Your search keyword '"Vézina, Dani"' showing total 22 results

1. Molecular basis for antiviral activity of two pediatric neutralizing antibodies targeting SARS-CoV-2 Spike RBD

Author

Chen, Yaozong, Prévost, Jérémie, Ullah, Irfan, Romero, Hugo, Lisi, Veronique, Tolbert, William D., Grover, Jonathan R., Ding, Shilei, Gong, Shang Yu, Beaudoin-Bussières, Guillaume, Gasser, Romain, Benlarbi, Mehdi, Vézina, Dani, Anand, Sai Priya, Chatterjee, Debashree, Goyette, Guillaume, Grunst, Michael W., Yang, Ziwei, Bo, Yuxia, Zhou, Fei, Béland, Kathie, Bai, Xiaoyun, Zeher, Allison R., Huang, Rick K., Nguyen, Dung N., Sherburn, Rebekah, Wu, Di, Piszczek, Grzegorz, Paré, Bastien, Matthies, Doreen, Xia, Di, Richard, Jonathan, Kumar, Priti, Mothes, Walther, Côté, Marceline, Uchil, Pradeep D., Lavallée, Vincent-Philippe, Smith, Martin A., Pazgier, Marzena, Haddad, Elie, and Finzi, Andrés

Published

2023

2. VE607 stabilizes SARS-CoV-2 Spike in the “RBD-up” conformation and inhibits viral entry

Author

Ding, Shilei, Ullah, Irfan, Gong, Shang Yu, Grover, Jonathan R., Mohammadi, Mohammadjavad, Chen, Yaozong, Vézina, Dani, Beaudoin-Bussières, Guillaume, Verma, Vijay Tailor, Goyette, Guillaume, Gaudette, Fleur, Richard, Jonathan, Yang, Derek, Smith, Amos B., III, Pazgier, Marzena, Côté, Marceline, Abrams, Cameron, Kumar, Priti, Mothes, Walther, Uchil, Pradeep D., Finzi, Andrés, and Baron, Christian

Published

2022

3. Temperature Influences the Interaction between SARS-CoV-2 Spike from Omicron Subvariants and Human ACE2.

Author

Gong, Shang Yu, Ding, Shilei, Benlarbi, Mehdi, Chen, Yaozong, Vézina, Dani, Marchitto, Lorie, Beaudoin-Bussières, Guillaume, Goyette, Guillaume, Bourassa, Catherine, Bo, Yuxia, Medjahed, Halima, Levade, Inès, Pazgier, Marzena, Côté, Marceline, Richard, Jonathan, Prévost, Jérémie, and Finzi, Andrés

Subjects

SARS-CoV-2 Omicron variant, SARS-CoV-2, VIRAL transmission

Abstract

SARS-CoV-2 continues to infect millions of people worldwide. The subvariants arising from the variant-of-concern (VOC) Omicron include BA.1, BA.1.1, BA.2, BA.2.12.1, BA.4, and BA.5. All possess multiple mutations in their Spike glycoprotein, notably in its immunogenic receptor-binding domain (RBD), and present enhanced viral transmission. The highly mutated Spike glycoproteins from these subvariants present different degrees of resistance to recognition and cross-neutralisation by plasma from previously infected and/or vaccinated individuals. We have recently shown that the temperature affects the interaction between the Spike and its receptor, the angiotensin converting enzyme 2 (ACE2). The affinity of RBD for ACE2 is significantly increased at lower temperatures. However, whether this is also observed with the Spike of Omicron and sub-lineages is not known. Here we show that, similar to other variants, Spikes from Omicron sub-lineages bind better the ACE2 receptor at lower temperatures. Whether this translates into enhanced transmission during the fall and winter seasons remains to be determined. [ABSTRACT FROM AUTHOR]

Published

2022

4. Stabilizing the HIV-1 Envelope Glycoprotein State 2A Conformation.

Author

Vézina, Dani, Shang Yu Gong, Tolbert, William D., Shilei Ding, Dung Nguyen, Richard, Jonathan, Gendron-Lepage, Gabrielle, Melillo, Bruno, Smith III, Amos B., Pazgier, Marzena, and Finzi, Andrés

Subjects

*GLYCOPROTEINS, *HIV, *VIRAL envelope proteins, *ANTIBODY-dependent cell cytotoxicity, *ENZYME-linked immunosorbent assay, *BINDING sites

Abstract

The HIV-1 envelope glycoprotein (Env) trimer [(gp120/gp41)3] is a metastable complex expressed at the surface of viral particles and infected cells that samples different conformations. Before engaging CD4, Env adopts an antibody-resistant "closed" conformation (State 1). CD4 binding triggers an intermediate conformation (State 2) and then a more "open" conformation (State 3) that can be recognized by nonneutralizing antibodies (nnAbs) such as those that recognize the coreceptor binding site (CoRBS). Binding of antibodies to the CoRBS permits another family of nnAbs, the anti-cluster A family of Abs which target the gp120 inner domain, to bind and stabilize an asymmetric conformation (State 2A). Cells expressing Env in this conformation are susceptible to antibody-dependent cellular cytotoxicity (ADCC). This conformation can be stabilized by small-molecule CD4 mimetics (CD4mc) or soluble CD4 (sCD4) in combination with anti-CoRBS Ab and anti-cluster A antibodies. The precise stoichiometry of each component that permits this sequential opening of Env remains unknown. Here, we used a cell-based enzyme-linked immunosorbent assay (CBE) to evaluate each component individually. In this assay, we used a "trimer mixing" approach by combining wild-type (wt) subunits with subunits impaired for CD4 or CoRBS Ab binding. This enabled us to show that State 2A requires all three gp120 subunits to be bound by sCD4/CD4mc and anti-CoRBS Abs. Two of these subunits can then bind anti-cluster A Abs. Altogether, our data suggest how this antibody-vulnerable Env conformation is stabilized. IMPORTANCE Stabilization of HIV-1 Env State 2A has been shown to sensitize infected cells to ADCC. State 2A can be stabilized by a "cocktail" composed of CD4mc, anti- CoRBS, and anti-cluster A Abs. We present evidence that optimal State 2A stabilization requires all three gp120 subunits to be bound by both CD4mc and anti-CoRBS Abs. Our study provides valuable information on how to stabilize this ADCC-vulnerable conformation. Strategies aimed at stabilizing State 2A might have therapeutic utility. [ABSTRACT FROM AUTHOR]

