Bovine leukemia virus, an animal model for the study of intrastrain variability

Abstract

Intradermal injection of a cloned bovine leukemia virus (BLV) provirus (pV344) into sheep allowed direct evaluation of intrastrain variability. A sheep was injected with pV344 DNA mixed with DEAE-dextran and became persistently infected with BLV strain 344. After 18 months, DNA was extracted from peripheral blood leukocytes from a single 0.5-ml blood sample. The long terminal repeat (LTR) and the env gene were amplified by using the polymerase chain reaction, cloned, and sequenced. Nineteen independent LTR clones (0.6-kb inserts) and 16 env clones (1-kb inserts) were analyzed. The in vivo rate of nucleotide change was 0.009%/year (two mutations out of 14,464 bp in 1.5 years), corresponding to only one amino acid change in the env gene. Five point mutations (all transitions), corresponding to a modification rate of 0.034%/year (five mutations out of 9,709 bp in 1.5 years), were identified in the LTR. As a control for Taq DNA polymerase errors, the same procedure using pV344 plasmid DNA was carried out. Out of 9,944 bp sequenced, three point mutations were found (i.e., one misincorporation in 3,315 nucleotides). These data demonstrate the extremely low level (or absence) of intrastrain variability of BLV in vivo. Consequently, BLV persistence in the infected host does not seem to result from an escape mutant strategy, in sharp contrast with the high mutation rates observed in the lentivirus family. The lack of genetic variation supports the possibility of successful vaccine against BLV and probably against the related human T-cell leukemia viruses.