The Effects of Cyclophosphamide on Mitogen-Induced and Antibody-Dependent Cellular Cytotoxicity in Guinea Pigs

Abstract

Lymph node cells from normal guinea pigs, when stimulated with the non-specific mitogen PHA, were transformed to activated killer cells, capable of lysing 51Cr labeled mouse fibroblasts. Similarly, these lymphoid cells effected lysis of antibody coated chicken red cells in an antibody-dependent cellular cytotoxicity assay. Following cyclophosphamide, 150 mg/kg IP, the reactivity of an aliquot of lymph node cells to effect either cytotoxic reaction was not diminished. These results indicate that this immunosuppressant does not promote a selective decrease in either lymphoid effector. Rather, they are diminished in parallel with the generalized lympholysis resulting from drug administratioin. During the recovery phase, lymph node cells showed increased ability to lyse target cells, suggesting a rebound phase of heightened activity. Thymic cells from normal and cyclophosphamide treated animals were poor effectors in either cytotoxic assay. The addition of an equal number of thymocytes to lymph node cells resulted in decreased mitogen-induced cytotoxicity. Thymic inhibitory activity was mediated only by viable cells and the phenomenon did not represent an altered shift in PHA sensitivity. This suppressive activity persisted when thymic cells from cyclophosphamide treated-animals were employed, indicating that inhibitory cells were also not selectively depleted by this drug. In antibody-dependent cellular cytotoxicity assays, thymocytes from normal or cyclophosphamide-treated animals did not alter the cytotoxicity capacity of lymph node cells.