Published

2021

5. Identification of HIV gp41-specific antibodies that mediate killing of infected cells.

Author

Williams, Katherine L., Stumpf, Megan, Naiman, Nicole Elise, Ding, Shilei, Garrett, Meghan, Gobillot, Theodore, Vézina, Dani, Dusenbury, Katharine, Ramadoss, Nitya S., Basom, Ryan, Kim, Peter S., Finzi, Andrés, and Overbaugh, Julie

Subjects

ANTIBODY-dependent cell cytotoxicity, DISEASE progression, HIV infections, MONOCLONAL antibodies, BIOCHEMISTRY

Abstract

Antibodies that mediate killing of HIV-infected cells through antibody-dependent cellular cytotoxicity (ADCC) have been implicated in protection from HIV infection and disease progression. Despite these observations, these types of HIV antibodies are understudied compared to neutralizing antibodies. Here we describe four monoclonal antibodies (mAbs) obtained from one individual that target the HIV transmembrane protein, gp41, and mediate ADCC activity. These four mAbs arose from independent B cell lineages suggesting that in this individual, multiple B cell responses were induced by the gp41 antigen. Competition and phage peptide display mapping experiments suggested that two of the mAbs target epitopes in the cysteine loop that are highly conserved and a common target of HIV gp41-specific antibodies. The amino acid sequences that bind these mAbs are overlapping but distinct. The two other mAbs were competed by mAbs that target the C-terminal heptad repeat (CHR) and the fusion peptide proximal region (FPPR) and appear to both target a similar unique conformational epitope. These gp41-specific mAbs mediated killing of infected cells that express high levels of Env due to either pre-treatment with interferon or deletion of vpu to increase levels of BST-2/Tetherin. They also mediate killing of target cells coated with various forms of the gp41 protein, including full-length gp41, gp41 ectodomain or a mimetic of the gp41 stump. Unlike many ADCC mAbs that target HIV gp120, these gp41-mAbs are not dependent on Env structural changes associated with membrane-bound CD4 interaction. Overall, the characterization of these four new mAbs that target gp41 and mediate ADCC provides evidence for diverse gp41 B cell lineages with overlapping but distinct epitopes within an individual. Such antibodies that can target various forms of envelope protein could represent a common response to a relatively conserved HIV epitope for a vaccine. [ABSTRACT FROM AUTHOR]

Published

2019

6. Temporal associations of B and T cell immunity with robust vaccine responsiveness in a 16-week interval BNT162b2 regimen.

Author

Nayrac, Manon, Dubé, Mathieu, Sannier, Gérémy, Nicolas, Alexandre, Marchitto, Lorie, Tastet, Olivier, Tauzin, Alexandra, Brassard, Nathalie, Lima-Barbosa, Raphaël, Beaudoin-Bussières, Guillaume, Vézina, Dani, Gong, Shang Yu, Benlarbi, Mehdi, Gasser, Romain, Laumaea, Annemarie, Prévost, Jérémie, Bourassa, Catherine, Gendron-Lepage, Gabrielle, Medjahed, Halima, and Goyette, Guillaume

Abstract

Spacing of BNT162b2 mRNA doses beyond 3 weeks raises concerns about vaccine efficacy. We longitudinally analyze B cell, T cell, and humoral responses to two BNT162b2 mRNA doses administered 16 weeks apart in 53 SARS-CoV-2 naive and previously infected donors. This regimen elicits robust RBD-specific B cell responses whose kinetics differs between cohorts, the second dose leading to increased magnitude in naive participants only. While boosting does not increase magnitude of CD4+ T cell responses further compared with the first dose, unsupervised clustering of single-cell features reveals phenotypic and functional shifts over time and between cohorts. Integrated analysis shows longitudinal immune component-specific associations, with early T helper responses post first dose correlating with B cell responses after the second dose, and memory T helper generated between doses correlating with CD8 T cell responses after boosting. Therefore, boosting elicits a robust cellular recall response after the 16-week interval, indicating functional immune memory. [Display omitted] • A 16-week interval BNT162b2 regimen generates strong and diverse immune responses • Features of responses in SARS-CoV-2 naive versus PI donors converge after boost • The 16-week interval BNT162b2 vaccination leads to development of immune memory • There are contemporaneous and temporal associations between B and T cell responses Nayrac et al., show that a 16-week interval BNT162b2 regimen elicits robust SARS-CoV-2-specific B and T cell responses in SARS-CoV-2 naive and previously infected individuals. Immune response kinetics differs after the first dose between cohorts but converges after boosting, which elicits a multifaceted cellular recall response and functional memory. [ABSTRACT FROM AUTHOR]

Published

2022

7. SARS-CoV-2 Omicron Spike recognition by plasma from individuals receiving BNT162b2 mRNA vaccination with a 16-week interval between doses.

