antigens, Bacterial metabolism, Vaccination, Immunization, Antibodies, Bacterial, Anthrax Vaccines, Bacillus anthracis metabolism

Abstract

We examined the relationship between the association of a vaccine antigen with immune cells in secondary lymphoid organs shortly after immunization and the resulting neutralizing antibody response induced by that antigen using three antigenic forms of anthrax protective antigen (PA) that induce qualitatively different antibody responses. The three PA forms used were wild-type PA, which binds to anthrax toxin receptors and elicits a robust antibody response that includes both neutralizing and non-neutralizing antibodies; a receptor-binding-deficient (RBD) mutant form of PA, which does not bind cellular receptors and elicits only barely detectable antibody responses; and an engineered chimeric form of PA, which binds cholera toxin receptors and elicits a robust total antibody response but a poor neutralizing antibody response. We found that both wild-type PA and the PA chimera associated with immune cells in secondary lymphoid organs after immunization, but the RBD mutant PA exhibited minimal association, revealing a relationship between antigen binding to toxin receptors on immune cells after immunization and subsequent antibody responses. A portion of wild-type PA that bound to immune cells was cell surface-associated and maintained its native conformation. Much lower amounts of conformationally intact PA chimera were associated with immune cells after immunization, correlating with the lower neutralizing antibody response elicited by the PA chimera. Thus, binding of an antigen to receptors on immune cells in secondary lymphoid organs after immunization and maintenance of conformational integrity of the cell-associated antigen help dictate the magnitude of the resulting neutralizing antibody response, but not necessarily the total antibody response.IMPORTANCEMany vaccines protect by the induction of antibodies that neutralize the action of the pathogen. Here, we followed the fate of three antigenic forms of a vaccine antigen in secondary lymphoid organs after immunization to investigate events leading to a robust neutralizing antibody response. We found that the magnitude of the neutralizing antibody response, but not the total antibody response, correlates with the levels of conformationally intact antigen associated with immune cells in secondary lymphoid organs after primary immunization. We believe that these results provide important insights into the genesis of neutralizing antibody responses induced by vaccine antigens and may have implications for vaccine design., Competing Interests: The authors declare no conflict of interest.

Published

2024

46. Neutralizing Antibody Responses Induced by HIV-1 Envelope Glycoprotein SOSIP Trimers Derived from Elite Neutralizers.

Author

Schorcht, Anna, van den Kerkhof, Tom L. G. M., Cottrell, Christopher A., Allen, Joel D., Torres, Jonathan L., Behrens, Anna-Janina, Schermer, Edith E., Burger, Judith A., de Taeye, Steven W., de la Peña, Alba Torrents, Bontjer, Ilja, Gumbs, Stephanie, Ozorowski, Gabriel, LaBranche, Celia C., de Val, Natalia, Yasmeen, Anila, Klasse, Per Johan, Montefiori, David C., Moore, John P., and Schuitemaker, Hanneke

Subjects

*VIRAL envelope proteins, *ANTIBODY formation, *ELECTRON microscopy, *VIRAL antibodies, *BINDING sites, *IMMUNOGLOBULINS, *EPITOPES

Abstract

The induction of broadly neutralizing antibodies (bNAbs) is a major goal in vaccine research. HIV-1-infected individuals that develop exceptionally strong bNAb responses, termed elite neutralizers, can inform vaccine design by providing blueprints for the induction of similar bNAb responses. We describe a new recombinant native-like envelope glycoprotein (Env) SOSIP trimer, termed AMC009, based on the viral founder sequences of an elite neutralizer. The subtype B AMC009 SOSIP protein formed stable native-like trimers that displayed multiple bNAb epitopes. Overall, its structure at 4.3-Å resolution was similar to that of BG505 SOSIP.664. The AMC009 trimer resembled one from a second elite neutralizer, AMC011, in having a dense and complete glycan shield. When tested as immunogens in rabbits, the AMC009 trimers did not induce autologous neutralizing antibody (NAb) responses efficiently while the AMC011 trimers did so very weakly, outcomes that may reflect the completeness of their glycan shields. The AMC011 trimer induced antibodies that occasionally cross-neutralized heterologous tier 2 viruses, sometimes at high titer. Cross-neutralizing antibodies were more frequently elicited by a trivalent combination of AMC008, AMC009, and AMC011 trimers, all derived from subtype B viruses. Each of these three individual trimers could deplete the NAb activity from the rabbit sera. Mapping the polyclonal sera by electron microscopy revealed that antibodies of multiple specificities could bind to sites on both autologous and heterologous trimers. These results advance our understanding of how to use Env trimers in multivalent vaccination regimens and the immunogenicity of trimers derived from elite neutralizers. [ABSTRACT FROM AUTHOR]

Published

2020

47. Porcine Reproductive and Respiratory Syndrome Virus promotes SLA-DR-mediated antigen presentation of non-structure proteins to evoke a non-neutralizing antibody response in vivo.

