Your search keyword '"Rey, Felix"' showing total 22 results

1. Receptor-recognition and antiviral mechanisms of retrovirus-derived human proteins

Author

Khare, Shashank, Villalba, Miryam I., Canul-Tec, Juan C., Cajiao, Arantza Balsebre, Kumar, Anand, Backovic, Marija, Rey, Felix A., Pardon, Els, Steyaert, Jan, Perez, Camilo, and Reyes, Nicolas

Abstract

Human syncytin-1 and suppressyn are cellular proteins of retroviral origin involved in cell–cell fusion events to establish the maternal–fetal interface in the placenta. In cell culture, they restrict infections from members of the largest interference group of vertebrate retroviruses, and are regarded as host immunity factors expressed during development. At the core of the syncytin-1 and suppressyn functions are poorly understood mechanisms to recognize a common cellular receptor, the membrane transporter ASCT2. Here, we present cryo-electron microscopy structures of human ASCT2 in complexes with the receptor-binding domains of syncytin-1 and suppressyn. Despite their evolutionary divergence, the two placental proteins occupy similar positions in ASCT2, and are stabilized by the formation of a hybrid β-sheet or ‘clamp’ with the receptor. Structural predictions of the receptor-binding domains of extant retroviruses indicate overlapping binding interfaces and clamping sites with ASCT2, revealing a competition mechanism between the placental proteins and the retroviruses. Our work uncovers a common ASCT2 recognition mechanism by a large group of endogenous and disease-causing retroviruses, and provides high-resolution views on how placental human proteins exert morphological and immunological functions.

Published

2024

2. TMPRSS2 is a functional receptor for human coronavirus HKU1

Author

Saunders, Nell, Fernandez, Ignacio, Planchais, Cyril, Michel, Vincent, Rajah, Maaran Michael, Baquero Salazar, Eduard, Postal, Jeanne, Porrot, Francoise, Guivel-Benhassine, Florence, Blanc, Catherine, Chauveau-Le Friec, Gaëlle, Martin, Augustin, Grzelak, Ludivine, Oktavia, Rischa Maya, Meola, Annalisa, Ahouzi, Olivia, Hoover-Watson, Hunter, Prot, Matthieu, Delaune, Deborah, Cornelissen, Marion, Deijs, Martin, Meriaux, Véronique, Mouquet, Hugo, Simon-Lorière, Etienne, van der Hoek, Lia, Lafaye, Pierre, Rey, Felix, Buchrieser, Julian, and Schwartz, Olivier

Abstract

Four endemic seasonal human coronaviruses causing common colds circulate worldwide: HKU1, 229E, NL63 and OC43 (ref. 1). After binding to cellular receptors, coronavirus spike proteins are primed for fusion by transmembrane serine protease 2 (TMPRSS2) or endosomal cathepsins2–9. NL63 uses angiotensin-converting enzyme 2 as a receptor10, whereas 229E uses human aminopeptidase-N11. HKU1 and OC43 spikes bind cells through 9-O-acetylated sialic acid, but their protein receptors remain unknown12. Here we show that TMPRSS2 is a functional receptor for HKU1. TMPRSS2 triggers HKU1 spike-mediated cell–cell fusion and pseudovirus infection. Catalytically inactive TMPRSS2 mutants do not cleave HKU1 spike but allow pseudovirus infection. Furthermore, TMPRSS2 binds with high affinity to the HKU1 receptor binding domain (Kd 334 and 137 nM for HKU1A and HKU1B genotypes) but not to SARS-CoV-2. Conserved amino acids in the HKU1 receptor binding domain are essential for binding to TMPRSS2 and pseudovirus infection. Newly designed anti-TMPRSS2 nanobodies potently inhibit HKU1 spike attachment to TMPRSS2, fusion and pseudovirus infection. The nanobodies also reduce infection of primary human bronchial cells by an authentic HKU1 virus. Our findings illustrate the various evolution strategies of coronaviruses, which use TMPRSS2 to either directly bind to target cells or prime their spike for membrane fusion and entry.