Author

Chatterjee, Debashree, Tauzin, Alexandra, Marchitto, Lorie, Gong, Shang Yu, Boutin, Marianne, Bourassa, Catherine, Beaudoin-Bussières, Guillaume, Bo, Yuxia, Ding, Shilei, Laumaea, Annemarie, Vézina, Dani, Perreault, Josée, Gokool, Laurie, Morrisseau, Chantal, Arlotto, Pascale, Fournier, Éric, Guilbault, Aurélie, Delisle, Benjamin, Levade, Inès, and Goyette, Guillaume

Abstract

Continuous emergence of SARS-CoV-2 variants of concern (VOCs) is fueling the COVID-19 pandemic. Omicron (B.1.1.529) rapidly spread worldwide. The large number of mutations in its Spike raise concerns about a major antigenic drift that could significantly decrease vaccine efficacy and infection-induced immunity. A long interval between BNT162b2 mRNA doses elicits antibodies that efficiently recognize Spikes from different VOCs. Here, we evaluate the recognition of Omicron Spike by plasma from a cohort of SARS-CoV-2 naive and previously infected individuals who received their BNT162b2 mRNA vaccine 16 weeks apart. Omicron Spike is recognized less efficiently than D614G, Alpha, Beta, Gamma, and Delta Spikes. We compare with plasma activity from participants receiving a short (4 weeks) interval regimen. Plasma from individuals of the long-interval cohort recognize and neutralize better the Omicron Spike compared with those who received a short interval. Whether this difference confers any clinical benefit against Omicron remains unknown. [Display omitted] • A long interval between vaccine doses leads to good recognition of the Omicron Spike • It also leads to detectable neutralization of the Omicron Spike • These responses are stronger than in naive donors vaccinated with a short interval • Vaccine-elicited responses in convalescent donors are superior than in naive donors Chatterjee et al. report that extending the interval between doses in naive individuals leads to better recognition and neutralization of the SARS-CoV-2 Omicron Spike than in those receiving a 4-week interval. Vaccinated convalescent individuals present higher responses than naive vaccinated individuals [ABSTRACT FROM AUTHOR]

Published

2022

8. A Fc-enhanced NTD-binding non-neutralizing antibody delays virus spread and synergizes with a nAb to protect mice from lethal SARS-CoV-2 infection.

Author

Beaudoin-Bussières, Guillaume, Chen, Yaozong, Ullah, Irfan, Prévost, Jérémie, Tolbert, William D., Symmes, Kelly, Ding, Shilei, Benlarbi, Mehdi, Gong, Shang Yu, Tauzin, Alexandra, Gasser, Romain, Chatterjee, Debashree, Vézina, Dani, Goyette, Guillaume, Richard, Jonathan, Zhou, Fei, Stamatatos, Leonidas, McGuire, Andrew T., Charest, Hughes, and Roger, Michel

Abstract

Emerging evidence indicates that both neutralizing and Fc-mediated effector functions of antibodies contribute to protection against SARS-CoV-2. It is unclear whether Fc-effector functions alone can protect against SARS-CoV-2. Here, we isolated CV3-13, a non-neutralizing antibody, from a convalescent individual with potent Fc-mediated effector functions. The cryoelectron microscopy structure of CV3-13 in complex with the SARS-CoV-2 spike reveals that the antibody binds from a distinct angle of approach to an N-terminal domain (NTD) epitope that only partially overlaps with the NTD supersite recognized by neutralizing antibodies. CV3-13 does not alter the replication dynamics of SARS-CoV-2 in K18-hACE2 mice, but its Fc-enhanced version significantly delays virus spread, neuroinvasion, and death in prophylactic settings. Interestingly, the combination of Fc-enhanced non-neutralizing CV3-13 with Fc-compromised neutralizing CV3-25 completely protects mice from lethal SARS-CoV-2 infection. Altogether, our data demonstrate that efficient Fc-mediated effector functions can potently contribute to the in vivo efficacy of anti-SARS-CoV-2 antibodies. [Display omitted] • Non-neutralizing antibody CV3-13 binds an epitope in NTD of SARS-CoV-2 spike • CV3-13 has a unique angle of approach and mediates potent Fc-effector functions • Fc-enhanced CV3-13 delays virus spread and death in SARS-CoV-2-challenged mice • Fc-enhanced CV3-13 synergizes with Fc-compromised nAb to protect 100% of the mice The in vivo impact of non-nAbs on SARS-CoV-2 infection is unclear. Here, Beaudoin-Bussières et al. show that a Fc-enhanced version of non-nAb CV3-13 delays SARS-CoV-2 spread and death in mice. Fc-enhanced CV3-13 combined with a Fc-compromised nAb synergizes to protect mice, revealing the importance of non-nAbs during SARS-CoV-2 infection. [ABSTRACT FROM AUTHOR]

Published

2022

9. Strong humoral immune responses against SARS-CoV-2 Spike after BNT162b2 mRNA vaccination with a 16-week interval between doses.