Author

Chunyan Wu, Bingjun Shi, Di Yang, Kun Zhang, Jie Li, Jie Wang, Hongliang Liu, Qin Zhao, En-Min Zhou, and Yuchen Nan

Subjects

*PORCINE reproductive & respiratory syndrome, *ANTIGEN presentation, *ANTIBODY formation, *UBIQUITINATION, *HUMORAL immunity, *DENDRITIC cells, *PROTEOLYSIS

Abstract

The humoral immune response against PRRSV infection is characterized by a rapid induction of non-neutralizing antibodies (NAbs) against non-structure proteins (NSPs). Here, we systematically investigated the potential mechanism for the induction of PRRSV NSP-specific non-NAbs. Our data suggested that PRRSV-NSP-specific NAbs appeared within 10 days after PRRSV infection in vivo. In the in vitro model, functional upregulation of the SLA-DR was observed in bone marrow-derived dendritic cells (BM-DCs) and porcine alveolar macrophages (PAMs), whereas remarkable inhibition at the mRNA level was observed after infection by both PRRSV-1 and PRRSV-2 isolates. Notably, the inconsistency in SLA-DR expression between the mRNA and protein levels was resulted from the de-ubiquitination of SLA-DR via the OTU domain of PRRSV-NSP2 to inhibit ubiquitin-mediated degradation. Moreover, mass spectrometry-based immunopeptidome analysis identified immunopeptides originating from multiple PRRSV-NSPs within SLA-DR of PRRSV-infected BM-DCs. Meanwhile, these PRRSV-NSP-derived immunopeptides could be specifically recognized by serum from PRRSV-infected piglets. Notably, certain NSP-derived immunopeptides characterized in vitro could be identified from PAMs or hilar lymph nodes from PRRSV-infected piglets. More importantly, in vitro neutralizing assay indicated that serum antibodies against NSP-immunopeptides were unbale to neutralize PRRSV in vitro. Conversely, certain Structure Proteins (SPs)-derived immunopeptides were identified and could be recognize by pig hyperimmune serum against PRRSV, further indicates that NSP-derived antibodies response is non-protective in vivo. In conclusion, our data suggested 38 that PRRSV infection interferes with the MHC-II molecule-mediated antigen presentation in APCs via promoting SLA-DR expression to present immunopeptides from PRRSV-NSPs, which contributes to the induction of non-NAbs antibodies in vivo. [ABSTRACT FROM AUTHOR]

Published

2020

48. An HIV Vaccine Targeting the V2 Region of the HIV Envelope Induces a Highly Durable Polyfunctional Fc-Mediated Antibody Response in Rhesus Macaques.

Author

Powell, Rebecca L., Weiss, Svenja, Fox, Alisa, Xiaomei Liu, Itri, Vincenza, Xunqing Jiang, Luo, Christina C., Spencer, David A., Pandey, Shilpi, Cheever, Tracy, Fuller, Deborah H., Totrov, Maxim, Hessell, Ann J., Haigwood, Nancy L., Xiang-Peng Kong, and Zolla-Pazner, Susan

Subjects

*AIDS vaccines, *RHESUS monkeys, *ANTIBODY formation, *MACAQUES, *SIMIAN immunodeficiency virus, *HIV, *VACCINE trials

Abstract

The HIV vaccine field now recognizes the potential importance of generating polyfunctional antibodies (Abs). The only clinical HIV vaccine trial to date to show significant efficacy (RV144) found that reduced infection rates correlated with the level of nonneutralizing Abs specific for the V2 region of the envelope glycoprotein. We have conducted a comprehensive preclinical reverse vaccinology-based vaccine program that has included the design and production and testing of numerous scaffolded V2 region immunogens. The most immunogenic vaccine regimen in nonhuman primates among those studied as part of this program consisted of a cocktail of three immunogens presenting V2 from different viruses and clades in the context of different scaffolds. Presently we demonstrate that the V2-specific Ab response from this regimen was highly durable and functionally diverse for the duration of the study (25 weeks after the final immunization). The total IgG binding response at this late time point exhibited only an ~5x reduction in potency. Three immunizations appeared essential for the elicitation of a strong Ab-dependent cellular cytotoxicity (ADCC) response for all animals, as opposed to the Ab-dependent cellular phagocytosis (ADCP) and virus capture responses, which were comparably potent after only 2 immunizations. All functionalities measured were highly durable through the study period. Therefore, testing this vaccine candidate for its protective capacity is warranted. [ABSTRACT FROM AUTHOR]

Published

2020

49. HCMV glycoprotein B nucleoside-modified mRNA vaccine elicits antibody responses with greater durability and breadth than MF59-adjuvanted gB protein immunization.

