Complexity of Neutralizing Antibodies against Multiple Dengue Virus Serotypes after Heterotypic Immunization and Secondary Infection Revealed by In-Depth Analysis of Cross-Reactive Antibodies

Tsai, Wen Yang; Durbin, Anna P.; Tsai, Jih Jin; Hsieh, Szu Chia; Whitehead, Stephen S.; Wang, Wei‐Kung

doi:10.1128/jvi.00273-15

Cited by 60 publications

(69 citation statements)

References 69 publications

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“…Primary and secondary infections with NIAID monotypic DENV 1, 2 and 4 vaccines produced the same antibody reactivity to envelop DENV epitopes as were observed after infections with wild-type DENV [35]. CD8 þ T cell responses after TV003 were comparable to those following natural dengue infections.…”

Section: Niaid Vaccinesupporting

confidence: 67%

Dengue vaccines: Are they safe for travelers?

Halstead

Aguiar²

2016

Travel Medicine and Infectious Disease

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Section: Niaid Vaccinesupporting

confidence: 67%

Dengue vaccines: Are they safe for travelers?

Halstead

Aguiar²

2016

Travel Medicine and Infectious Disease

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“…Given that all the patients were previously exposed to DENV and that the four DENV serotypes share high genomic sequence homology (5), we were not surprised by the large number of fully cross-reactive MAbs in our panel. A recently published report examining secondary responses in dengue vaccinees ably demonstrates the importance of cross-reactive antibodies and the impact of their depletion on serum neutralization and binding titers (45). Our data showing the large abundance of cross-reactive MAbs during natural dengue virus infection reiterates the significance of broadly neutralizing responses to vaccine design efforts.…”

Section: Discussionmentioning

confidence: 55%

B Cell Responses during Secondary Dengue Virus Infection Are Dominated by Highly Cross-Reactive, Memory-Derived Plasmablasts

Priyamvada

Cho

Onlamoon

et al. 2016

J Virol

108

123

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Dengue virus (DENV) infection results in the production of both type-specific and cross-neutralizing antibodies. While immunity to the infecting serotype is long-lived, heterotypic immunity wanes a few months after infection. Epidemiological studies link secondary heterotypic infections with more severe symptoms, and cross-reactive, poorly neutralizing antibodies have been implicated in this increased disease severity. To understand the cellular and functional properties of the acute dengue virus B cell response and its role in protection and immunopathology, we characterized the plasmablast response in four secondary DENV type 2 (DENV2) patients. Dengue plasmablasts had high degrees of somatic hypermutation, with a clear preference for replacement mutations. Clonal expansions were also present in each donor, strongly supporting a memory origin for these acutely induced cells. We generated 53 monoclonal antibodies (MAbs) from sorted patient plasmablasts and found that DENV-reactive MAbs were largely envelope specific and cross neutralizing. Many more MAbs neutralized DENV than reacted to envelope protein, emphasizing the significance of virion-dependent B cell epitopes and the limitations of envelope protein-based antibody screening. A majority of DENV-reactive MAbs, irrespective of neutralization potency, enhanced infection by antibody-dependent enhancement (ADE). Interestingly, even though DENV2 was the infecting serotype in all four patients, several MAbs from two patients neutralized DENV1 more potently than DENV2. Further, half of all type-specific neutralizing MAbs were also DENV1 biased in binding. Taken together, these findings are reminiscent of original antigenic sin (OAS), given that the patients had prior dengue virus exposures. These data describe the ongoing B cell response in secondary patients and may further our understanding of the impact of antibodies in dengue virus pathogenesis. Dengue viruses (DENV) cause an estimated 390 million infections worldwide every year (1). With as many as 500,000 cases of severe dengue-related hospitalizations per year, dengue has emerged as one of the most critical arboviral diseases in the world today (2). There are four serotypes of dengue viruses (DENV1 to -4), and each can cause acute infection with a wide spectrum of symptoms (3). Clinical disease can range from self-limiting, mild febrile illness to dengue hemorrhagic fever (DHF) and the fatal dengue shock syndrome (DSS) (3-5). Individuals infected with dengue virus generate serum antibody titers that provide longterm protection against future homotypic infections (6). However, in cases of heterotypic infection, several seroepidemiological studies suggest that prior DENV exposure and preexisting antibody may be risk factors for severe disease (7-11). Furthermore, severe DENV infections typically evolve into DHF/DSS 3 to 7 days after fever onset (3), a time associated with a decline in viremia but a rise in serum antibody levels (12, 13). Consequently, in addition to its role in viral clearance, the...

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“…89 Many bind around the fusion loop region on domain II (EDII); nonetheless, some antibodies that bind this region are potently neutralizing. 90,91 Following both primary and secondary infection, the most potently neutralizing antibodies are virion-specific and often bind across dimers, contacting up to three monomers simultaneously, thus throwing a ‘wrench’ into the DENV E protein machinery that successfully prevents fusion. 75,92–95 These antibodies bind multiple sites on the E protein, including regions of EDIII, the fusion loop, and the hinge of EDI/II.…”

Section: Immune Correlates Of Protection and Riskmentioning

confidence: 99%

Dengue: knowledge gaps, unmet needs, and research priorities

Katzelnick

Coloma

Harris

2017

The Lancet Infectious Diseases

177

162

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Summary Dengue virus (DENV) is a mosquito-borne pathogen that causes up to ~100 million dengue cases each year, placing a major public health, social and economic burden on numerous low- and middle-income countries (LMICs). Major advances by scientists, vaccine developers, and affected communities are revealing new insights and enabling novel interventions and approaches to dengue prevention and control. Such research has highlighted further questions about both the basic understanding of dengue and efforts to develop new tools. We discuss existing approaches to dengue diagnostics, disease prognosis, surveillance, and vector control in LMICs as well as potential consequences of vaccine introduction. We also summarize current knowledge and recent insights into dengue epidemiology, immunology, and pathogenesis, and their implications for understanding natural infection and current and future vaccines.

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Complexity of Neutralizing Antibodies against Multiple Dengue Virus Serotypes after Heterotypic Immunization and Secondary Infection Revealed by In-Depth Analysis of Cross-Reactive Antibodies

Cited by 60 publications

References 69 publications

Dengue vaccines: Are they safe for travelers?

Dengue vaccines: Are they safe for travelers?

B Cell Responses during Secondary Dengue Virus Infection Are Dominated by Highly Cross-Reactive, Memory-Derived Plasmablasts

Dengue: knowledge gaps, unmet needs, and research priorities

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