Author

Tauzin, Alexandra, Gong, Shang Yu, Beaudoin-Bussières, Guillaume, Vézina, Dani, Gasser, Romain, Nault, Lauriane, Marchitto, Lorie, Benlarbi, Mehdi, Chatterjee, Debashree, Nayrac, Manon, Laumaea, Annemarie, Prévost, Jérémie, Boutin, Marianne, Sannier, Gérémy, Nicolas, Alexandre, Bourassa, Catherine, Gendron-Lepage, Gabrielle, Medjahed, Halima, Goyette, Guillaume, and Bo, Yuxia

Abstract

The standard regimen of the BNT162b2 mRNA vaccine for SARS-CoV-2 includes two doses administered three weeks apart. However, some public health authorities spaced these doses, raising questions about efficacy. We analyzed longitudinal humoral responses against the D614G strain and variants of concern for SARS-CoV-2 in a cohort of SARS-CoV-2-naive and previously infected individuals who received the BNT162b2 mRNA vaccine with sixteen weeks between doses. While administering a second dose to previously infected individuals did not significantly improve humoral responses, these responses significantly increased in naive individuals after a 16-week spaced second dose, achieving similar levels as in previously infected individuals. Comparing these responses to those elicited in individuals receiving a short (4-week) dose interval showed that a 16-week interval induced more robust responses among naive vaccinees. These findings suggest that a longer interval between vaccine doses does not compromise efficacy and may allow greater flexibility in vaccine administration. [Display omitted] • One mRNA vaccine dose induces robust humoral responses in convalescent donors • An extended interval between doses leads to high humoral responses in naive donors • These responses are stronger than in naive donors vaccinated with a short interval • Vaccine-elicited antibodies decline more rapidly in naive than convalescent donors Tauzin et al. characterize longitudinal humoral responses induced with an extended BNT162b2 vaccine interval between doses. They show that delaying the second dose in naive individuals elicits higher humoral responses than in those receiving a four-week interval. Vaccinated convalescent individuals present higher responses that don't improve after a boost. [ABSTRACT FROM AUTHOR]

Published

2022

10. Structural basis and mode of action for two broadly neutralizing antibodies against SARS-CoV-2 emerging variants of concern.

Author

Li, Wenwei, Chen, Yaozong, Prévost, Jérémie, Ullah, Irfan, Lu, Maolin, Gong, Shang Yu, Tauzin, Alexandra, Gasser, Romain, Vézina, Dani, Anand, Sai Priya, Goyette, Guillaume, Chaterjee, Debashree, Ding, Shilei, Tolbert, William D., Grunst, Michael W., Bo, Yuxia, Zhang, Shijian, Richard, Jonathan, Zhou, Fei, and Huang, Rick K.

Abstract

Emerging variants of concern for the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) can transmit more efficiently and partially evade protective immune responses, thus necessitating continued refinement of antibody therapies and immunogen design. Here, we elucidate the structural basis and mode of action for two potent SARS-CoV-2 spike (S)-neutralizing monoclonal antibodies, CV3-1 and CV3-25, which remain effective against emerging variants of concern in vitro and in vivo. CV3-1 binds to the (485-GFN-487) loop within the receptor-binding domain (RBD) in the "RBD-up" position and triggers potent shedding of the S1 subunit. In contrast, CV3-25 inhibits membrane fusion by binding to an epitope in the stem helix region of the S2 subunit that is highly conserved among β-coronaviruses. Thus, vaccine immunogen designs that incorporate the conserved regions in the RBD and stem helix region are candidates to elicit pan-coronavirus protective immune responses. [Display omitted] • Antibodies CV3-1 and CV3-25 neutralize emerging SARS-CoV-2 variants • CV3-1 binds to 485-GFN-487 loop of RBD on S and triggers S1 shedding • CV3-25 binds the stem helix of S2 and inhibits membrane fusion • Conserved epitopes are candidates for pan-coronavirus vaccines Li et al. elucidate the structural basis and mode of action for two potent anti-S neutralizing monoclonal antibodies that remain effective against SARS-CoV-2 emerging variants of concern. Vaccine immunogen designs based on both conserved epitopes are candidates to elicit pan-coronavirus protective immune responses [ABSTRACT FROM AUTHOR]

Published

2022

11. A single dose of the SARS-CoV-2 vaccine BNT162b2 elicits Fc-mediated antibody effector functions and T cell responses.

Author

Tauzin, Alexandra, Nayrac, Manon, Benlarbi, Mehdi, Gong, Shang Yu, Gasser, Romain, Beaudoin-Bussières, Guillaume, Brassard, Nathalie, Laumaea, Annemarie, Vézina, Dani, Prévost, Jérémie, Anand, Sai Priya, Bourassa, Catherine, Gendron-Lepage, Gabrielle, Medjahed, Halima, Goyette, Guillaume, Niessl, Julia, Tastet, Olivier, Gokool, Laurie, Morrisseau, Chantal, and Arlotto, Pascale

