Cumulative mutations in the genome of Echovirus 6 during establishment of a chronic infection in precursors of glial cells

Abstract

Although Enteroviruses are mainly described as responsible for acute diseases, their role in severe chronic pathology has been also established. Echovirus 6-like sequences have been detected by PCR analysis in central nervous system specimens from patients presenting with Amyotrophic Lateral Sclerosis. These findings suggested a persistent infection with viruses that underwent, genetic changes precluding viral particle release. To support this hypothesis, we developed a model system of Echovirus 6 chronic infection in precursors of glial cells. The nucleotide sequences of the 5'non-translated region (5'NTR), 2A and 3C regions of the virus developing persistent genome were analysed during establishment of the chronic phenotype. This study revealed that at day 160 of chronic infection, several mutations were observed: one mutation at nucleotide 108 upstream the domain II of the internal ribosome entry site (IRES) structure, one mutation at nucleotide 30 in the cloverleaf, and two mutations in the 2A region (translated in His48 to Tyr, and Ile 123 to Met). No mutations were detected in the 3C region. The impact of these mutations on viral replication have been analysed in a rabbit reticulocyte lysate (RRL) translation assay supplemented with HeLa cell lysate, and by plaque assay. Viruses with these mutations displayed a phenotype with a significant reduction of replication, while in vitro translation was not affected by the nucleotide 108 mutation. This model allowed the description of molecular changes observed in the genome of Echovirus 6 during the establishment of a chronic infection phenotype, and may be helpful for the understanding of the mechanisms leading Enteroviruses to develop chronic infections in man.