Your search keyword '"Doranz, Benjamin J."' showing total 11 results

1. Single B cell transcriptomics identifies multiple isotypes of broadly neutralizing antibodies against flaviviruses.

Author

Lubow, Jay, Levoir, Lisa M., Ralph, Duncan K., Belmont, Laura, Contreras, Maya, Cartwright-Acar, Catiana H., Kikawa, Caroline, Kannan, Shruthi, Davidson, Edgar, Duran, Veronica, Rebellon-Sanchez, David E., Sanz, Ana M., Rosso, Fernando, Doranz, Benjamin J., Einav, Shirit, Matsen IV, Frederick A., and Goo, Leslie

Subjects

B cells, MONOCLONAL antibodies, IMMUNOGLOBULINS, ZIKA virus infections, FLAVIVIRAL diseases, FLAVIVIRUSES, DENGUE viruses, FOOT & mouth disease

Abstract

Sequential dengue virus (DENV) infections often generate neutralizing antibodies against all four DENV serotypes and sometimes, Zika virus. Characterizing cross-flavivirus broadly neutralizing antibody (bnAb) responses can inform countermeasures that avoid enhancement of infection associated with non-neutralizing antibodies. Here, we used single cell transcriptomics to mine the bnAb repertoire following repeated DENV infections. We identified several new bnAbs with comparable or superior breadth and potency to known bnAbs, and with distinct recognition determinants. Unlike all known flavivirus bnAbs, which are IgG1, one newly identified cross-flavivirus bnAb (F25.S02) was derived from IgA1. Both IgG1 and IgA1 versions of F25.S02 and known bnAbs displayed neutralizing activity, but only IgG1 enhanced infection in monocytes expressing IgG and IgA Fc receptors. Moreover, IgG-mediated enhancement of infection was inhibited by IgA1 versions of bnAbs. We demonstrate a role for IgA in flavivirus infection and immunity with implications for vaccine and therapeutic strategies. Author summary: A central challenge for developing clinical interventions for dengue virus or the closely related Zika virus is the ability of IgG antibodies to enhance, rather than neutralize infection under certain conditions. When present prior to infection, as in the case of vaccination, these antibodies can worsen disease outcome. In this study, we analyzed B cells of individuals who experienced dengue or Zika infection to identify those expressing antibodies that can potently neutralize these viruses with minimal potential to enhance infection. We used a method that captured a larger number and wider variety of antibodies than previous approaches. We discovered several potent antibodies that simultaneously neutralized dengue and Zika viruses, including those of IgG isotype, which are common, and one of IgA isotype, which had never been described against this group of viruses. Although IgG antibodies enhanced infection in certain cases, the IgA antibody did not. We further showed that modifying a region of IgG antibodies to convert them to IgA antibodies eliminated their ability to enhance infection. Moreover, the modified IgA versions inhibited the ability of IgG versions to enhance infection. These results suggest that inducing IgA antibodies may be an attractive goal for safe and effective vaccines. [ABSTRACT FROM AUTHOR]

Published

2023

2. An affinity-matured human monoclonal antibody targeting fusion loop epitope of dengue virus with in vivo therapeutic potency.

Author

Kotaki, Tomohiro, Kurosu, Takeshi, Grinyo-Escuer, Ariadna, Davidson, Edgar, Churrotin, Siti, Okabayashi, Tamaki, Puiprom, Orapim, Mulyatno, Kris Cahyo, Sucipto, Teguh Hari, Doranz, Benjamin J., Ono, Ken-ichiro, Soegijanto, Soegeng, and Kameoka, Masanori

Subjects

MONOCLONAL antibodies, EPITOPES, DENGUE viruses, VACCINE development, SOMATIC mutation