Abstract

While the standard regimen of the BNT162b2 mRNA vaccine for SARS-CoV-2 includes two doses administered 3 weeks apart, some public health authorities are spacing these doses, raising concerns about efficacy. However, data indicate that a single dose can be up to 90% effective starting 14 days post-administration. To assess the mechanisms contributing to protection, we analyzed humoral and T cell responses three weeks after a single BNT162b2 dose. We observed weak neutralizing activity elicited in SARS-CoV-2 naive individuals but strong anti-receptor binding domain and spike antibodies with Fc-mediated effector functions and cellular CD4+ T cell responses. In previously infected individuals, a single dose boosted all humoral and T cell responses, with strong correlations between T helper and antibody immunity. Our results highlight the potential role of Fc-mediated effector functions and T cell responses in vaccine efficacy. They also provide support for spacing doses to vaccinate more individuals in conditions of vaccine scarcity. [Display omitted] • Three weeks after the first BNT162b2 dose, weak neutralizing antibodies are elicited • These antibodies have robust Fc-mediated effector functions • Vaccination of individuals previously infected boosts humoral and cellular responses • Strong correlations between T helper cell and humoral responses are observed Tauzin and Nayrac et al. characterize humoral and cellular responses 3 weeks after a single dose of mRNA BNT162b2 vaccine. They show, in SARS-CoV-2-naive individuals, that the antibodies elicited have weak neutralizing activity but potent Fc-mediated effector functions, and in SARS-CoV-2 previously infected individuals, that all responses are significantly boosted. [ABSTRACT FROM AUTHOR]

Published

2021

12. Wittgenstein, Collingwood, and the Aesthetic and Ethical Conundrum of Opera

Author

Senyshyn, Yaroslav and Vézina, Danielle

Published

2011

13. Contribution of single mutations to selected SARS-CoV-2 emerging variants spike antigenicity.

Author

Gong, Shang Yu, Chatterjee, Debashree, Richard, Jonathan, Prévost, Jérémie, Tauzin, Alexandra, Gasser, Romain, Bo, Yuxia, Vézina, Dani, Goyette, Guillaume, Gendron-Lepage, Gabrielle, Medjahed, Halima, Roger, Michel, Côté, Marceline, and Finzi, Andrés

Subjects

*SARS-CoV-2, *ANGIOTENSIN converting enzyme, *VACCINE effectiveness, *PHENOTYPES, *PATHOGENESIS

Abstract

Towards the end of 2020, multiple variants of concern (VOCs) and variants of interest (VOIs) have arisen from the original SARS-CoV-2 Wuhan-Hu-1 strain. Mutations in the Spike protein are highly scrutinized for their impact on transmissibility, pathogenesis and vaccine efficacy. Here, we contribute to the growing body of literature on emerging variants by evaluating the impact of single mutations on the overall antigenicity of selected variants and their binding to the ACE2 receptor. We observe a differential contribution of single mutants to the global variants phenotype related to ACE2 interaction and antigenicity. Using biolayer interferometry, we observe that enhanced ACE2 interaction is mostly modulated by a decrease in off-rate. Finally, we made the interesting observation that the Spikes from tested emerging variants bind better to ACE2 at 37°C compared to the D614G variant. Whether improved ACE2 binding at higher temperature facilitates emerging variants transmission remain to be demonstrated. • Most Spikes from emerging variants exhibit improved ACE2 binding. • Single mutations fail to predict the antigenic profile and ACE2 binding of variants. • Emerging variants Spikes bypass temperature-induced conformational changes required to achieve high ACE2 binding. [ABSTRACT FROM AUTHOR]

Published

2021

14. A New Family of Small-Molecule CD4-Mimetic Compounds Contacts Highly Conserved Aspartic Acid 368 of HIV-1 gp120 and Mediates Antibody-Dependent Cellular Cytotoxicity.

Author

Ding, Shilei, Grenier, Melissa C., Tolbert, William D., Vézina, Dani, Sherburn, Rebekah, Richard, Jonathan, Prévost, Jérémie, Chapleau, Jean-Philippe, Gendron-Lepage, Gabrielle, Medjahed, Halima, Abrams, Cameron, Sodroski, Joseph, Pazgier, Marzena, Smith III, Amos B., and Finzi, Andrés

Subjects

*ANTIBODY-dependent cell cytotoxicity, *VIRAL envelope proteins, *ASPARTIC acid, *BIOMOLECULES, *GLYCOPROTEINS, *VIRUS diseases, *DRUG development, *SMALL molecules

Abstract

The HIV-1 envelope glycoprotein (Env) trimer mediates virus entry into cells. The "closed" conformation of Env is resistant to nonneutralizing antibodies (nnAbs). These antibodies mostly recognize occluded epitopes that can be exposed upon binding of CD4 or small-molecule CD4 mimetics (CD4mc). Here, we describe a new family of small molecules that expose Env to nnAbs and sensitize infected cells to antibody-dependent cellular cytotoxicity (ADCC). These compounds have a limited capacity to inhibit virus infection directly but are able to sensitize viral particles to neutralization by otherwise nonneutralizing antibodies. Structural analysis shows that some analogs of this family of CD4mc engage the gp120 Phe43 cavity by contacting the highly conserved D368 residue, making them attractive scaffolds for drug development.IMPORTANCE HIV-1 has evolved multiple strategies to avoid humoral responses. One efficient mechanism is to keep its envelope glycoprotein (Env) in its "closed" conformation. Here, we report on a new family of small molecules that are able to "open up" Env, thus exposing vulnerable epitopes. This new family of molecules binds in the Phe43 cavity and contacts the highly conserved D368 residue. The structural and biological attributes of molecules of this family make them good candidates for drug development. [ABSTRACT FROM AUTHOR]

Published

2019

15. Temsavir Treatment of HIV-1-Infected Cells Decreases Envelope Glycoprotein Recognition by Broadly Neutralizing Antibodies.