Published

2023

3. Reduced sensitivity of SARS-CoV-2 variant Delta to antibody neutralization

Author

Planas, Delphine, Veyer, David, Baidaliuk, Artem, Staropoli, Isabelle, Guivel-Benhassine, Florence, Rajah, Maaran Michael, Planchais, Cyril, Porrot, Françoise, Robillard, Nicolas, Puech, Julien, Prot, Matthieu, Gallais, Floriane, Gantner, Pierre, Velay, Aurélie, Le Guen, Julien, Kassis-Chikhani, Najiby, Edriss, Dhiaeddine, Belec, Laurent, Seve, Aymeric, Courtellemont, Laura, Péré, Hélène, Hocqueloux, Laurent, Fafi-Kremer, Samira, Prazuck, Thierry, Mouquet, Hugo, Bruel, Timothée, Simon-Lorière, Etienne, Rey, Felix A., and Schwartz, Olivier

Abstract

The SARS-CoV-2 B.1.617 lineage was identified in October 2020 in India1–5. Since then, it has become dominant in some regions of India and in the UK, and has spread to many other countries6. The lineage includes three main subtypes (B1.617.1, B.1.617.2 and B.1.617.3), which contain diverse mutations in the N-terminal domain (NTD) and the receptor-binding domain (RBD) of the SARS-CoV-2 spike protein that may increase the immune evasion potential of these variants. B.1.617.2—also termed the Delta variant—is believed to spread faster than other variants. Here we isolated an infectious strain of the Delta variant from an individual with COVID-19 who had returned to France from India. We examined the sensitivity of this strain to monoclonal antibodies and to antibodies present in sera from individuals who had recovered from COVID-19 (hereafter referred to as convalescent individuals) or who had received a COVID-19 vaccine, and then compared this strain with other strains of SARS-CoV-2. The Delta variant was resistant to neutralization by some anti-NTD and anti-RBD monoclonal antibodies, including bamlanivimab, and these antibodies showed impaired binding to the spike protein. Sera collected from convalescent individuals up to 12 months after the onset of symptoms were fourfold less potent against the Delta variant relative to the Alpha variant (B.1.1.7). Sera from individuals who had received one dose of the Pfizer or the AstraZeneca vaccine had a barely discernible inhibitory effect on the Delta variant. Administration of two doses of the vaccine generated a neutralizing response in 95% of individuals, with titres three- to fivefold lower against the Delta variant than against the Alpha variant. Thus, the spread of the Delta variant is associated with an escape from antibodies that target non-RBD and RBD epitopes of the spike protein.

Published

2021

4. ADMM for Exploiting Structure in MPC Problems.

Author

Rey, Felix, Hokayem, Peter, and Lygeros, John

Subjects

*SYSTEM dynamics, *PREDICTION models, *CONVEX functions

Abstract

We consider a model predictive control setting, where we use the alternating direction method of multipliers (ADMM) to exploit problem structure. We take advantage of interacting components in the controlled system by decomposing its dynamics with virtual subsystems and virtual inputs. We introduce subsystem-individual penalty parameters together with optimal selection techniques. Further, we propose a novel measure of system structure, which we call separation tendency. For a sufficiently structured system, the resulting structure-exploiting method has the following characteristics: its computational complexity scales favorably with the problem size; it is highly parallelizable; it is highly adaptable to the problem at hand; and even for a single-thread implementation, it improves the overall performance. We show a simulation study for cascade systems, and compare the new method to conventional ADMM. [ABSTRACT FROM AUTHOR]

Published

2021

5. A protective Zika virus E-dimer-based subunit vaccine engineered to abrogate antibody-dependent enhancement of dengue infection

Author

Slon-Campos, Jose Luis, Dejnirattisai, Wanwisa, Jagger, Brett W., López-Camacho, César, Wongwiwat, Wiyada, Durnell, Lorellin A., Winkler, Emma S., Chen, Rita E., Reyes-Sandoval, Arturo, Rey, Felix A., Diamond, Michael S., Mongkolsapaya, Juthathip, and Screaton, Gavin R.

