Your search keyword '"BURIONI , ROBERTO"' showing total 7 results

1. Global and local envelope protein dynamics of hepatitis C virus determine broad antibody sensitivity

Author

Augestad, Elias H., Castelli, Matteo, Clementi, Nicola, Ströh, Luisa J., Krey, Thomas, Burioni, Roberto, Mancini, Nicasio, Bukh, Jens, Prentoe, Jannick, Augestad, Elias H., Castelli, Matteo, Clementi, Nicola, Ströh, Luisa J., Krey, Thomas, Burioni, Roberto, Mancini, Nicasio, Bukh, Jens, and Prentoe, Jannick

Abstract

Broad antibody sensitivity differences of hepatitis C virus (HCV) isolates and their ability to persist in the presence of neutralizing antibodies (NAbs) remain poorly understood. Here, we show that polymorphisms within glycoprotein E2, including hypervariable region 1 (HVR1) and antigenic site 412 (AS412), broadly affect NAb sensitivity by shifting global envelope protein conformation dynamics between theoretical "closed,"neutralization-resistant and "open,"neutralization-sensitive states. The conformational space of AS412 was skewed toward β-hairpin-like conformations in closed states, which also depended on HVR1, assigning function to these enigmatic E2 regions. Scavenger receptor class B, type I entry dependency of HCV was associated with NAb resistance and correlated perfectly with decreased virus propensity to interact with HCV co-receptor CD81, indicating that decreased NAb sensitivity resulted in a more complex entry pathway. This link between global E1/E2 states and functionally distinct AS412 conformations has important implications for targeting AS412 in rational HCV vaccine designs.

Published

2020

2. HCV E2 core structures and mAbs: something is still missing

Author

Castelli, Matteo, Clementi, Nicola, Sautto, Giuseppe A., Pfaff, Jennifer, Kahle, Kristen M., Barnes, Trevor, Doranz, Benjamin J., Dal Peraro, Matteo, Clementi, Massimo, Burioni, Roberto, Mancini, Nicasio, Castelli, Matteo, Clementi, Nicola, Sautto, Giuseppe A., Pfaff, Jennifer, Kahle, Kristen M., Barnes, Trevor, Doranz, Benjamin J., Dal Peraro, Matteo, Clementi, Massimo, Burioni, Roberto, and Mancini, Nicasio

Abstract

The lack of structural information on hepatitis C virus (HCV) surface proteins has so far hampered the development of effective vaccines. Recently, two crystallographic structures have described the core portion (E2c) of E2 surface glycoprotein, the primary mediator of HCV entry. Despite the importance of these studies, the E2 overall structure is still unknown and, most importantly, several biochemical and functional studies are in disagreement with E2c structures. Here, the main literature will be discussed and an alternative disulfide bridge pattern will be proposed, based on unpublished human monoclonal antibody reactivity. A modeling strategy aiming at recapitulating the available structural and functional studies of E2 will also be proposed.

Published

2015

3. HCV E2 core structures and mAbs: something is still missing

Author

Castelli, Matteo, Clementi, Nicola, Sautto, Giuseppe A., Pfaff, Jennifer, Kahle, Kristen M., Barnes, Trevor, Doranz, Benjamin J., Dal Peraro, Matteo, Clementi, Massimo, Burioni, Roberto, Mancini, Nicasio, Castelli, Matteo, Clementi, Nicola, Sautto, Giuseppe A., Pfaff, Jennifer, Kahle, Kristen M., Barnes, Trevor, Doranz, Benjamin J., Dal Peraro, Matteo, Clementi, Massimo, Burioni, Roberto, and Mancini, Nicasio

Abstract

The lack of structural information on hepatitis C virus (HCV) surface proteins has so far hampered the development of effective vaccines. Recently, two crystallographic structures have described the core portion (E2c) of E2 surface glycoprotein, the primary mediator of HCV entry. Despite the importance of these studies, the E2 overall structure is still unknown and, most importantly, several biochemical and functional studies are in disagreement with E2c structures. Here, the main literature will be discussed and an alternative disulfide bridge pattern will be proposed, based on unpublished human monoclonal antibody reactivity. A modeling strategy aiming at recapitulating the available structural and functional studies of E2 will also be proposed.

Published

2015

4. Entry inhibition of HSV-1 and -2 protects mice from viral lethal challenge

Author

Clementi, Nicola, Criscuolo, Elena, Cappelletti, Francesca, Quaranta, Paola, Pistello, Mauro, Diotti, Roberta A., Sautto, Giuseppe A., Tarr, Alexander W., Mailland, Federico, Concas, Daniela, Burioni, Roberto, Clementi, Massimo, Mancini, Nicasio, Clementi, Nicola, Criscuolo, Elena, Cappelletti, Francesca, Quaranta, Paola, Pistello, Mauro, Diotti, Roberta A., Sautto, Giuseppe A., Tarr, Alexander W., Mailland, Federico, Concas, Daniela, Burioni, Roberto, Clementi, Massimo, and Mancini, Nicasio

Abstract

The present study focused on inhibition of HSV-1 and -2 replication and pathogenesis in vitro and in vivo, through the selective targeting of the envelope glycoprotein D. Firstly, a human monoclonal antibody (Hu-mAb#33) was identified that could neutralise both HSV-1 and -2 at nM concentrations, including clinical isolates from patients affected by different clinical manifestations and featuring different susceptibility to acyclovir in vitro. Secondly, the potency of inhibition of both infection by cell-free viruses and cell-to-cell virus transmission was also assessed. Finally, mice receiving a single systemic injection of Hu-mAb#33 were protected from death and severe clinical manifestations following both ocular and vaginal HSV-1 and -2 lethal challenge. These results pave the way for further studies reassessing the importance of HSV entry as a novel target for therapeutic intervention and inhibition of cell-to-cell virus transmission.