Abstract

Dengue virus (DENV), from the genus flavivirus of the family flaviviridae, causes serious health problems globally. Human monoclonal antibodies (HuMAb) can be used to elucidate the mechanisms of neutralization and antibody-dependent enhancement (ADE) of DENV infections, leading to the development of a vaccine or therapeutic antibodies. Here, we generated eight HuMAb clones from an Indonesian patient infected with DENV. These HuMAbs exhibited the typical characteristics of weak neutralizing antibodies including high cross-reactivity with other flaviviruses and targeting of the fusion loop epitope (FLE). However, one of the HuMAbs, 3G9, exhibited strong neutralization (NT50 < 0.1 μg/ml) and possessed a high somatic hyper-mutation rate of the variable region, indicating affinity-maturation. Administration of this antibody significantly prolonged the survival of interferon-α/β/γ receptor knockout C57BL/6 mice after a lethal DENV challenge. Additionally, Fc-modified 3G9 that had lost their in vitro ADE activity showed enhanced therapeutic potency in vivo and competed strongly with an ADE-prone antibody in vitro. Taken together, the affinity-matured FLE-targeting antibody 3G9 exhibits promising features for therapeutic application including a low NT50 value, potential for treatment of various kinds of mosquito-borne flavivirus infection, and suppression of ADE. This study demonstrates the therapeutic potency of affinity-matured FLE-targeting antibodies. [ABSTRACT FROM AUTHOR]

Published

2021

3. Antigenicity, stability, and reproducibility of Zika reporter virus particles for long-term applications.

Author

Whitbeck, J. Charles, Thomas, Anu, Kadash-Edmondson, Kathryn, Grinyo-Escuer, Ariadna, Stafford, Lewis J., Cheng, Celine, Liao, Grant C., Holtsberg, Frederick W., Aman, M. Javad, Simmons, Graham, Davidson, Edgar, and Doranz, Benjamin J.

Subjects

ZIKA virus, ZIKA virus infections, VACCINE development, NEUTRALIZATION tests, DENGUE viruses

Abstract

The development of vaccines against flaviviruses, including Zika virus (ZIKV) and dengue virus (DENV), continues to be a major challenge, hindered by the lack of efficient and reliable methods for screening neutralizing activity of sera or antibodies. To address this need, we previously developed a plasmid-based, replication-incompetent DENV reporter virus particle (RVP) production system as an efficient and safe alternative to the Plaque Reduction Neutralization Test (PRNT). As part of the response to the 2015–2016 ZIKV outbreak, we developed pseudo-infectious ZIKV RVPs by modifying our DENV RVP system. The use of ZIKV RVPs as critical reagents in human clinical trials requires their further validation using stability and reproducibility metrics for large-scale applications. In the current study, we validated ZIKV RVPs using infectivity, neutralization, and enhancement assays with monoclonal antibodies (MAbs) and human ZIKV-positive patient serum. ZIKV RVPs are antigenically equivalent to live virus based on binding ELISA and neutralization results and are nonreplicating based on the results of live virus replication assays. We demonstrate reproducible neutralization titer data (NT50 values) across different RVP production lots, volumes, time frames, and laboratories. We also show RVP stability across experimentally relevant time intervals and temperatures. Our results demonstrate that ZIKV RVPs provide a safe, high-throughput, and reproducible reagent for large-scale, long-term studies of neutralizing antibodies and sera, which can facilitate large-scale screening and epidemiological studies to help expedite ZIKV vaccine development. Author summary: ZIKV is a mosquito-borne virus that can cause severe birth defects and other disorders. Large outbreaks of ZIKV occurred in 2015 and 2016 and there are still no drugs or vaccines available to protect against ZIKV infection. Vaccine development has been hindered by the lack of safe and efficient methods to screen ZIKV neutralizing properties of patient sera or antibodies, especially in the context of large clinical trials. To address this unmet need, we developed and validated the use of ZIKV reporter virus particles (RVPs), a safe, high-throughput, and quantitative alternative to using live virus for neutralization studies. We show that ZIKV RVPs are stable, show lot-to-lot consistency, and provide reproducible neutralization data that is suitable for the large-scale studies needed for development of a ZIKV vaccine, epidemiologic surveillance, and high-throughput screening. [ABSTRACT FROM AUTHOR]

Published

2020

4. Potent neutralizing antibodies elicited by dengue vaccine in rhesus macaque target diverse epitopes.

Author

Li, Leike, Meng, Weixu, Horton, Melanie, DiStefano, Daniel R., Thoryk, Elizabeth A., Pfaff, Jennifer M., Wang, Qihui, Salazar, Georgina T., Barnes, Trevor, Doranz, Benjamin J., Bett, Andrew J., Casimiro, Danilo R., Vora, Kalpit A., An, Zhiqiang, and Zhang, Ningyan

Subjects

DENGUE viruses, RHESUS monkeys, EPITOPES, MONOCLONAL antibodies, MEMBRANE proteins, ENZYME-linked immunosorbent assay

