Mechanisms of hepatitis C virus escape from vaccine-relevant neutralizing antibodies

Department of Immunology and Microbiology

Mechanisms of hepatitis C virus escape from vaccine-relevant neutralizing antibodies

Research output: Contribution to journal › Review › Research › peer-review

Standard

Mechanisms of hepatitis C virus escape from vaccine-relevant neutralizing antibodies. / Velázquez-Moctezuma, Rodrigo; Augestad, Elias H.; Castelli, Matteo; Olesen, Christina Holmboe; Clementi, Nicola; Clementi, Massimo; Mancini, Nicasio; Prentoe, Jannick.

In: Vaccines, Vol. 9, No. 3, 291, 2021.

Research output: Contribution to journal › Review › Research › peer-review

Harvard

Velázquez-Moctezuma, R, Augestad, EH, Castelli, M, Olesen, CH, Clementi, N, Clementi, M, Mancini, N & Prentoe, J 2021, 'Mechanisms of hepatitis C virus escape from vaccine-relevant neutralizing antibodies', Vaccines, vol. 9, no. 3, 291. https://doi.org/10.3390/vaccines9030291

APA

Velázquez-Moctezuma, R., Augestad, E. H., Castelli, M., Olesen, C. H., Clementi, N., Clementi, M., Mancini, N., & Prentoe, J. (2021). Mechanisms of hepatitis C virus escape from vaccine-relevant neutralizing antibodies. Vaccines, 9(3), [291]. https://doi.org/10.3390/vaccines9030291

Vancouver

Velázquez-Moctezuma R, Augestad EH, Castelli M, Olesen CH, Clementi N, Clementi M et al. Mechanisms of hepatitis C virus escape from vaccine-relevant neutralizing antibodies. Vaccines. 2021;9(3). 291. https://doi.org/10.3390/vaccines9030291

Author

Velázquez-Moctezuma, Rodrigo ; Augestad, Elias H. ; Castelli, Matteo ; Olesen, Christina Holmboe ; Clementi, Nicola ; Clementi, Massimo ; Mancini, Nicasio ; Prentoe, Jannick. / Mechanisms of hepatitis C virus escape from vaccine-relevant neutralizing antibodies. In: Vaccines. 2021 ; Vol. 9, No. 3.

Bibtex

@article{295c5fba209a4813b1caf3d666eccace,

title = "Mechanisms of hepatitis C virus escape from vaccine-relevant neutralizing antibodies",

abstract = "Hepatitis C virus (HCV) is a major causative agent of acute and chronic hepatitis. It is estimated that 400,000 people die every year from chronic HCV infection, mostly from severe liver-related diseases such as cirrhosis and liver cancer. Although HCV was discovered more than 30 years ago, an efficient prophylactic vaccine is still missing. The HCV glycoprotein complex, E1/E2, is the principal target of neutralizing antibodies (NAbs) and, thus, is an attractive antigen for B-cell vaccine design. However, the high genetic variability of the virus necessitates the identification of conserved epitopes. Moreover, the high intrinsic mutational capacity of HCV allows the virus to continually escape broadly NAbs (bNAbs), which is likely to cause issues with vaccine-resistant variants. Several studies have assessed the barrier-to-resistance of vaccine-relevant bNAbs in vivo and in vitro. Interestingly, recent studies have suggested that escape substitutions can confer antibody resistance not only by direct modification of the epitope but indirectly through allosteric effects, which can be grouped based on the breadth of these effects on antibody susceptibility. In this review, we summarize the current understanding of HCV-specific NAbs, with a special focus on vaccine-relevant bNAbs and their targets. We highlight antibody escape studies pointing out the different methodologies and the escape mutations identified thus far. Finally, we analyze the antibody escape mechanisms of envelope protein escape substitutions and polymorphisms according to the most recent evidence in the HCV field. The accumulated knowledge in identifying bNAb epitopes as well as assessing barriers to resistance and elucidating relevant escape mechanisms may prove critical in the successful development of an HCV B-cell vaccine.",

keywords = "Antibody escape, B-cell vaccine, Hepatitis C virus, Virus neutralization",

author = "Rodrigo Vel{\'a}zquez-Moctezuma and Augestad, {Elias H.} and Matteo Castelli and Olesen, {Christina Holmboe} and Nicola Clementi and Massimo Clementi and Nicasio Mancini and Jannick Prentoe",

year = "2021",

doi = "10.3390/vaccines9030291",

language = "English",

volume = "9",

journal = "Vaccines",

issn = "2076-393X",

publisher = "MDPI AG",

number = "3",

}

RIS

TY - JOUR

T1 - Mechanisms of hepatitis C virus escape from vaccine-relevant neutralizing antibodies

AU - Velázquez-Moctezuma, Rodrigo

AU - Augestad, Elias H.