Abstract

Infections with dengue virus (DENV) and Zika virus (ZIKV) can induce cross-reactive antibody responses. Two immunodominant epitopes—one to precursor membrane protein and one to the fusion loop epitope on envelope (E) protein—are recognized by cross-reactive antibodies1–3that are not only poorly neutralizing, but can also promote increased viral replication and disease severity via Fcγ receptor-mediated infection of myeloid cells—a process termed antibody-dependent enhancement (ADE)1,4,5. ADE is a significant concern for both ZIKV and DENV vaccines as the induction of poorly neutralizing cross-reactive antibodies may prime an individual for ADE on natural infection. In this report, we describe the design and production of covalently stabilized ZIKV E dimers, which lack precursor membrane protein and do not expose the immunodominant fusion loop epitope. Immunization of mice with ZIKV E dimers induces dimer-specific antibodies, which protect against ZIKV challenge during pregnancy. Importantly, the ZIKV E-dimer-induced response does not cross-react with DENV or induce ADE of DENV infection.

Published

2019

6. A Tailored ADMM Approach for Power Coordination in Variable Speed Drives

Author

Rey, Felix, Hokayem, Peter, and Lygeros, John

Abstract

Variable speed drives (VSDs) are AC/DC/AC power converters that drive electric machines at variable frequency. In a VSD the electric energy is first rectified to DC, then stored in a DC-link, and finally inverted back to the desired AC signal. The energy stored in the DC-link can be kept within tight bounds when the rectifier and the inverter coordinate their actions. This is achieved by utilizing model predictive control (MPC), which translates the control task into a sequence of optimization programs. In this paper we show how to utilize the structural properties of the underlying system to solve these optimization programs efficiently. We decompose the VSD into the rectifier, the DC-link and the inverter, and we use the alternating direction method of multipliers (ADMM) to exploit this decomposition. We show that our proposed method behaves favorably when compared to an interior point method, or a conventional ADMM approach.

Published

2017

7. Power Coordination in Variable Speed Drives using Model Predictive Control

Author

Rey, Felix, Hokayem, Peter, and Lygeros, John

Abstract

Variable speed drives (VSDs) are used to convert power between electricity grids and electric machines. Typically, they are AC-DC-AC power converters consisting of a rectifier, a storage capacitor and an inverter. In this paper, we use model predictive control (MPC) to coordinate the power flow through a VSD in order to keep the stored DC energy within tight bounds, exceeding the capabilities of conventional proportional-integral (PI) control techniques. The use of MPC enables for drives with smaller storage capacity that operate close to their physical capabilities. We design an MPC procedure that is tailored to VSDs and that accounts for real-time operation aspects.

Published

2017

8. Structural and mechanistic basis of neutralization by a pan-hantavirus protective antibody

Author

Mittler, Eva, Serris, Alexandra, Esterman, Emma S., Florez, Catalina, Polanco, Laura C., O’Brien, Cecilia M., Slough, Megan M., Tynell, Janne, Gröning, Remigius, Sun, Yan, Abelson, Dafna M., Wec, Anna Z., Haslwanter, Denise, Keller, Markus, Ye, Chunyan, Bakken, Russel R., Jangra, Rohit K., Dye, John M., Ahlm, Clas, Rappazzo, C. Garrett, Ulrich, Rainer G., Zeitlin, Larry, Geoghegan, James C., Bradfute, Steven B., Sidoli, Simone, Forsell, Mattias N.E., Strandin, Tomas, Rey, Felix A., Herbert, Andrew S., Walker, Laura M., Chandran, Kartik, and Guardado-Calvo, Pablo

Abstract

Emerging rodent-borne hantaviruses cause severe diseases in humans with no approved vaccines or therapeutics. We recently isolated a monoclonal broadly neutralizing antibody (nAb) from a Puumala virus–experienced human donor. Here, we report its structure bound to its target, the Gn/Gc glycoprotein heterodimer comprising the viral fusion complex. The structure explains the broad activity of the nAb: It recognizes conserved Gc fusion loop sequences and the main chain of variable Gn sequences, thereby straddling the Gn/Gc heterodimer and locking it in its prefusion conformation. We show that the nAb’s accelerated dissociation from the divergent Andes virus Gn/Gc at endosomal acidic pH limits its potency against this highly lethal virus and correct this liability by engineering an optimized variant that sets a benchmark as a candidate pan-hantavirus therapeutic.