Author

Boutin M, Vézina D, Ding S, Prévost J, Laumaea A, Marchitto L, Anand SP, Medjahed H, Gendron-Lepage G, Bourassa C, Goyette G, Clark A, Richard J, and Finzi A

Subjects

Antibodies, Neutralizing, Broadly Neutralizing Antibodies, Glycoproteins, HIV Antibodies, HIV Envelope Protein gp120, Humans, Polysaccharides metabolism, env Gene Products, Human Immunodeficiency Virus, Anti-HIV Agents, HIV Infections drug therapy, HIV Seropositivity, HIV-1

Abstract

The heavily glycosylated HIV-1 envelope glycoprotein (Env) is the sole viral antigen present at the surface of virions and infected cells, representing the main target for antibody responses. The FDA-approved small molecule temsavir acts as an HIV-1 attachment inhibitor by preventing Env-CD4 interaction. This molecule also stabilizes Env in a prefusion "closed" conformation that is preferentially targeted by several broadly neutralizing antibodies (bNAbs). A recent study showed that an analog of temsavir (BMS-377806) affects the cleavage and addition of complex glycans on Env. In this study, we investigated the impact of temsavir on the overall glycosylation, proteolytic cleavage, cell surface expression, and antigenicity of Env. We found that temsavir impacts Env glycosylation and processing at physiological concentrations. This significantly alters the capacity of several bNAbs to recognize Env present on virions and HIV-1-infected cells. Temsavir treatment also reduces the capacity of bNAbs to eliminate HIV-1-infected cells by antibody-dependent cellular cytotoxicity (ADCC). Consequently, the impact of temsavir on Env glycosylation and antigenicity should be considered for the development of new antibody-based approaches in temsavir-treated individuals. IMPORTANCE FDA-approved fostemsavir, the prodrug for the active moiety small molecule temsavir (GSK 2616713 [formally BMS-626529]), acts as an attachment inhibitor by targeting the HIV-1 envelope (Env) and preventing CD4 interaction. Temsavir also stabilizes Env in its "closed," functional state 1 conformation, which represents an ideal target for broadly neutralizing antibodies (bNAbs). Since these antibodies recognize conformation-dependent epitopes composed of or adjacent to glycans, we evaluated the impact of temsavir treatment on overall Env glycosylation and its influence on bNAb recognition. Our results showed an alteration of Env glycosylation and cleavage by temsavir at physiological concentrations. This significantly modifies the overall antigenicity of Env and therefore reduces the capacity of bNAbs to recognize and eliminate HIV-1-infected cells by ADCC. These findings provide important information for the design of immunotherapies aimed at targeting the viral reservoir in temsavir-treated individuals.

Published

2022

16. VE607 Stabilizes SARS-CoV-2 Spike In the "RBD-up" Conformation and Inhibits Viral Entry.

Author

Ding S, Gong SY, Grover J, Mohammadi M, Chen Y, Vézina D, Beaudoin-Bussières G, Verma VT, Goyette G, Richard J, Yang D, Smith AB, Pazgier M, Côté M, Abrams C, Mothes W, Finzi A, and Baron C

Abstract

SARS-CoV-2 infection of host cells starts by binding of the Spike glycoprotein (S) to the ACE2 receptor. The S-ACE2 interaction is a potential target for therapies against COVID-19 as demonstrated by the development of immunotherapies blocking this interaction. Here, we present the commercially available VE607, comprised of three stereoisomers, that was originally described as an inhibitor of SARS-CoV-1. We show that VE607 specifically inhibits infection of SARS-CoV-1 and SARS-CoV-2 S-expressing pseudoviral particles as well as authentic SARS-CoV-2. VE607 stabilizes the receptor binding domain (RBD) in its "up" conformation. In silico docking and mutational analysis map the VE607 binding site at the RBD-ACE2 interface. The IC 50 values are in the low micromolar range for pseudoparticles derived from SARS-CoV-2 Wuhan/D614G as well as from variants of concern (Alpha, Beta, Gamma, Delta and Omicron), suggesting that VE607 has potential for the development of drugs against SARS-CoV-2 infections.

Published

2022

17. Temporal associations of B and T cell immunity with robust vaccine responsiveness in a 16-week interval BNT162b2 regimen.

Author

Nayrac M, Dubé M, Sannier G, Nicolas A, Marchitto L, Tastet O, Tauzin A, Brassard N, Beaudoin-Bussières G, Vézina D, Gong SY, Benlarbi M, Gasser R, Laumaea A, Bourassa C, Gendron-Lepage G, Medjahed H, Goyette G, Ortega-Delgado GG, Laporte M, Niessl J, Gokool L, Morrisseau C, Arlotto P, Richard J, Tremblay C, Martel-Laferrière V, Finzi A, and Kaufmann DE

Abstract

Spacing of the BNT162b2 mRNA doses beyond 3 weeks raised concerns about vaccine efficacy. We longitudinally analyzed B cell, T cell and humoral responses to two BNT162b2 mRNA doses administered 16 weeks apart in 53 SARS-CoV-2 naïve and previously-infected donors. This regimen elicited robust RBD-specific B cell responses whose kinetics differed between cohorts, the second dose leading to increased magnitude in naïve participants only. While boosting did not increase magnitude of CD4 + T cell responses further compared to the first dose, unsupervised clustering analyses of single-cell features revealed phenotypic and functional shifts over time and between cohorts. Integrated analysis showed longitudinal immune component-specific associations, with early Thelper responses post-first dose correlating with B cell responses after the second dose, and memory Thelper generated between doses correlating with CD8 T cell responses after boosting. Therefore, boosting elicits a robust cellular recall response after the 16-week interval, indicating functional immune memory.

