Abstract
Cytomegaloviruses (order Herpesvirales) display remarkable species-specificity as a result of long-term co-evolution with their mammalian hosts. Human cytomegalovirus (HCMV) is exquisitely adapted to our species and displays high genetic diversity. We leveraged information on inter-species divergence of primate-infecting cytomegaloviruses and intra-species diversity of clinical isolates to provide a genome-wide picture of HCMV adaptation across different time-frames. During adaptation to the human host, core viral genes were commonly targeted by positive selection. Functional characterization of adaptive mutations in the primase gene (UL70) indicated that selection favored amino acid replacements that decrease viral replication in human fibroblasts, suggesting evolution towards viral temperance. HCMV intra-species diversity was largely governed by immune system-driven selective pressure, with several adaptive variants located in antigenic domains. A significant excess of positively selected sites was also detected in the signal peptides (SPs) of viral proteins, indicating that, although they are removed from mature proteins, SPs can contribute to viral adaptation. Functional characterization of one of these SPs indicated that adaptive variants modulate the timing of cleavage by the signal peptidase and the dynamics of glycoprotein intracellular trafficking. We thus used evolutionary information to generate experimentally-testable hypotheses on the functional effect of HCMV genetic diversity and we define modulators of viral phenotypes.
Highlights
Cytomegaloviruses (CMVs, family Herpesviridae) infect many mammals, including humans and other primates [1]
We performed a two-tier analysis of Human cytomegalovirus (HCMV) evolution, by describing selective events that occurred during HCMV adaptation to our species and by identifying more recently emerged adaptive variants in clinical isolates
We show that distinct viral genes were targeted by natural selection over different
Summary
Cytomegaloviruses (CMVs, family Herpesviridae) infect many mammals, including humans and other primates [1]. Human cytomegalovirus (HCMV) infection is very common, with worldwide seroprevalence ranging from 56% to 94% [2]. Protein-coding genes occupy the great majority of the HCMV genome and are generally divided into core genes, which are shared by all herpesviruses, and non-core or sub-core genes [7,8,9,10]. These are specific to herpesvirus genera or even to CMV species and, in contrast to core genes, are often dispensable for viral growth in cell culture [9, 11]. Several non-core proteins play important roles during infection in vivo, indicating that most genes contribute to the success of CMVs in natural hosts [1, 9, 12]
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