Phylogenetic analyses indicate little variation among reticuloendotheliosis viruses infecting avian species, including the endangered Attwater's prairie chicken.

Reticuloendotheliosis virus infection, which typically causes systemic lymphomas and high mortality in the endangered Attwater's prairie chicken, has been described as a major obstacle in repopulation efforts of captive breeding facilities in Texas. Although antigenic relationships among reticuloendotheliosis virus (REV) strains have been previously determined, phylogenetic relationships have not been reported. The pol and env of REV proviral DNA from prairie chickens (PC-R92 and PC-2404), from poxvirus lesions in domestic chickens, the prototype poultry derived REV-A and chick syncytial virus (CSV), and duck derived spleen necrosis virus (SNV) were PCR amplified and sequenced. The 5032bp, that included the pol and most of env genes, of the PC-R92 and REV-A were 98% identical, and nucleotide sequence identities of smaller regions within the pol and env from REV strains examined ranged from 95 to 99% and 93 to 99%, respectively. The putative amino acid sequences were 97-99% identical in the polymerase and 90-98% in the envelope. Phylogenetic analyses of the nucleotide and amino acid sequences indicated the closest relationship among the recent fowl pox-associated chicken isolates, the prairie chicken isolates and the prototype CSV while only the SNV appeared to be distinctly divergent. While the origin of the naturally occurring viruses is not known, the avian poxvirus may be a critical component of transmission of these ubiquitous oncogenic viruses.

The use of flow cytometry to discriminate avian lymphocytes from contaminating thrombocytes.

Evaluation of peripheral blood mononuclear cells (PBMC) in avian species by flow cytometry is complicated by the presence of large numbers of nucleated thrombocytes. With light scattering properties similar to those of lymphocytes, variations in the proportion of thrombocytes in PBMC can result in apparent shifts in percentages of lymphocyte subpopulations. We have applied a dual-labeling procedure for flow cytometric analyses to exclude thrombocytes from the analyzed population by labeling with K55 monoclonal antibody (MAb), which differentially labeled leukocyte and thrombocyte populations. Flow cytometric analyses with K55 labeled chicken PBMC differentiated leukocytes into three populations according to their intensity of fluorescence. Using the Kl MAb, the K55-low population was shown to consist of thrombocytes. Dual-labeling with K55 MAb and MAb specific for B lymphocyte, CD4 or CD8 markers indicated that the K55 intermediate population consisted of lymphocytes. Therefore, concentrations of CD4+ and CD8+ T lymphocytes could be determined from the lymphocyte fraction by gating specifically on the K55 intermediate cells. Selecting cross-reactive chicken MAbs that included K55, this protocol was shown to identify CD4+ and CD8+ T lymphocytes in PBMC of another avian species, the endangered Attwater's prairie chicken.