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Analysis of Serine Codon Conservation Reveals Diverse Phenotypic Constraints on Hepatitis C Virus Glycoprotein Evolution

Brown, Richard J.P.; Koutsoudakisu, George; Urbanowicz, Richard A.; Mirza, Deeman; Ginkel, Corinne; Riebesehl, Nina; Calland, Noémie; Albecka, Anna; Price, Louisa; Hudson, Natalia; Descamps, Véronique; Backx, Matthijs; Patrick McClure, C.; Duverlie, Gilles; Pecheur, Eve Isabelle; Dubuisson, Jean; Perez-del-Pulgar, Sofia; Forns, Xavier; Steinmann, Eike; Tarr, Alexander W.; Pietschmann, Thomas; Ball, Jonathan K.

Authors

Richard J.P. Brown

George Koutsoudakisu

Richard A. Urbanowicz

Deeman Mirza

Corinne Ginkel

Nina Riebesehl

Noémie Calland

Anna Albecka

Louisa Price

Natalia Hudson

Véronique Descamps

Matthijs Backx

C. Patrick McClure

Gilles Duverlie

Eve Isabelle Pecheur

Jean Dubuisson

Sofia Perez-del-Pulgar

Xavier Forns

Eike Steinmann

Thomas Pietschmann

JONATHAN BALL jonathan.ball@nottingham.ac.uk
Professor of Molecular Virology



Abstract

Serine is encoded by two divergent codon types, UCN and AGY, which are not interchangeable by a single nucleotide substitution. Switching between codon types therefore occurs via intermediates (threonine or cysteine) or via simultaneous tandem substitutions. Hepatitis C virus (HCV) chronically infects 2 to 3% of the global population. The highly variable glycoproteins E1 and E2 decorate the surface of the viral envelope, facilitate cellular entry, and are targets for host immunity. Comparative sequence analysis of globally sampled E1E2 genes, coupled with phylogenetic analysis, reveals the signatures of multiple archaic codonswitching events at seven highly conserved serine residues. Limited detection of intermediate phenotypes indicates that associated fitness costs restrict their fixation in divergent HCV lineages. Mutational pathways underlying codon switching were probed via reverse genetics, assessing glycoprotein functionality using multiple in vitro systems. These data demonstrate selection against intermediate phenotypes can act at the structural/functional level, with some intermediates displaying impaired virion assembly and/or decreased capacity for target cell entry. These effects act in residue/isolate-specific manner. Selection against intermediates is also provided by humoral targeting, with some intermediates exhibiting increased epitope exposure and enhanced neutralization sensitivity, despite maintaining a capacity for target cell entry. Thus, purifying selection against intermediates limits their frequencies in globally sampled strains, with divergent functional constraints at the protein level restricting the fixation of deleterious mutations. Overall our study provides an experimental framework for identification of barriers limiting viral substitutional evolution and indicates that serine codon-switching represents a genomic "fossil record" of historical purifying selection against E1E2 intermediate phenotypes.

Citation

Brown, R. J., Koutsoudakisu, G., Urbanowicz, R. A., Mirza, D., Ginkel, C., Riebesehl, N., …Ball, J. K. (2014). Analysis of Serine Codon Conservation Reveals Diverse Phenotypic Constraints on Hepatitis C Virus Glycoprotein Evolution. Journal of Virology, 88(1), 667-678. https://doi.org/10.1128/JVI.01745-13

Journal Article Type Article
Acceptance Date Oct 23, 2013
Online Publication Date Dec 10, 2014
Publication Date 2014-01
Deposit Date Nov 9, 2022
Publicly Available Date Nov 15, 2022
Journal Journal of Virology
Print ISSN 0022-538X
Electronic ISSN 1098-5514
Publisher American Society for Microbiology
Peer Reviewed Peer Reviewed
Volume 88
Issue 1
Pages 667-678
DOI https://doi.org/10.1128/JVI.01745-13
Keywords Virology; Insect Science; Immunology; Microbiology
Public URL https://nottingham-repository.worktribe.com/output/3129438
Publisher URL https://journals.asm.org/doi/10.1128/JVI.01745-13

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