Abstract
Mutations that occurred during adaptation of human cytomegalovirus to cell culture were monitored by isolating four strains from clinical samples, passaging them in various cell types and sequencing ten complete virus genomes from the final passages. Mutational dynamics were assessed by targeted sequencing of intermediate passages and the original clinical samples. Gene RL13 and the UL128 locus (UL128L, consisting of genes UL128, UL130 and UL131A) mutated in all strains. Mutations in RL13 occurred in fibroblast, epithelial and endothelial cells, whereas those in UL128L were limited to fibroblasts and detected later than those in RL13. In addition, a region containing genes UL145, UL144, UL142, UL141 and UL140 mutated in three strains. All strains exhibited numerous mutations in other regions of the genome, with a preponderance in parts of the inverted repeats. An investigation was carried out on the kinetic growth yields of viruses derived from selected passages that were predominantly non-mutated in RL13 and UL128L (RL13+UL128L+), or that were largely mutated in RL13 (RL13−UL128L+) or both RL13 and UL128L (RL13−UL128L−). RL13−UL128L− viruses produced greater yields of infectious progeny than RL13−UL128L+ viruses, and RL13−UL128L+ viruses produced greater yields than RL13+UL128L+ viruses. These results suggest strongly that RL13 and UL128L exert at least partially independent suppressive effects on growth in fibroblasts. As all isolates proved genetically unstable in all cell types tested, caution is advised in choosing and monitoring strains for experimental studies of vulnerable functions, particularly those involved in cell tropism, immune evasion or growth temperance.
Highlights
Human cytomegalovirus (HCMV; species Human herpesvirus 5) can infect most major organs and a wide range of cell types (Bissinger et al, 2002; Plachter et al, 1996; Sinzger et al, 1995, 2008a)
As multiple HCMV strains are common in clinical samples, 14 isolates were tested during isolation by PCR amplification of hypervariable genes UL146 and UL139, followed by sequencing the inserts in several plasmids (Bradley et al, 2008)
The strains were subjected weekly to collateral passaging (CP) in the three cell types by coculture until at least passage 50 (p50), except that passaging of strain U11 in endothelial cells failed at an early stage for unknown reasons
Summary
Human cytomegalovirus (HCMV; species Human herpesvirus 5) can infect most major organs and a wide range of cell types (Bissinger et al, 2002; Plachter et al, 1996; Sinzger et al, 1995, 2008a). This broad tropism is lost during adaptation of the virus to fibroblasts in cell culture. Adaptation to fibroblasts is associated strongly with mutations in a region encompassing three small genes at nt 176309–178146 in reference strain Merlin The mutations are predicted to ablate gene functions, and include nucleotide substitutions that introduce in-frame translational termination codons or compromise splicing, small insertions or deletions (indels) that introduce frameshifts into coding
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