Structural proteins of equine infectious anemia virus.

Equine infectious anemia virus was found to be comprised of fourteen polypeptides of molecular weight ranging from 10,000 to 79,000. Eighty percent of the virion protein was accounted for by five polypeptides, including two non-glycosylated components (p29 and p13) comprising one-half of the virion protein and three glycoproteins (gp77/79, gp64, and gp40).     

Characterization of RNA from equine infectious anemia virus.

The genome of equine infectious anemia virus, a nononcogenic retrovirus, has been characterized by velocity sedimentation, electrophoresis in polyacrylamide gels, buoyant density in CS2SO4, and susceptibility to nuclease digestion. The nucleic acid of purified virus was resolved by sedimentation analysis into a fast-sedimenting genome component, which comprises about two-thirds of the virion RNA, and a slow-sedimenting RNA, which is probably comprised of host-derived tRNA and a trace amount of 5S RNA. The fast-sedimenting RNA had a sedimentation coefficient of 62S and a molecular weight of 5.4 X 10(6) to 5.6 X 10(6), as determined by sedimentation velocity and electrophoretic mobility. Upon heat denaturation, [3H]uridine-labeled 62S RNA dissociated into material comprised of 90 to 95% single-stranded species, sedimenting predominantly at 34S, with a molecular weight of 2.7 X 10(6) to 2.9 X 10(6) and 5 to 10% 4S RNA. The 62S RNA was predominantly single-stranded but contained double-stranded regions, as indicated by partial resistance to RNase IA and SI nuclease and by a lower buoyant density in CS2SO4 than that of the single-stranded 34S RNA derived by heat denaturation. These data indicated that the viral genome consisted of two 34S subunits of single-stranded RNA held in a high-molecular-weight complex with 4S RNA by a mechanism involving a small degree of base pairing. Thus, the structure of equine infectious anemia virus RNA is similar to that of other retroviruses.     

Peripheral blood admixture in bone marrow aspirates

A simple method is described by which the degree to which a bone marrow aspirate is diluted with peripheral blood, the admixture of peripheral blood leukocytes in the aspirate, and the true cellularity of bone marrow at the aspiration site can be estimated quantitatively. A highly significant correlation is shown to exist between the true bone marrow cellularity and the number of hemopoietic cells in the bone marrow aspirate. This correlation can be described by an exponential regression equation (r = 0.6997; p less than or equal to 0.001). The degree of bone marrow dilution with peripheral blood does not depend on the initial bone marrow cellularity and is devoid of diagnostic value. It fluctuates over a wide range (1.2- to 6.3-fold). The admixture of peripheral blood leukocytes has been found to be small (0.05%-9.7%) in most cases studied and much higher in those cases where the cellularity is low while the dilution is high.     

Regulation of equine infectious anemia virus expression

Equine infectious anemia virus (EIAV) is an ungulate lentivirus that is related to human immunodeficiency virus (HIV). Much of the understanding of lentiviral gene regulation comes from studies using HIV. HIV studies have provided insights into molecular regulation of EIAV expression; however, much of the regulation of EIAV expression stands in stark contrast to that of HIV. This review provides an overview of the current state of knowledge of EIAV regulation by comparing and contrasting EIAV gene regulation to HIV. The role of EIAV gene regulation is discussed in relation to EIAV pathogenesis.     

Viral DNA in horses infected with equine infectious anemia virus.

The amount and distribution of viral DNA were established in a horse acutely infected with the Wyoming strain of equine infectious anemia virus (EIAV). The highest concentration of viral DNA were found in the liver, lymph nodes, bone marrow, and spleen. The kidney, choroid plexus, and peripheral blood leukocytes also contained viral DNA, but at a lower level. It is estimated that at day 16 postinoculation, almost all of the viral DNA was located in the tissues, with the liver alone containing about 90 times more EIAV DNA than the peripheral blood leukocytes did. Assuming a monocyte-macrophage target, each infected cell contained multiple copies of viral DNA (between 6 and 60 copies in liver Kupffer cells). At day 16 postinoculation, most of the EIAV DNA was not integrated into host DNA, but existed in both linear and circular unintegrated forms. In contrast to acute infection, viral DNA was not detectable in tissues from asymptomatic horses with circulating antibody to EIAV.     

RNA-dependent DNA polymerase associated with equine infectious anemia virus.

Equine infectious anemia (EIAV) is shown to have an associated RNA-instructed DNA polymerase similar in its cofactor requirements and reaction conditions to the RNA tumor virus DNA polymerases. Demonstrating this DNA polymerase activity requires a critical concentration of a nonionic detergent, all four deoxyribonucleoside triphosphates, and a divalent metal ion. The reaction is sensitive to RNase, and a substantial fraction of the FNA synthesized is complementary to viral RNA. The detection of a complex of tritium-labeled polymerase product DNA-template RNA, which sedimented at 60S to 70S, provided evidence that EIAV contains high-molecular-weight RNA. These results, obtained with both virus propagated in cell culture and virus from the serum of an experimentally infected horse, indicate that EIAV may properly be considered a member of the family Retroviridae. They may also be pertinent to the mechanism(s) of viral persistence and periodic recrudescence of disease in chronically infected horses.     

A primary production deficit in the thrombocytopenia of equine infectious anemia.

The purpose of this study was to identify the mechanisms responsible for the thrombocytopenia that develops following infection of horses by the lentivirus equine infectious anemia virus (EIAV). Immunocompetent Arabian foals and Arabian foals with severe combined immunodeficiency (SCID), which lack functional B and T lymphocytes, were experimentally infected with EIAV. Levels of viremia and a number of clinical and hematologic parameters were examined prior to and following infection. Thrombocytopenia was not dependent on the immune response: SCID foals were affected as severely as immunocompetent foals. Production of platelets, measured by metabolic incorporation of radioactive label, was significantly reduced. The decrease ranged from 35 to 89% in three SCID and two immunocompetent foals examined. Platelet survival, measured by 51Cr labeling, also declined following infection in both SCID and immunocompetent foals: 51 and 68%, respectively, relative to the preinfection life spans. The difference between immunocompetent and immunodeficient foals was not statistically significant. The number of megakaryocytes (MK) per square millimeter of bone marrow, determined by digitizing morphometry, was not significantly altered in either SCID or immunocompetent thrombocytopenic foals. Numbers of denuded MK nuclei per unit area increased, but the elevation was not statistically significant. No evidence for viral replication in MK was found. Three different parameters of intravascular coagulation (activated prothombin time, fibrin degradation products, and one-step prothombin time) remained normal until after platelet numbers had declined significantly, arguing against an important role for disseminated intravascular coagulation. The findings indicate that EIAV induces thrombocytopenia principally through an indirect, noncytocidal suppressive effect on platelet production, the mechanism of which is unknown. A shortening of platelet life span apparently contributes moderately to the platelet deficit as well. The shortening of platelet life span is multifactorial in origin, including both mechanisms that depend on an active immune response and those that do not.