Role of the host immune response in selection of equine infectious anemia virus variants

Abstract

Equine infectious anemia virus was isolated from peripheral blood leukocytes collected during two early febrile cycles of an experimentally infected horse. RNase T1-resistant oligonucleotide fingerprint analyses indicated that the nucleotide sequences of the isolates differed by approximately 0.25% and that the differences appeared randomly distributed throughout the genome. Serum collected in the interval between virus isolations was able to distinguish the isolates by membrane immunofluorescence on live cells. However, no neutralizing antibody was detected in the interval between virus isolations. In fact, multiple clinical cycles occurred before the development of a neutralizing antibody response, indicating that viral neutralization might not be the mechanism for selection of antigenic variants. The ability of early immune sera to recognize variant specific antigens on the surface of infected cells suggested that immune selection occurs through recognition and elimination of certain virus-infected cells. Alternately, the random distribution of the genomic differences observed between the two isolates may indicate that equine infectious anemia virus variants emerge as a result of nonimmunological selection processes.