Abstract

There is still no safe and effective vaccine against dengue virus infection. Epidemics of dengue virus infection are increasingly a threat to human health around the world. Antibodies generated in response to dengue infection have been shown to impact disease development and effectiveness of dengue vaccine. In this study, we investigated monoclonal antibody responses to an experimental dengue vaccine in rhesus macaques. Variable regions of both heavy chain (VH) and light chain (VL) were cloned from single antibody-secreting B cells. A total of 780 monoclonal antibodies (mAbs) composed of paired VH and VL were characterized. Results show that the vaccination induces mAbs with diverse germline sequences and a wide range of binding affinities. Six potent neutralizing mAbs were identified among 130 dengue envelope protein binders. Critical amino acids for each neutralizing antibody binding to the dengue envelope protein were identified by alanine scanning of mutant libraries. Diverse epitopes were identified, including epitopes on the lateral ridge of DIII, the I-III hinge, the bc loop adjacent to the fusion loop of DII, and the β-strands and loops of DI. Significantly, one of the neutralizing mAbs has a previously unknown epitope in DII at the interface of the envelope and membrane protein and is capable of neutralizing all four dengue serotypes. Taken together, the results of this study not only provide preclinical validation for the tested experimental vaccine, but also shed light on a potential application of the rhesus macaque model for better dengue vaccine evaluation and design of vaccines and immunization strategies. [ABSTRACT FROM AUTHOR]

Published

2019

5. Lower IgG somatic hypermutation rates during acute dengue virus infection is compatible with a germinal center-independent B cell response.

Author

Godoy-Lozano, Elizabeth Ernestina, Téllez-Sosa, Juan, Sánchez-González, Gilberto, Sámano-Sánchez, Hugo, Aguilar-Salgado, Andrés, Salinas-Rodríguez, Aarón, Cortina-Ceballos, Bernardo, Vivanco-Cid, Héctor, Hernández-Flores, Karina, Pfaff, Jennifer M., Kahle, Kristen M., Doranz, Benjamin J., Gómez-Barreto, Rosa Elena, Valdovinos-Torres, Humberto, López-Martínez, Irma, Rodriguez, Mario H., and Martínez-Barnetche, Jesús

Subjects

B cells, DENGUE viruses, ANTISENSE DNA, NUCLEOTIDE sequencing, ANTISENSE nucleic acids

Abstract

Background: The study of human B cell response to dengue virus (DENV) infection is critical to understand serotype-specific protection and the cross-reactive sub-neutralizing response. Whereas the first is beneficial and thus represents the ultimate goal of vaccination, the latter has been implicated in the development of severe disease, which occurs in a small, albeit significant, fraction of secondary DENV infections. Both primary and secondary infections are associated with the production of poly-reactive and cross-reactive IgG antibodies. Methods: To gain insight into the effect of DENV infection on the B cell repertoire, we used VH region high-throughput cDNA sequencing of the peripheral blood IgG B cell compartment of 19 individuals during the acute phase of infection. For 11 individuals, a second sample obtained 6 months later was analyzed for comparison. Probabilities of sequencing antibody secreting cells or memory B cells were estimated using second-order Monte Carlo simulation. Results: We found that in acute disease there is an increase in IgG B cell diversity and changes in the relative use of segments IGHV1-2, IGHV1-18, and IGHV1-69. Somewhat unexpectedly, an overall low proportion of somatic hypermutated antibody genes was observed during the acute phase plasmablasts, particularly in secondary infections and those cases with more severe disease. Conclusions: Our data are consistent with an innate-like antiviral recognition system mediated by B cells using defined germ-line coded B cell receptors, which could provide a rapid germinal center-independent antibody response during the early phase of infection. A model describing concurrent T-dependent and T-independent B cell responses in the context of DENV infection is proposed, which incorporates the selection of B cells using hypomutated IGHV segments and their potential role in poly/cross-reactivity. Its formal demonstration could lead to a definition of its potential implication in antibody-dependent enhancement, and may contribute to rational vaccine development efforts. [ABSTRACT FROM AUTHOR]

Published

2016

6. Dengue virus envelope protein domain I/II hinge determines long-lived serotype-specific dengue immunity.

Author

Messer, William B., de Alwis, Ruklanthi, Yount, Boyd L., Royal, Scott R., Huynh, Jeremy P., Smith, Scott A., Crowe Jr., James E., Doranz, Benjamin J., Kahle, Kristen M., Pfaff, Jennifer M., White, Laura J., Sariol, Carlos A., de Silva, Aravinda M., and Baric, Ralph S.

