Mycoplasma gallisepticum cell membranes were used to immunize mice to produce monoclonal antibodies to cell surface proteins. Three monoclonal antibodies were chosen for further characterization. All three reacted in immunoblots with an M. gaUlisepticum protein band of Mr approximately 67,000 (designated pMGA). By using immunoelectron microscopy, pMGA was shown to be located on the cell surface. When M. gallisepticum whole cells were treated with up to 250 pg of trypsin per ml for 30 min, the only major protein lost from the cell surface as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by Western immunoblot transfer was pMGA. Two of the pMGA-specific monoclonal antibodies inhibited hemagglutination of chicken erythrocytes by M. gallisepticum S6, suggesting a role for pMGA in the attachment of M. galisepticum to chicken erythrocytes. Sequencing the amino terminus of pMGA yielded 17 amino acids with no significant homology with the Mycoplasma pneumoniae attachment protein P1 or any other protein in the GenBank, Swiss-Prot, and EMBL data bases.
The lentiviruses of sheep, goats, and horses cause chronic multiorgan disease in which macrophages are highly permissive for viral replication. Monocytes, which mature into macrophages, are thought to be latently infected with lentivirus, but the extent to which other leukocytes are infected is unknown. Dendritic cells have not been studied separately from monocytes and T-cell subsets have not been examined in previous attempts to identify infected cells in peripheral blood mononuclear cells (PBMC). We found no evidence of T-cell tropism using an animal-passaged, pathogenic ovine lentivirus. Phytohemagglutinin-stimulated infectious PBMC produced 20-fold less virus than differentiated macrophages, and cocultivation of infectious PBMC with fresh, uninfected phytohemagglutinin blasts did not facilitate virus replication. Furthermore, central lymph cells, the best in vivo source of purified lymphocytes, lacked virus and did not yield virus upon in vitro cultivation. In contrast, cultivated blood-derived macrophages were highly permissive for viral replication. To identify the latently infected PBMC, PBMC from infected sheep were selectively depleted of monocytes and B cells by passage over nylon wool and then of nonadherent cells bearing CD4, CD8, T19, 'yb T-cell receptor, CD45RA, or major histocompatibility complex class II antigens by panning. Removal of adherent monocytes and B cells or of adherent cells and the three major T-cell subsets (CD4+, CD8+, T19+) did not decrease the infectivity of PBMC. The richest sources of infected cells in fresh PBMC were CD45RA+ and major histocompatibility complex class II+ nonadherent cells, which are three characteristics of dendritic cells. Thus, the dendritic cell, and not the monocyte or the CD4+ cell, is probably the predominant infected cell type in blood.
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