5. Entry inhibition of HSV-1 and -2 protects mice from viral lethal challenge

Author

Clementi, Nicola, Criscuolo, Elena, Cappelletti, Francesca, Quaranta, Paola, Pistello, Mauro, Diotti, Roberta A., Sautto, Giuseppe A., Tarr, Alexander W., Mailland, Federico, Concas, Daniela, Burioni, Roberto, Clementi, Massimo, Mancini, Nicasio, Clementi, Nicola, Criscuolo, Elena, Cappelletti, Francesca, Quaranta, Paola, Pistello, Mauro, Diotti, Roberta A., Sautto, Giuseppe A., Tarr, Alexander W., Mailland, Federico, Concas, Daniela, Burioni, Roberto, Clementi, Massimo, and Mancini, Nicasio

Abstract

The present study focused on inhibition of HSV-1 and -2 replication and pathogenesis in vitro and in vivo, through the selective targeting of the envelope glycoprotein D. Firstly, a human monoclonal antibody (Hu-mAb#33) was identified that could neutralise both HSV-1 and -2 at nM concentrations, including clinical isolates from patients affected by different clinical manifestations and featuring different susceptibility to acyclovir in vitro. Secondly, the potency of inhibition of both infection by cell-free viruses and cell-to-cell virus transmission was also assessed. Finally, mice receiving a single systemic injection of Hu-mAb#33 were protected from death and severe clinical manifestations following both ocular and vaginal HSV-1 and -2 lethal challenge. These results pave the way for further studies reassessing the importance of HSV entry as a novel target for therapeutic intervention and inhibition of cell-to-cell virus transmission.

6. Entry inhibition of HSV-1 and -2 protects mice from viral lethal challenge

Author

Clementi, Nicola, Criscuolo, Elena, Cappelletti, Francesca, Quaranta, Paola, Pistello, Mauro, Diotti, Roberta A., Sautto, Giuseppe A., Tarr, Alexander W., Mailland, Federico, Concas, Daniela, Burioni, Roberto, Clementi, Massimo, Mancini, Nicasio, Clementi, Nicola, Criscuolo, Elena, Cappelletti, Francesca, Quaranta, Paola, Pistello, Mauro, Diotti, Roberta A., Sautto, Giuseppe A., Tarr, Alexander W., Mailland, Federico, Concas, Daniela, Burioni, Roberto, Clementi, Massimo, and Mancini, Nicasio

Abstract

The present study focused on inhibition of HSV-1 and -2 replication and pathogenesis in vitro and in vivo, through the selective targeting of the envelope glycoprotein D. Firstly, a human monoclonal antibody (Hu-mAb#33) was identified that could neutralise both HSV-1 and -2 at nM concentrations, including clinical isolates from patients affected by different clinical manifestations and featuring different susceptibility to acyclovir in vitro. Secondly, the potency of inhibition of both infection by cell-free viruses and cell-to-cell virus transmission was also assessed. Finally, mice receiving a single systemic injection of Hu-mAb#33 were protected from death and severe clinical manifestations following both ocular and vaginal HSV-1 and -2 lethal challenge. These results pave the way for further studies reassessing the importance of HSV entry as a novel target for therapeutic intervention and inhibition of cell-to-cell virus transmission.

7. Entry inhibition of HSV-1 and -2 protects mice from viral lethal challenge

Author

Clementi, Nicola, Criscuolo, Elena, Cappelletti, Francesca, Quaranta, Paola, Pistello, Mauro, Diotti, Roberta A., Sautto, Giuseppe A., Tarr, Alexander W., Mailland, Federico, Concas, Daniela, Burioni, Roberto, Clementi, Massimo, Mancini, Nicasio, Clementi, Nicola, Criscuolo, Elena, Cappelletti, Francesca, Quaranta, Paola, Pistello, Mauro, Diotti, Roberta A., Sautto, Giuseppe A., Tarr, Alexander W., Mailland, Federico, Concas, Daniela, Burioni, Roberto, Clementi, Massimo, and Mancini, Nicasio

Abstract

The present study focused on inhibition of HSV-1 and -2 replication and pathogenesis in vitro and in vivo, through the selective targeting of the envelope glycoprotein D. Firstly, a human monoclonal antibody (Hu-mAb#33) was identified that could neutralise both HSV-1 and -2 at nM concentrations, including clinical isolates from patients affected by different clinical manifestations and featuring different susceptibility to acyclovir in vitro. Secondly, the potency of inhibition of both infection by cell-free viruses and cell-to-cell virus transmission was also assessed. Finally, mice receiving a single systemic injection of Hu-mAb#33 were protected from death and severe clinical manifestations following both ocular and vaginal HSV-1 and -2 lethal challenge. These results pave the way for further studies reassessing the importance of HSV entry as a novel target for therapeutic intervention and inhibition of cell-to-cell virus transmission.