AU - Castelli, Matteo

AU - Olesen, Christina Holmboe

AU - Clementi, Nicola

AU - Clementi, Massimo

AU - Mancini, Nicasio

AU - Prentoe, Jannick

PY - 2021

Y1 - 2021

N2 - Hepatitis C virus (HCV) is a major causative agent of acute and chronic hepatitis. It is estimated that 400,000 people die every year from chronic HCV infection, mostly from severe liver-related diseases such as cirrhosis and liver cancer. Although HCV was discovered more than 30 years ago, an efficient prophylactic vaccine is still missing. The HCV glycoprotein complex, E1/E2, is the principal target of neutralizing antibodies (NAbs) and, thus, is an attractive antigen for B-cell vaccine design. However, the high genetic variability of the virus necessitates the identification of conserved epitopes. Moreover, the high intrinsic mutational capacity of HCV allows the virus to continually escape broadly NAbs (bNAbs), which is likely to cause issues with vaccine-resistant variants. Several studies have assessed the barrier-to-resistance of vaccine-relevant bNAbs in vivo and in vitro. Interestingly, recent studies have suggested that escape substitutions can confer antibody resistance not only by direct modification of the epitope but indirectly through allosteric effects, which can be grouped based on the breadth of these effects on antibody susceptibility. In this review, we summarize the current understanding of HCV-specific NAbs, with a special focus on vaccine-relevant bNAbs and their targets. We highlight antibody escape studies pointing out the different methodologies and the escape mutations identified thus far. Finally, we analyze the antibody escape mechanisms of envelope protein escape substitutions and polymorphisms according to the most recent evidence in the HCV field. The accumulated knowledge in identifying bNAb epitopes as well as assessing barriers to resistance and elucidating relevant escape mechanisms may prove critical in the successful development of an HCV B-cell vaccine.

AB - Hepatitis C virus (HCV) is a major causative agent of acute and chronic hepatitis. It is estimated that 400,000 people die every year from chronic HCV infection, mostly from severe liver-related diseases such as cirrhosis and liver cancer. Although HCV was discovered more than 30 years ago, an efficient prophylactic vaccine is still missing. The HCV glycoprotein complex, E1/E2, is the principal target of neutralizing antibodies (NAbs) and, thus, is an attractive antigen for B-cell vaccine design. However, the high genetic variability of the virus necessitates the identification of conserved epitopes. Moreover, the high intrinsic mutational capacity of HCV allows the virus to continually escape broadly NAbs (bNAbs), which is likely to cause issues with vaccine-resistant variants. Several studies have assessed the barrier-to-resistance of vaccine-relevant bNAbs in vivo and in vitro. Interestingly, recent studies have suggested that escape substitutions can confer antibody resistance not only by direct modification of the epitope but indirectly through allosteric effects, which can be grouped based on the breadth of these effects on antibody susceptibility. In this review, we summarize the current understanding of HCV-specific NAbs, with a special focus on vaccine-relevant bNAbs and their targets. We highlight antibody escape studies pointing out the different methodologies and the escape mutations identified thus far. Finally, we analyze the antibody escape mechanisms of envelope protein escape substitutions and polymorphisms according to the most recent evidence in the HCV field. The accumulated knowledge in identifying bNAb epitopes as well as assessing barriers to resistance and elucidating relevant escape mechanisms may prove critical in the successful development of an HCV B-cell vaccine.

KW - Antibody escape

KW - B-cell vaccine

KW - Hepatitis C virus

KW - Virus neutralization

U2 - 10.3390/vaccines9030291

DO - 10.3390/vaccines9030291

M3 - Review

C2 - 33804732

AN - SCOPUS:85103594252

VL - 9

JO - Vaccines

JF - Vaccines

SN - 2076-393X

IS - 3

M1 - 291

ER -

ID: 259879663