Nucleotide sequence and biological properties of a pathogenic proviral molecular clone of neurovirulent visna virus.

Intracerebral serial passage of visna virus KV1514 through three Icelandic sheep was used to select for strains with increased neurovirulence. A strain (KV1772) with increased neuropathogenicity was obtained. We isolated several proviral molecular clones from a plaque-purified biological clone of KV1772 that induced typical visna virus pathology in young sheep. One of the clones (kv72) was infectious, while others contained mutations or were permuted and required gene recombination with other proviral clones to generate infectious virus after transfection. Stable plasmids containing functional, full-length, visna virus KV1772 genomes were constructed from the proviral molecular clones. The in vitro cytopathic effects of virus derived from these clones varied depending upon the tissue origin of the infected cells. A goat cell line became persistently infected with molecularly cloned KV1772 virus; these cells resisted the cell-killing effects and continuously shed high levels of infectious virus. We determined the complete nucleotide sequence of a KV1772 provirus; it contains open reading frames for all structural and accessory genes previously identified in the visna virus genome and is highly homologous to other published visna virus sequences. Progeny of molecularly cloned KV1772 virus rapidly induced both a pronounced neuropathology and an unexpected, strong, neutralizing antibody response in experimentally infected young Icelandic sheep. The availability of stable plasmids of replication-competent and pathogenic proviral molecular clones of visna virus should now enable the study of the genetic determinants of neurovirulence and their interaction with the host immune system in visna virus pathogenesis.