Cyclophosphamide- and testosterone-induced alteration in chicken bursal stroma identified by monoclonal antibodies.

Both cyclophosphamide (Cy) and testosterone propionate (TP) treatments ablate B cells in chickens. Essential bursal microenvironmental elements, however, are altered or lost following TP treatment, while bursae from Cy-injected birds can be reconstituted with donor precursors. These two models can thus be utilized to distinguish which bursal stromal molecules are functionally most important in the specific microenvironment of this organ. Monoclonal antibodies (mAb) reactive with non-lymphoid components of the chicken bursa of Fabricius have been used to examine bursal sections from birds treated with Cy or TP. Molecules have been identified on the epithelial buds and follicle-associated epithelium (FAE) that are enhanced following Cy treatment (MUI-52 and 58) and are absent in TP-treated birds. The expression of these molecules may correspond to the ability of Cy-treated but not TP-treated bursae to attract lymphoid precursors. Molecules have also been identified on cells in the subepithelial mesenchymal layer (MUI-63, 65 and 75). These cells interact with the surface epithelium (sEp) prior to epithelial bud formation, an interaction which appears to be TP sensitive. Additionally, two potentially important molecules have been identified in the bursal medulla (MUI-54 and 72) which may have an interactive role with developing B lymphocytes.