Subjects

DENGUE viruses, IMMUNOGLOBULINS, GLYCOPROTEINS, DENGUE hemorrhagic fever, VACCINES

Abstract

The four dengue virus (DENV) serotypes, DENV-1, -2, -3, and -4, are endemic throughout tropical and subtropical regions of the world, with an estimated 390 million acute infections annually. Infection confers long-term protective immunity against the infecting serotype, but secondary infection with a different serotype carries a greater risk of potentially fatal severe dengue disease, including dengue hemorrhagic fever and dengue shock syndrome. The single most effective measure to control this threat to global health is a tetravalent DENV vaccine. To date, attempts to develop a protective vaccine have progressed slowly, partly because the targets of type-specific human neutralizing antibodies (NAbs), which are critical for long-term protection, remain poorly defined, impeding our understanding of natural immunity and hindering effective vaccine development. Here, we show that the envelope glycoprotein domain I/II hinge of DENV-3 and DENV-4 is the primary target of the long-term type-specific NAb response in humans. Transplantation of a DENV-4 hinge into a recombinant DENV-3 virus showed that the hinge determines the serotype-specific neutralizing potency of primary human and nonhuman primate DENV immune sera and that the hinge region both induces NAbs and is targeted by protective NAbs in rhesus macaques. These results suggest that the success of live dengue vaccines may depend on their ability to stimulate NAbs that target the envelope glycoprotein domain I/II hinge region. More broadly, this study shows that complex conformational antibody epitopes can be transplanted between live viruses, opening up similar possibilities for improving the breadth and specificity of vaccines for influenza, HIV, hepatitis C virus, and other clinically important viral pathogens. [ABSTRACT FROM AUTHOR]

Published

2014

7. Atomic-level functional model of dengue virus Envelope protein infectivity.

Author

Christian, Elizabeth A., Kahle, Kristen M., Mattia, Kimberly, Puffer, Bridget A., Pfaff, Jennifer M., Miller, Adam, Paes, Cheryl, Davidson, Edgar, and Doranz, Benjamin J.

Subjects

DENGUE viruses, FLAVIVIRUSES, ATOMIC interactions, VACCINATION, CELL membranes

Abstract

A number of structures have been solved for the Envelope (E) protein from dengue virus and closely related flaviviruses, providing detailed pictures of the conformational states of the protein at different stages of infectivity. However, the key functional residues responsible for mediating the dynamic changes between these structures remain largely unknown. Using a comprehensive library of functional point mutations covering all 390 residues of the dengue virus E protein ectodomain, we identified residues that are critical for virus infectivity, but that do not affect E protein expression, folding, virion assembly, or budding. The locations and atomic interactions of these critical residues within different structures representing distinct fusogenic conformations help to explain how E protein (i) regulates fusion-loop exposure by shielding, tethering, and triggering its release; (ii) enables hinge movements between E domain interfaces during triggered structural transformations; and (iii) drives membrane fusion through late-stage zipper contacts with stem. These results provide structural targets for drug and vaccine development and integrate the findings from structural studies and isolated mutagenesis efforts into a cohesive model that explains how specific residues in this class II viral fusion protein enable virus infectivity. [ABSTRACT FROM AUTHOR]

Published

2013

8. Mapping the Human Memory B Cell and Serum Neutralizing Antibody Responses to Dengue Virus Serotype 4 Infection and Vaccination.

Author

Nivarthi, Usha K., Kose, Nurgun, Sapparapu, Gopal, Widman, Douglas, Gallichotte, Emily, Pfaff, Jennifer M., Doranz, Benjamin J., Weiskopf, Daniela, Sette, Alessandro, Durbin, Anna P., Whitehead, Steve S., Baric, Ralph, Crowe, Jr., James E., and de Silva, Aravinda M.