Published

2023

9. Human type I IFN deficiency does not impair B cell response to SARS-CoV-2 mRNA vaccination

Author

Sokal, Aurélien, Bastard, Paul, Chappert, Pascal, Barba-Spaeth, Giovanna, Fourati, Slim, Vanderberghe, Alexis, Lagouge-Roussey, Pauline, Meyts, Isabelle, Gervais, Adrian, Bouvier-Alias, Magali, Azzaoui, Imane, Fernández, Ignacio, de la Selle, Andréa, Zhang, Qian, Bizien, Lucy, Pellier, Isabelle, Linglart, Agnès, Rothenbuhler, Anya, Marcoux, Estelle, Anxionnat, Raphael, Cheikh, Nathalie, Léger, Juliane, Amador-Borrero, Blanca, Fouyssac, Fanny, Menut, Vanessa, Goffard, Jean-Christophe, Storey, Caroline, Demily, Caroline, Mallebranche, Coralie, Troya, Jesus, Pujol, Aurora, Zins, Marie, Tiberghien, Pierre, Gray, Paul E., McNaughton, Peter, Sullivan, Anna, Peake, Jane, Levy, Romain, Languille, Laetitia, Rodiguez-Gallego, Carlos, Boisson, Bertrand, Gallien, Sébastien, Neven, Bénédicte, Michel, Marc, Godeau, Bertrand, Abel, Laurent, Rey, Felix A., Weill, Jean-Claude, Reynaud, Claude-Agnès, Tangye, Stuart G., Casanova, Jean-Laurent, and Mahévas, Matthieu

Abstract

Inborn and acquired deficits of type I interferon (IFN) immunity predispose to life-threatening COVID-19 pneumonia. We longitudinally profiled the B cell response to mRNA vaccination in SARS-CoV-2 naive patients with inherited TLR7, IRF7, or IFNAR1 deficiency, as well as young patients with autoantibodies neutralizing type I IFNs due to autoimmune polyendocrine syndrome type-1 (APS-1) and older individuals with age-associated autoantibodies to type I IFNs. The receptor-binding domain spike protein (RBD)–specific memory B cell response in all patients was quantitatively and qualitatively similar to healthy donors. Sustained germinal center responses led to accumulation of somatic hypermutations in immunoglobulin heavy chain genes. The amplitude and duration of, and viral neutralization by, RBD-specific IgG serological response were also largely unaffected by TLR7, IRF7, or IFNAR1 deficiencies up to 7 mo after vaccination in all patients. These results suggest that induction of type I IFN is not required for efficient generation of a humoral response against SARS-CoV-2 by mRNA vaccines.

Published

2023

10. Dengue virus sero-cross-reactivity drives antibody-dependent enhancement of infection with zika virus

Author

Dejnirattisai, Wanwisa, Supasa, Piyada, Wongwiwat, Wiyada, Rouvinski, Alexander, Barba-Spaeth, Giovanna, Duangchinda, Thaneeya, Sakuntabhai, Anavaj, Cao-Lormeau, Van-Mai, Malasit, Prida, Rey, Felix A, Mongkolsapaya, Juthathip, and Screaton, Gavin R

Abstract

Infection with Zika virus has occurred in areas previously exposed to dengue virus, a closely related flavivirus. Screaton and colleagues find that monoclonal antibodies to dengue virus cross-react with Zika virus and enhance infection.

Published

2016

11. Human herpes virus 8 molecular mimicry of ephrin ligands triggers EphA2 signaling

Author

Light, Taylor P., Rey, Felix, Hristova, Kalina, and Bachovic, Marija

Published

2022

12. Human antibody recognizing a quaternary epitope in the Puumala virus glycoprotein provides broad protection against orthohantaviruses

Author

Mittler, Eva, Wec, Anna Z., Tynell, Janne, Guardado-Calvo, Pablo, Wigren-Byström, Julia, Polanco, Laura C., O’Brien, Cecilia M., Slough, Megan M., Abelson, Dafna M., Serris, Alexandra, Sakharkar, Mrunal, Pehau-Arnaudet, Gerard, Bakken, Russell R., Geoghegan, James C., Jangra, Rohit K., Keller, Markus, Zeitlin, Larry, Vapalahti, Olli, Ulrich, Rainer G., Bornholdt, Zachary A., Ahlm, Clas, Rey, Felix A., Dye, John M., Bradfute, Steven B., Strandin, Tomas, Herbert, Andrew S., Forsell, Mattias N. E., Walker, Laura M., and Chandran, Kartik

