Long-Term Evolution of the Hypervariable Region of Hepatitis C Virus in a Common-Source-Infected Cohort

Author:

McAllister Jane1,Casino Carmela1,Davidson Fiona2,Power Joan3,Lawlor Emer3,Yap Peng Lee2,Simmonds Peter1,Smith Donald B.1

Affiliation:

1. Department of Medical Microbiology, University of Edinburgh Medical School, Edinburgh EH8 9AG,1 and

2. Edinburgh and South East Scotland Blood Transfusion Service, Edinburgh EH3 9HB,2 Scotland, and

3. Irish Blood Transfusion Board, St. Finbarr’s Hospital Cork and Pelican House, Dublin, Ireland3

Abstract

ABSTRACT The long-term evolution of the hepatitis C virus hypervariable region (HVR) and flanking regions of the E1 and E2 envelope proteins have been studied in a cohort of women infected from a common source of anti-D immunoglobulin. Whereas virus sequences in the infectious source were relatively homogeneous, distinct HVR variants were observed in each anti-D recipient, indicating that this region can evolve in multiple directions from the same point. Where HVR variants with dissimilar sequences were present in a single individual, the frequency of synonymous substitution in the flanking regions suggested that the lineages diverged more than a decade previously. Even where a single major HVR variant was present in an infected individual, this lineage was usually several years old. Multiple lineages can therefore coexist during long periods of chronic infection without replacement. The characteristics of amino acid substitution in the HVR were not consistent with the random accumulation of mutations and imply that amino acid replacement in the HVR was strongly constrained. Another variable region of E2 centered on codon 60 shows similar constraints, while HVR2 was relatively unconstrained. Several of these features are difficult to explain if a neutralizing immune response against the HVR is the only selective force operating on E2. The impact of PCR artifacts such as nucleotide misincorporation and the shuffling of dissimilar templates is discussed.

Publisher

American Society for Microbiology

Subject

Virology,Insect Science,Immunology,Microbiology

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