Subjects

*B cells, *DENGUE viruses, *VACCINATION, *IMMUNOGLOBULINS, *MONOCLONAL antibodies, *VIRUS diseases

Abstract

The four dengue virus (DENV) serotypes are mosquito-borne flaviviruses responsible for dengue fever and dengue hemorrhagic fever. People exposed to DENV develop antibodies (Abs) that strongly neutralize the serotype responsible for infection. Historically, infection with DENV serotype 4 (DENV4) has been less common and less studied than infections with the other three serotypes. However, DENV4 has been responsible for recent large and sustained epidemics in Asia and Latin America. The neutralizing antibody responses and the epitopes targeted against DENV4 have not been characterized in human infection. In this study, we mapped and characterized epitopes on DENV4 recognized by neutralizing antibodies in people previously exposed to DENV4 infections or to a live attenuated DENV4 vaccine. To study the fine specificity of DENV4 neutralizing human antibodies, B cells from two people exposed to DENV4 were immortalized and screened to identify DENV-specific clones. Two human monoclonal antibodies (MAbs) that neutralized DENV4 were isolated, and their epitopes were finely mapped using recombinant viruses and alanine scan mutation array techniques. Both antibodies bound to quaternary structure epitopes near the hinge region between envelope protein domain I (EDI) and EDII. In parallel, to characterize the serum neutralizing antibody responses, convalescence-phase serum samples from people previously exposed to primary DENV4 natural infections or a monovalent DENV4 vaccine were analyzed. Natural infection and vaccination also induced serum-neutralizing antibodies that targeted similar epitope domains at the EDI/II hinge region. These studies defined a target of neutralizing antigenic site on DENV4 targeted by human antibodies following natural infection or vaccination. IMPORTANCE The four serotypes of dengue virus are the causative agents of dengue fever and dengue hemorrhagic fever. People exposed to primary DENV infections develop long-term neutralizing antibody responses, but these principally recognize only the infecting serotype. An effective vaccine against dengue should elicit long-lasting protective antibody responses to all four serotypes simultaneously. We and others have defined antigenic sites on the envelope (E) protein of viruses of dengue virus serotypes 1, 2, and 3 targeted by human neutralizing antibodies. The epitopes on DENV4 E protein targeted by the human neutralizing antibodies and the mechanisms of serotype 4 neutralization are poorly understood. Here, we report the properties of human antibodies that neutralize dengue virus serotype 4. People exposed to serotype 4 infections or a live attenuated serotype 4 vaccine developed neutralizing antibodies that bound to similar sites on the viral E protein. These studies have provided a foundation for developing and evaluating DENV4 vaccines. [ABSTRACT FROM AUTHOR]

Published

2017

9. Functional Transplant of a Dengue Virus Serotype 3 (DENV3)-Specific Human Monoclonal Antibody Epitope into DENV1.

Author

Messer, William B., Yount, Boyd L., Royal, Scott R., de Alwis, Ruklanthi, Widman, Douglas G., Smith, Scott A., Crowe Jr., James E., Pfaff, Jennifer M., Kahle, Kristen M., Doranz, Benjamin J., Ibarra, Kristie D., Harris, Eva, de Silva, Aravinda M., and Baric, Ralph S.

Subjects

*MONOCLONAL antibodies, *DENGUE viruses, *TRANSPLANTATION of organs, tissues, etc., *DENGUE hemorrhagic fever, *EPITOPES, *VIRAL envelopes

Abstract

The four dengue virus (DENV) serotypes, DENV1 through 4, are endemic throughout tropical and subtropical regions of the world. While first infection confers long-term protective immunity against viruses of the infecting serotype, a second infection with virus of a different serotype carries a greater risk of severe dengue disease, including dengue hemorrhagic fever and dengue shock syndrome. Recent studies demonstrate that humans exposed to DENV infections develop neutralizing antibodies that bind to quaternary epitopes formed by the viral envelope (E) protein dimers or higher-order assemblies required for the formation of the icosahedral viral envelope. Here we show that the quaternary epitope target of the human DENV3-specific neutralizing monoclonal antibody (MAb) 5J7 can be partially transplanted into a DENV1 strain by changing the core residues of the epitope contained within a single monomeric E molecule. MAb 5J7 neutralized the recombinant DENV1/3 strain in cell culture and was protective in a mouse model of infection with the DENV1/3 strain. However, the 5J7 epitope was only partially recreated by transplantation of the core residues because MAb 5J7 bound and neutralized wild-type (WT) DENV3 better than the DENV1/3 recombinant. Our studies demonstrate that it is possible to transplant a large number of discontinuous residues between DENV serotypes and partially recreate a complex antibody epitope, while retaining virus viability. Further refinement of this approach may lead to new tools for measuring epitopespecific antibody responses and new vaccine platforms. [ABSTRACT FROM AUTHOR]

Published

2016

10. Dengue Virus prM-Specific Human Monoclonal Antibodies with Virus Replication-Enhancing Properties Recognize a Single Immunodominant Antigenic Site.