Abstract

The rodent-borne hantavirus Puumala virus (PUUV) and related agents cause hemorrhagic fever with renal syndrome (HFRS) in humans. Other hantaviruses, including Andes virus (ANDV) and Sin Nombre virus, cause a distinct zoonotic disease, hantavirus cardiopulmonary syndrome (HCPS). Although these infections are severe and have substantial case fatality rates, no FDA-approved hantavirus countermeasures are available. Recent work suggests that monoclonal antibodies may have therapeutic utility. We describe here the isolation of human neutralizing antibodies (nAbs) against tetrameric Gn/Gc glycoprotein spikes from PUUV-experienced donors. We define a dominant class of nAbs recognizing the “capping loop” of Gn that masks the hydrophobic fusion loops in Gc. A subset of nAbs in this class, including ADI-42898, bound Gn/Gc complexes but not Gn alone, strongly suggesting that they recognize a quaternary epitope encompassing both Gn and Gc. ADI-42898 blocked the cell entry of seven HCPS- and HFRS-associated hantaviruses, and single doses of this nAb could protect Syrian hamsters and bank voles challenged with the highly virulent HCPS-causing ANDV and HFRS-causing PUUV, respectively. ADI-42898 is a promising candidate for clinical development as a countermeasure for both HCPS and HFRS, and its mode of Gn/Gc recognition informs the development of broadly protective hantavirus vaccines.

Published

2022

13. Identification of Rotavirus VP6 Residues Located at the Interface with VP2 That Are Essential for Capsid Assembly and Transcriptase Activity

Author

Charpilienne, Annie, Lepault, Jean, Rey, Felix, and Cohen, Jean

Abstract

ABSTRACTRotavirushas a complex triple-layered icosahedral capsid. The external layer consists of VP7 and VP4, the intermediate layer consists of VP6 trimers, and the internal layer consists of VP2. Double-layered particles (DLP) derived from the virus by solubilization of VP4 and VP7 are transcriptionally competent and extrude capped mRNA from their vertices. Analysis of the pseudoatomic model of the VP6 layer, obtained by placing the atomic structure of VP6 into electron microscopy reconstructions of the DLP, has identified the regions of the protein involved in interactions with the internal layer. To study the role of VP6 both in the assembly of DLP and in transcription, 13 site-specific substitution mutations of VP6, targeting the contacts between the two inner layers, were constructed and expressed in the baculovirus system. The effects of these mutations on VP6 expression, trimerization, and formation of macromolecular assemblies were investigated. Using either in vitro reconstituted DLP derived from purified viral cores and recombinant VP6 or in vivo self-assembled virus-like particles resulting from the coexpression of VP2 and VP6 in the baculovirus-Sf9 system (VLP2/6), we have identified the amino acids essential for recovery of transcription or assembly. All VP6 mutants formed stable trimers which, like wild-type VP6, assembled into tubular structures. The ability of VP6 to interact with VP2 was examined by several assays, including electron microscopy, coimmunoprecipitation, purification of VLP2/6, and monitoring of the transcriptase activity of reconstituted DLP. Of the 13 VP6 mutants examined, 3 were unable to assemble with VP2 and 3 others partially assembled. These mutants either did not rescue the transcriptase activity of core particles or did so only marginally. Four mutants as well as the wild-type VP6 assembled and transcribed very well. Three mutants assembled well on cores but, surprisingly, did not rescue the transcriptase activity of reconstituted DLP. Our results indicate that hydrophobic interactions between VP6 and VP2 residues are responsible for the stability of the DLP. They also show that subtle electrostatic interactions between VP6 and the underlying transcriptase machinery can be essential for mRNA synthesis.