Published

2021

18. HIV-1 Envelope Glycoproteins Proteolytic Cleavage Protects Infected Cells from ADCC Mediated by Plasma from Infected Individuals.

Author

Prévost J, Medjahed H, Vézina D, Chen HC, Hahn BH, Smith AB 3rd, and Finzi A

Subjects

Amino Acid Motifs, CD4-Positive T-Lymphocytes immunology, CD4-Positive T-Lymphocytes metabolism, CD4-Positive T-Lymphocytes virology, Cell Membrane metabolism, HIV Antibodies immunology, HIV Envelope Protein gp160 chemistry, HIV Envelope Protein gp160 genetics, HIV Envelope Protein gp160 metabolism, HIV-1 metabolism, Humans, Mutation, Protein Conformation, Proteolysis, Virion immunology, Virion metabolism, env Gene Products, Human Immunodeficiency Virus chemistry, env Gene Products, Human Immunodeficiency Virus genetics, Antibody-Dependent Cell Cytotoxicity immunology, HIV Infections immunology, HIV-1 immunology, env Gene Products, Human Immunodeficiency Virus metabolism

Abstract

The HIV-1 envelope glycoprotein (Env) is synthesized in the endoplasmic reticulum as a trimeric gp160 precursor, which requires proteolytic cleavage by a cellular furin protease to mediate virus-cell fusion. Env is conformationally flexible but controls its transition from the unbound "closed" conformation (State 1) to downstream CD4-bound conformations (States 2/3), which are required for fusion. In particular, HIV-1 has evolved several mechanisms that reduce the premature "opening" of Env which exposes highly conserved epitopes recognized by non-neutralizing antibodies (nnAbs) capable of mediating antibody-dependent cellular cytotoxicity (ADCC). Env cleavage decreases its conformational transitions favoring the adoption of the "closed" conformation. Here we altered the gp160 furin cleavage site to impair Env cleavage and to examine its impact on ADCC responses mediated by plasma from HIV-1-infected individuals. We found that infected primary CD4+ T cells expressing uncleaved, but not wildtype, Env are efficiently recognized by nnAbs and become highly susceptible to ADCC responses mediated by plasma from HIV-1-infected individuals. Thus, HIV-1 limits the exposure of uncleaved Env at the surface of HIV-1-infected cells at least in part to escape ADCC responses.

Published

2021

19. Across Functional Boundaries: Making Nonneutralizing Antibodies To Neutralize HIV-1 and Mediate Fc-Mediated Effector Killing of Infected Cells.

Author

Richard J, Nguyen DN, Tolbert WD, Gasser R, Ding S, Vézina D, Yu Gong S, Prévost J, Gendron-Lepage G, Medjahed H, Gottumukkala S, Finzi A, and Pazgier M

Subjects

Antibodies, Monoclonal metabolism, Antibodies, Neutralizing, CD4 Antigens genetics, CD4 Antigens immunology, CD4 Antigens metabolism, CD4-Positive T-Lymphocytes immunology, Epitopes immunology, Humans, Neutralization Tests, Protein Binding, Antibodies, Monoclonal immunology, Antibody-Dependent Cell Cytotoxicity immunology, Epitopes metabolism, HIV Antibodies immunology, HIV-1 immunology

Abstract

In HIV-1 infection, many antibodies (Abs) are elicited to Envelope (Env) epitopes that are conformationally masked in the native trimer and are only available for antibody recognition after the trimer binds host cell CD4. Among these are epitopes within the Co-Receptor Binding Site (CoRBS) and the constant region 1 and 2 (C1-C2 or cluster A region). In particular, C1-C2 epitopes map to the gp120 face interacting with gp41 in the native, "closed" Env trimer present on HIV-1 virions or expressed on HIV-1-infected cells. Antibodies targeting this region are therefore nonneutralizing and their potential as mediators of antibody-dependent cellular cytotoxicity (ADCC) of HIV-1-infected cells diminished by a lack of available binding targets. Here, we present the design of Ab-CD4 chimeric proteins that consist of the Ab-IgG1 of a CoRBS or cluster A specificity to the extracellular domains 1 and 2 of human CD4. Our Ab-CD4 hybrids induce potent ADCC against infected primary CD4 + T cells and neutralize tier 1 and 2 HIV-1 viruses. Furthermore, competition binding experiments reveal that the observed biological activities rely on both the antibody and CD4 moieties, confirming their cooperativity in triggering conformational rearrangements of Env. Our data indicate the utility of these Ab-CD4 hybrids as antibody therapeutics that are effective in eliminating HIV-1 through the combined mechanisms of neutralization and ADCC. This is also the first report of single-chain-Ab-based molecules capable of opening "closed" Env trimers on HIV-1 particles/infected cells to expose the cluster A region and activate ADCC and neutralization against these nonneutralizing targets. IMPORTANCE Highly conserved epitopes within the coreceptor binding site (CoRBS) and constant region 1 and 2 (C1-C2 or cluster A) are only available for antibody recognition after the HIV-1 Env trimer binds host cell CD4; therefore, they are not accessible on virions and infected cells, where the expression of CD4 is downregulated. Here, we have developed new antibody fusion molecules in which domains 1 and 2 of soluble human CD4 are linked with monoclonal antibodies of either the CoRBS or cluster A specificity. We optimized the conjugation sites and linker lengths to allow each of these novel bispecific fusion molecules to recognize native "closed" Env trimers and induce the structural rearrangements required for exposure of the epitopes for antibody binding. Our in vitro functional testing shows that our Ab-CD4 molecules can efficiently target and eliminate HIV-1-infected cells through antibody-dependent cellular cytotoxicity and inactivate HIV-1 virus through neutralization.