Author

Smith, Scott A., Nivarthi, Usha K., de Alwis, Ruklanthi, Kose, Nurgun, Sapparapu, Gopal, Bombardi, Robin, Kahle, Kristen M., Pfaff, Jennifer M., Lieberman, Sherri, Doranz, Benjamin J., de Silva, Aravinda M., and Crowe, Jr., James E.

Subjects

*DENGUE viruses, *VIRAL replication, *MONOCLONAL antibodies, *GENES, *EPITOPES

Abstract

The proposed antibody-dependent enhancement (ADE) mechanism for severe dengue virus (DENV) disease suggests that nonneutralizing serotype cross-reactive antibodies generated during a primary infection facilitate entry into Fc receptor bearing cells during secondary infection, resulting in enhanced viral replication and severe disease. One group of cross-reactive antibodies that contributes considerably to this serum profile target the premembrane (prM) protein. We report here the isolation of a large panel of naturally occurring human monoclonal antibodies (MAbs) obtained from subjects following primary DENV serotype 1, 2, or 3 or secondary natural DENV infections or following primary DENV serotype 1 live attenuated virus vaccination to determine the antigenic landscape on the prM protein that is recognized by human antibodies. We isolated 25 prM-reactive human MAbs, encoded by diverse antibody-variable genes. Competition-binding studies revealed that all of the antibodies bound to a single major antigenic site on prM. Alanine scanning-based shotgun mutagenesis epitope mapping studies revealed diverse patterns of fine specificity of various clones, suggesting that different antibodies use varied binding poses to recognize several overlapping epitopes within the immunodominant site. Several of the antibodies interacted with epitopes on both prM and E protein residues. Despite the diverse genetic origins of the antibodies and differences in the fine specificity of their epitopes, each of these prM-reactive antibodies was capable of enhancing the DENV infection of Fc receptor-bearing cells. [ABSTRACT FROM AUTHOR]

Published

2016

11. Functional Analysis of Antibodies against Dengue Virus Type 4 Reveals Strain-Dependent Epitope Exposure That Impacts Neutralization and Protection.

Author

Sukupolvi-Petty, Soila, Brien, James D., Austin, S. Kyle, Shrestha, Bimmi, Swayne, Sherri, Kahle, Kristen, Doranz, Benjamin J., Johnson, Syd, Pierson, Theodore C., Fremont, Daved H., and Diamond, Michael S.

Subjects

*DENGUE viruses, *EPITOPES, *MONOCLONAL antibodies, *SEROTYPES, *ANTIVIRAL agents, *CROSS reactions (Immunology), *ANIMAL models in research

Abstract

Although prior studies have characterized the neutralizing activities of monoclonal antibodies (MAbs) against dengue virus (DENV) serotypes 1, 2, and 3 (DENV-1, DENV-2, and DENV-3), few reports have assessed the activity of MAbs against DENV-4. Here, we evaluated the inhibitory activity of 81 new mouse anti-DENV-4 MAbs. We observed strain- and genotype-dependent differences in neutralization of DENV-4 by MAbs mapping to epitopes on domain II (DII) and DIII of the envelope (E) protein. Several anti-DENV-4 MAbs inefficiently inhibited at least one strain and/or genotype, suggesting that the exposure or sequence of neutralizing epitopes varies within isolates of this serotype. Remarkably, flavivirus cross-reactive MAbs, which bound to the highly conserved fusion loop in DII and inhibited infection of DENV-1, DENV-2, and DENV-3, more weakly neutralized five different DENV-4 strains encompassing the genetic diversity of the serotype after preincubation at 37°C. However, increasing the time of preincubation at 37°C or raising the temperature to 40°C enhanced the potency of DII fusion loop-specific MAbs and some DIII-specific MAbs against DENV-4 strains. Prophylaxis studies in two new DENV-4 mouse models showed that neutralization titers of MAbs after preincubation at 37°C correlated with activity in vivo. Our studies establish the complexity of MAb recognition against DENV-4 and suggest that differences in epitope exposure relative to other DENV serotypes affect antibody neutralization and protective activity. [ABSTRACT FROM AUTHOR]

Published

2013