Published

2002

14. Antibody inhibition of the transcriptase activity of the rotavirus DLP: a structural view11Edited by M. F. Moody

Author

Thouvenin, Eric, Schoehn, Guy, Rey, Felix, Petitpas, Isabelle, Mathieu, Magali, Vaney, Marie-Christine, Cohen, Jean, Kohli, Evelyne, Pothier, Pierre, and Hewat, Elizabeth

Abstract

On entering the host cell the rotavirus virion loses its outer shell to become a double-layered particle (DLP). The DLP then transcribes the 11 segments of its dsRNA genome using its own transcriptase complex, and the mature mRNA emerges along the 5-fold axis. In order to better understand the transcription mechanism and the role of VP6 in transcription we have studied three monoclonal antibodies against VP6: RV-238 which inhibits the transcriptase activity of the DLP; and RV-133 and RV-138 which have no effect on transcription. The structures obtained by cryo-electron microscopy of the DLP/Fab complexes and by X-ray crystallography of the VP6 trimer and the VP6/Fab-238 complex have been combined to give pseudo-atomic structures. Steric hindrance between the Fabs results in limited Fab occupancy. In particular, there are on average only three of a possible five Fabs-238 which point towards the 5-fold axis. Thus, Fabs-238 are not in a position to block the exiting mRNA, nor is there any visible conformational change in VP6 on antibody binding at a resolution of 23 A˚. However, the epitope of the inhibiting antibody involves two VP6 monomers, whereas, those of the non-inhibiting antibodies have an epitope on only one VP6. Thus, the inhibition of transcription may be a result of inhibition of a possible change in the VP6 conformation associated with the transcription of mRNA.

Published

2001

15. Determinants in the Envelope E Protein and Viral RNA Helicase NS3 That Influence the Induction of Apoptosis in Response to Infection with Dengue Type 1 Virus

Author

Nunes Duarte dos Santos, Claudia, Frenkiel, Marie-Pascale, Courageot, Marie-Pierre, Fernando S. Rocha, Carlos, Vazeille-Falcoz, Marie-Christine, Wien, Michelle W., Rey, Felix A., Deubel, Vincent, and Desprès, Philippe

Abstract

One mechanism by which dengue (DEN) virus may cause cell death is apoptosis. In this study, we investigated whether the genetic determinants responsible for acquisition by DEN type 1 (DEN-1) virus of mouse neurovirulence interfere with the induction of apoptosis. Neurovirulent variant FGA/NA d1d was generated during the adaptation of the human isolate of DEN-1 virus strain FGA/89 to grow in newborn mouse brains and mosquito cells in vitro[Desprès, P. Frenkiel, M.-P. Ceccaldi, P.-E. Duarte Dos Santos, C. and Deubel, V. (1998) J. Virol.,72: 823–829]. Genetic determinants possibly responsible for mouse neurovirulence were studied by sequencing the entire genomes of both DEN-1 viruses. Three amino acid differences in the envelope E protein and one in the nonstructural NS3 protein were found. The cytotoxicity of the mouse-neurovirulent DEN-1 variant was studied in different target cells in vitroand compared with the parental strain. FGA/NA d1d was more pathogenic for mouse neuroblastoma cells and attenuated for human hepatoma cells. Changes in virus replicative functions and virus assembly may account, in a large part, for the differences in the induction of apoptosis. Our data suggest that identified amino acid substitutions in the envelope E protein and viral RNA helicase NS3 may influence DEN-1 virus pathogenicity by altering viral growth.

Published

2000

16. The Isolation of the Ectodomain of the Alphavirus E1 Protein as a Soluble Hemagglutinin and Its Crystallization

Author

Wengler, Gerd, Wengler, Gisela, and Rey, Felix A.