Author

Nelson, Cody S., Jenks, Jennifer A., Pardi, Norbert, Goodwin, Matthew, Roark, Hunter, Edwards, Whitney, McLellan, Jason S., Pollara, Justin, Weissman, Drew, and Permar, Sallie R.

Subjects

*HUMAN cytomegalovirus, *ANTIBODY formation, *VACCINES, *IMMUNIZATION, *ANIMAL models in research, *MESSENGER RNA

Abstract

A vaccine to prevent maternal acquisition of human cytomegalovirus (HCMV) during pregnancy is a primary strategy to reduce the incidence of congenital disease. The MF59-adjuvanted glycoprotein B (gB) protein subunit vaccine (gB/MF59) is the most efficacious tested to-date for this indication. We previously identified that gB/MF59 vaccination elicited poor neutralizing antibody responses and an immunodominant response against gB antigenic domain 3 (AD-3). Thus, we sought to test novel gB vaccines to improve functional antibody responses and reduce AD-3 immunodominance. Groups of juvenile New Zealand White rabbits were administered 3 sequential doses of full-length gB protein with an MF59-like squalene-based adjuvant, gB ectodomain protein (lacking AD-3) with squalene adjuvant, or lipid nanoparticle (LNP)- encapsulated nucleoside-modified mRNA encoding full-length gB. All vaccines were highly immunogenic with similar kinetics and comparable peak gB-binding and functional antibody responses. The AD-3 immunodominant IgG response following human gB/MF59 vaccination was closely mimicked in rabbits. Though gB ectodomain subunit vaccination eliminated targeting of epitopes in AD-3, it did not improve vaccine-elicited neutralizing or non-neutralizing antibody functions. gB nucleoside-modified mRNA-LNP-immunized rabbits exhibited enhanced durability of vaccine-elicited antibody responses. Furthermore, the gB mRNA-LNP vaccine enhanced breadth of IgG binding responses against discrete gB peptides. Finally, low magnitude gB-specific T cell activity was observed in the full-length gB protein and mRNA-LNP groups, though not in ectodomain-vaccinated rabbits. Altogether, these data suggest that the use of gB nucleoside-modified mRNA-LNP vaccines is a viable strategy for improving on the partial efficacy of gB/MF59 vaccination and should be further evaluated in preclinical models. [ABSTRACT FROM AUTHOR]

Published

2020

50. Zika Virus Mucosal Infection Provides Protective Immunity.

Author

Martínez, Laura E., Garcia Jr., Gustavo, Contreras, Deisy, Danyang Gong, Ren Sun, and Arumugaswami, Vaithilingaraja

Subjects

*ZIKA virus infections, *FEMALE reproductive organs, *VIRAL shedding, *ANTIBODY formation, *ZIKA virus, *MALE reproductive organs, *MONOCYTES, *VIRAL antibodies

Abstract

Zika virus (ZIKV) is a major human pathogen. ZIKV can replicate in female and male reproductive organs, thus facilitating the human-human transmission cycle. Viral shedding in the semen can increase the risk of ZIKV transmission through sexual mode. Therefore, the vaginal and anorectal mucosa are relevant sites for ZIKV infection. However, the pathobiology of ZIKV transmission through rectal route is not well understood. Here, we utilize a mouse model system to investigate the immuno-pathological consequences following ZIKV infection of the rectal mucosa compared to a subcutaneous route of infection. We show that ZIKV-rectal inoculation results in viremia with subclinical infection. ZIKV infects the mucosal epithelium and submucosal dendritic cells, inducing immune and inflammatory cell infiltration. Rectal transmission of ZIKV resulted in the generation of serum neutralizing antibody responses. Mass cytometry analyses of splenocytes showed a significantly reduced level of inflammatory monocyte and neutrophil cellular responses in the rectal route group. Furthermore, immunological priming through the rectal mucosa with an attenuated ZIKV strain resulted in significant protection from lethal subcutaneous ZIKV challenge, further eliciting robust memory CD4+ and CD8+ T-cell and ZIKV-specific serum neutralizing antibody responses. Thus, our study provides deeper immuno-pathobiological insights on rectal transmission and highlights a rational strategy for mucosal immunization. This model system recapitulates clinical aspects of human ZIKV disease outcome, where most infections are well controlled and result in subclinical and asymptomatic outcomes. [ABSTRACT FROM AUTHOR]

Published

2020