Robert J. Hogan scite author profile

Many successful vaccines induce persistent antibody responses that can last a lifetime. The mechanisms by which they do so remain unclear, but emerging evidence suggests that they activate dendritic cells (DCs) via Toll-like receptors (TLRs)1,2. For example, the yellow fever vaccine YF-17D, one of the most successful empiric vaccines ever developed3, activates DCs via multiple TLRs to stimulate pro-inflammatory cytokines4,5. Triggering specific combinations of TLRs in DCs can induce synergistic production of cytokines6, which results in enhanced T cell responses, but its impact on antibody responses remain unknown. Learning the critical parameters of innate immunity that programs such antibody responses remains a major challenge in vaccinology. Here we demonstrate that immunization of mice with synthetic nanoparticles containing antigens plus Toll-like receptor (TLR) ligands 4 + 7 induces synergistic increases in antigen-specific, neutralizing antibodies compared to immunization with a single TLR ligand. Consistent with this there was enhanced persistence of germinal centers (GCs), and of plasma cell responses, which persisted in the lymph nodes for >1.5 years. Surprisingly, there was no enhancement of the early short-lived plasma cell response, relative to that observed with single TLR ligands. Molecular profiling of activated B cells, isolated 7 days after immunization, indicated early programming towards B cell memory. Antibody responses were dependent on direct triggering of both TLRs on B cells and dendritic cells (DCs), as well as on T-cell help. Immunization protected completely against lethal avian and swine influenza virus strains in mice, and induced robust immunity against pandemic H1N1 influenza in rhesus macaques.

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Characterization and Noncovalent Inhibition of the Deubiquitinase and deISGylase Activity of SARS-CoV-2 Papain-Like Protease

Freitas

et al. 2020

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Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the causative agent for COVID-19, is a novel human betacoronavirus that is rapidly spreading worldwide. The outbreak currently includes over 3.7 million cases and 260,000 fatalities. As a betacoronavirus, SARS-CoV-2 encodes for a papain-like protease (PLpro) that is likely responsible for cleavage of the coronavirus (CoV) viral polypeptide. The PLpro is also responsible for suppression of host innate immune responses by virtue of its ability to reverse host ubiquitination and ISGylation events. Here, the biochemical activity of SARS-CoV-2 PLpro against ubiquitin (Ub) and interferon-stimulated gene product 15 (ISG15) substrates is evaluated, revealing that the protease has a marked reduction in its ability to process K48 linked Ub substrates compared to its counterpart in SARS-CoV. Additionally, its substrate activity more closely mirrors that of the PLpro from the Middle East respiratory syndrome coronavirus and prefers ISG15s from certain species including humans. Additionally, naphthalene based PLpro inhibitors are shown to be effective at halting SARS-CoV-2 PLpro activity as well as SARS-CoV-2 replication.

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Ebola and Marburg Viruses Replicate in Monocyte‐Derived Dendritic Cells without Inducing the Production of Cytokines and Full Maturation

et al. 2003

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Ebola virus (EBOV) and Marburg virus (MARV) cause rapidly progressive hemorrhagic fever with high mortality and may possess specialized mechanisms to evade immune destruction. We postulated that immune evasion could be due to the ability of EBOV and MARV to interfere with dendritic cells (DCs), which link innate and adaptive immune responses. We demonstrate that EBOV and MARV infected and replicated in primary human DCs without inducing cytokine secretion. Infected DC cultures supported exponential viral growth without releasing interferon (IFN)-alpha and were impaired in IFN-alpha production if treated with double-stranded RNA. Moreover, EBOV and MARV impaired the ability of DCs to support T cell proliferation, and infected, immature DCs underwent an anomalous maturation. These findings may explain the profound virulence of EBOV and MARV--DCs are disabled, and an effective early host response is delayed by the necessary reliance on less-efficient secondary mechanisms.

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Matrix Protein 2 Vaccination and Protection against Influenza Viruses, Including Subtype H5N1

Tompkins

Zhao

et al. 2007

Emerg. Infect. Dis.

262

245

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Changes in influenza viruses require regular reformulation of strain-specific influenza vaccines. Vaccines based on conserved antigens provide broader protection. Influenza matrix protein 2 (M2) is highly conserved across influenza A subtypes. To evaluate its efficacy as a vaccine candidate, we vaccinated mice with M2 peptide of a widely shared consensus sequence. This vaccination induced antibodies that cross-reacted with divergent M2 peptide from an H5N1 subtype. A DNA vaccine expressing fulllength consensus-sequence M2 (M2-DNA) induced M2-specific antibody responses and protected against challenge with lethal influenza. Mice primed with M2-DNA and then boosted with recombinant adenovirus expressing M2 (M2-Ad) had enhanced antibody responses that crossreacted with human and avian M2 sequences and produced T-cell responses. This M2 prime-boost vaccination conferred broad protection against challenge with lethal influenza A, including an H5N1 strain. Vaccination with M2, with key sequences represented, may provide broad protection against influenza A.

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Rabies Virus Expressing Dendritic Cell-Activating Molecules Enhances the Innate and Adaptive Immune Response to Vaccination

Wen

Wang

et al. 2011

J Virol

145

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Robert J. Hogan

Programming the magnitude and persistence of antibody responses with innate immunity

Characterization and Noncovalent Inhibition of the Deubiquitinase and deISGylase Activity of SARS-CoV-2 Papain-Like Protease

Ebola and Marburg Viruses Replicate in Monocyte‐Derived Dendritic Cells without Inducing the Production of Cytokines and Full Maturation

Matrix Protein 2 Vaccination and Protection against Influenza Viruses, Including Subtype H5N1

Rabies Virus Expressing Dendritic Cell-Activating Molecules Enhances the Innate and Adaptive Immune Response to Vaccination

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