Abstract

Alphaviruses are isometric enveloped viruses approximately 70 nm in diameter. The viral surface contains 80 glycoprotein spikes arranged in aT= 4 lattice. Each of these spikes consists of three heterodimers of the viral membrane proteins E1 (approximately 49 kDa) and E2 (approximately 51 kDa). Cryoelectron microscopic analyses have shown that the spikes form a protein shell on the viral surface. We have made an attempt to isolate biologically active protein fragments from this surface and to grow crystals from such fragments. To this end membrane proteins were extracted with Nonidet-P40 from the Semliki Forest alphavirus and the proteins were separated from detergent by centrifugation. A protein complex containing the E1 and E2 molecules in quantitative yield was obtained by this procedure. This complex has the following properties: It sediments at approximately 30S, it chromatographs with an apparent molecular mass of approximately 580,000 Da during gel filtration, it cannot be dissociated by either nonionic detergents or 6 M urea, and at acid pH it is a highly active hemagglutinin. The data indicate that this 30S hemagglutinin complex, which has not been hitherto described for alphaviruses, may represent a variant form of the protein lattice present on the alphavirus surface. Cleavage of this complex by subtilisin selectively removes carboxy-terminal sequences from the E1 and E2 proteins, which contain the cytoplasmic and transmembrane segments of the proteins and a small part of their ectodomain. The remaining ectodomains are called E1ΔS and E2ΔS. This proteolysis also leads to dissociation of the 30S complex. The cleavage products accumulate in the form of a heterodimer of the E1ΔS and E2ΔS proteins. Treatment of the heterodimer with PNGase F leads to rapid removal of carbohydrate from the E2ΔS protein and a dissociation of the complex into the constituent molecules, which can be separated by chromatography. The finding that the heterodimer and the purified E1ΔS protein both function as hemagglutinin at acid pH indicates that the E1 protein represents the alphavirus hemagglutinin. We have obtained crystals of the E1ΔS protein and are currently in the process of determining the atomic structure of this protein by the isomorphous replacement method.

Published

1999

17. In VitroViral Evolution Identifies a Critical Residue in the Alphaherpesvirus Fusion Glycoprotein B Ectodomain That Controls gH/gL-Independent Entry

Author

Vallbracht, Melina, Lötzsch, Henriette, Klupp, Barbara G., Fuchs, Walter, Vollmer, Benjamin, Grünewald, Kay, Backovic, Marija, Rey, Felix A., and Mettenleiter, Thomas C.

Abstract

The class III fusion protein glycoprotein B (gB) drives membrane fusion during entry and spread of herpesviruses. To mediate fusion, gB requires activation by the conserved gH/gL complex by a poorly defined mechanism.

Published

2021

18. Dynamics and Binding Strength of the Spike Protein of Sars-Cov-2 Probed by High-Speed Atomic Force Microscopy

Author

Sumbul, Fidan, Valotteau, Claire, Fernandez, Ignacio, Meola, Analisa, Baquero, Eduard, Kostrz, Dorota, Gosse, Charlie, Strick, Terence R., Rey, Felix, and Rico, Felix

Published

2021

19. A comparison of four serological assays for detecting anti–SARS-CoV-2 antibodies in human serum samples from different populations

Author

Grzelak, Ludivine, Temmam, Sarah, Planchais, Cyril, Demeret, Caroline, Tondeur, Laura, Huon, Christèle, Guivel-Benhassine, Florence, Staropoli, Isabelle, Chazal, Maxime, Dufloo, Jeremy, Planas, Delphine, Buchrieser, Julian, Rajah, Maaran Michael, Robinot, Remy, Porrot, Françoise, Albert, Mélanie, Chen, Kuang-Yu, Crescenzo-Chaigne, Bernadette, Donati, Flora, Anna, François, Souque, Philippe, Gransagne, Marion, Bellalou, Jacques, Nowakowski, Mireille, Backovic, Marija, Bouadma, Lila, Le Fevre, Lucie, Le Hingrat, Quentin, Descamps, Diane, Pourbaix, Annabelle, Laouénan, Cédric, Ghosn, Jade, Yazdanpanah, Yazdan, Besombes, Camille, Jolly, Nathalie, Pellerin-Fernandes, Sandrine, Cheny, Olivia, Ungeheuer, Marie-Noëlle, Mellon, Guillaume, Morel, Pascal, Rolland, Simon, Rey, Felix A., Behillil, Sylvie, Enouf, Vincent, Lemaitre, Audrey, Créach, Marie-Aude, Petres, Stephane, Escriou, Nicolas, Charneau, Pierre, Fontanet, Arnaud, Hoen, Bruno, Bruel, Timothée, Eloit, Marc, Mouquet, Hugo, Schwartz, Olivier, and van der Werf, Sylvie

Abstract

Different serological assays measuring anti–SARS-CoV-2 antibodies and their neutralizing activity in samples from individuals with severe and mild COVID-19 are compared.