Published

2021

20. Structural Basis and Mode of Action for Two Broadly Neutralizing Antibodies Against SARS-CoV-2 Emerging Variants of Concern.

Author

Li W, Chen Y, Prévost J, Ullah I, Lu M, Gong SY, Tauzin A, Gasser R, Vézina D, Anand SP, Goyette G, Chaterjee D, Ding S, Tolbert WD, Grunst MW, Bo Y, Zhang S, Richard J, Zhou F, Huang RK, Esser L, Zeher A, Côté M, Kumar P, Sodroski J, Xia D, Uchil PD, Pazgier M, Finzi A, and Mothes W

Abstract

Emerging variants of concern for the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) can transmit more efficiently and partially evade protective immune responses, thus necessitating continued refinement of antibody therapies and immunogen design. Here we elucidate the structural basis and mode of action for two potent SARS-CoV-2 Spike (S) neutralizing monoclonal antibodies CV3-1 and CV3-25 that remained effective against emerging variants of concern in vitro and in vivo. CV3-1 bound to the (485-GFN-487) loop within the receptor-binding domain (RBD) in the "RBD-up" position and triggered potent shedding of the S1 subunit. In contrast, CV3-25 inhibited membrane fusion by binding to an epitope in the stem helix region of the S2 subunit that is highly conserved among β-coronaviruses. Thus, vaccine immunogen designs that incorporate the conserved regions in RBD and stem helix region are candidates to elicit pan-coronavirus protective immune responses.

Published

2021

21. A single BNT162b2 mRNA dose elicits antibodies with Fc-mediated effector functions and boost pre-existing humoral and T cell responses.

Author

Tauzin A, Nayrac M, Benlarbi M, Gong SY, Gasser R, Beaudoin-Bussières G, Brassard N, Laumaea A, Vézina D, Prévost J, Anand SP, Bourassa C, Gendron-Lepage G, Medjahed H, Goyette G, Niessl J, Tastet O, Gokool L, Morrisseau C, Arlotto P, Stamatatos L, McGuire AT, Larochelle C, Uchil P, Lu M, Mothes W, Serres G, Moreira S, Roger M, Richard J, Martel-Laferrière V, Duerr R, Tremblay C, Kaufmann DE, and Finzi A

Abstract

The standard dosing of the Pfizer/BioNTech BNT162b2 mRNA vaccine validated in clinical trials includes two doses administered three weeks apart. While the decision by some public health authorities to space the doses because of limiting supply has raised concerns about vaccine efficacy, data indicate that a single dose is up to 90% effective starting 14 days after its administration. We analyzed humoral and T cells responses three weeks after a single dose of this mRNA vaccine. Despite the proven efficacy of the vaccine at this time point, no neutralizing activity were elicited in SARS-CoV-2 naïve individuals. However, we detected strong anti-receptor binding domain (RBD) and Spike antibodies with Fc-mediated effector functions and cellular responses dominated by the CD4 + T cell component. A single dose of this mRNA vaccine to individuals previously infected by SARS-CoV-2 boosted all humoral and T cell responses measured, with strong correlations between T helper and antibody immunity. Neutralizing responses were increased in both potency and breadth, with distinctive capacity to neutralize emerging variant strains. Our results highlight the importance of vaccinating uninfected and previously-infected individuals and shed new light into the potential role of Fc-mediated effector functions and T cell responses in vaccine efficacy. They also provide support to spacing the doses of two-vaccine regimens to vaccinate a larger pool of the population in the context of vaccine scarcity against SARS-CoV-2.

Published

2021

22. Optimization of Small Molecules That Sensitize HIV-1 Infected Cells to Antibody-Dependent Cellular Cytotoxicity.

Author

Grenier MC, Ding S, Vézina D, Chapleau JP, Tolbert WD, Sherburn R, Schön A, Somisetti S, Abrams CF, Pazgier M, Finzi A, and Smith AB 3rd

Abstract

With approximately 37 million people living with HIV worldwide and an estimated 2 million new infections reported each year, the need to derive novel strategies aimed at eradicating HIV-1 infection remains a critical worldwide challenge. One potential strategy would involve eliminating infected cells via antibody-dependent cellular cytotoxicity (ADCC). HIV-1 has evolved sophisticated mechanisms to conceal epitopes located in its envelope glycoprotein (Env) that are recognized by ADCC-mediating antibodies present in sera from HIV-1 infected individuals. Our aim is to circumvent this evasion via the development of small molecules that expose relevant anti-Env epitopes and sensitize HIV-1 infected cells to ADCC. Rapid elaboration of an initial screening hit using parallel synthesis and structure-based optimization has led to the development of potent small molecules that elicit this humoral response. Efforts to increase the ADCC activity of this class of small molecules with the aim of increasing their therapeutic potential was based on our recent cocrystal structures with gp120 core., Competing Interests: The authors declare no competing financial interest., (Copyright © 2019 American Chemical Society.)

Published

2019