Published

2020

20. Conformational Flexibility in the Immunoglobulin-Like Domain of the Hepatitis C Virus Glycoprotein E2

Author

Vasiliauskaite, Ieva, Owsianka, Ania, England, Patrick, Khan, Abdul Ghafoor, Cole, Sarah, Bankwitz, Dorothea, Foung, Steven K. H., Pietschmann, Thomas, Marcotrigiano, Joseph, Rey, Felix A., Patel, Arvind H., and Krey, Thomas

Abstract

ABSTRACTThe hepatitis C virus (HCV) glycoprotein E2 is the major target of neutralizing antibodies and is therefore highly relevant for vaccine design. Its structure features a central immunoglobulin (Ig)-like β-sandwich that contributes to the binding site for the cellular receptor CD81. We show that a synthetic peptide corresponding to a β-strand of this Ig-like domain forms an α-helix in complex with the anti-E2 antibody DAO5, demonstrating an inside-out flip of hydrophobic residues and a secondary structure change in the composite CD81 binding site. A detailed interaction analysis of DAO5 and cross-competing neutralizing antibodies with soluble E2 revealed that the Ig-like domain is trapped by different antibodies in at least two distinct conformations. DAO5 specifically captures retrovirus particles bearing HCV glycoproteins (HCVpp) and infectious cell culture-derived HCV particles (HCVcc). Infection of cells by DAO5-captured HCVpp can be blocked by a cross-competing neutralizing antibody, indicating that a single virus particle simultaneously displays E2 molecules in more than one conformation on its surface. Such conformational plasticity of the HCV E2 receptor binding site has important implications for immunogen design.IMPORTANCERecent advances in the treatment of hepatitis C virus (HCV) infection with direct-acting antiviral drugs have enabled the control of this major human pathogen. However, due to their high costs and limited accessibility in combination with the lack of awareness of the mostly asymptomatic infection, there is an unchanged urgent need for an effective vaccine. The viral glycoprotein E2 contains regions that are crucial for virus entry into the host cell, and antibodies that bind to these regions can neutralize infection. One of the major targets of neutralizing antibodies is the central immunoglobulin (Ig)-like domain within E2. We show here that this Ig-like domain is conformationally flexible at the surface of infectious HCV particles and pseudoparticles. Our study provides novel insights into the interactions of HCV E2 with the humoral immune system that should aid future vaccine development.

Published

2017

21. A nicotinic hypothesis for Covid-19 with preventive and therapeutic implications.

Author

Changeux JP, Amoura Z, Rey FA, and Miyara M

Subjects

COVID-19, Coronavirus Infections prevention & control, Humans, Pandemics prevention & control, Pneumonia, Viral prevention & control, Smoking, Transdermal Patch, Coronavirus Infections physiopathology, Coronavirus Infections therapy, Nicotine therapeutic use, Nicotinic Agonists therapeutic use, Pneumonia, Viral physiopathology, Pneumonia, Viral therapy, Receptors, Nicotinic

Abstract

SARS-CoV-2 epidemics raises a considerable issue of public health at the planetary scale. There is a pressing urgency to find treatments based upon currently available scientific knowledge. Therefore, we tentatively propose a hypothesis which hopefully might ultimately help save lives. Based on the current scientific literature and on new epidemiological data which reveal that current smoking status appears to be a protective factor against the infection by SARS-CoV-2 [1], we hypothesize that the nicotinic acetylcholine receptor (nAChR) plays a key role in the pathophysiology of Covid-19 infection and might represent a target for the prevention and control of Covid-19 infection., Competing Interests: The authors declare no competing financial interests.

Published

2020

22. Virology: holed up in a natural crystal.

Author

Rey FA

Subjects

Animals, Crystallization, Crystallography, X-Ray, Inclusion Bodies, Viral ultrastructure, Models, Molecular, Nucleopolyhedroviruses ultrastructure, Protein Conformation, Viral Proteins chemistry, Viral Proteins metabolism, Inclusion Bodies, Viral chemistry, Insecta virology, Nucleopolyhedroviruses chemistry

Published

2007