Cytotoxic effects of normal sera on lymphoid cells: I. Antibody-independent killing of heterologous thymocytes by guinea pig, rabbit, and human sera: Role of the alternative pathway of complement activation

Abstract

The mechanisms whereby normal sera may cause the death of xenogeneic lymphoid cells in vitro have been reviewed in this study using guinea pig, rabbit and human sera as the source of activity and rat and mouse thymocytes as target cells. In all of the combinations analyzed the cytotoxic reactions were found to be mediated by complement (C) as evidenced by sensitivity of the sera towards either heat inactivation (56 °C, 30 min) or treatment with cobra venom factor or sodium ethylenediaminotetraacetate (EDTA). C activity was provided via the alternative pathway in every instance: (i) both C4-deficient guinea pig serum and C2-deficient human serum displayed cytotoxicity on the target cells; (ii) sera from all three sources were active in the absence of free Ca 2+, which is required to activate C via the classical pathway; and (iii) GPS incubated at 50 °C for 20 min to destroy the activity of factor B of the alternative pathway lacked significant cytotoxic activity while still able to lyse sensitized sheep red blood cells, a reaction proceeding via the C142 pathway. Two independent lines of evidence appeared to exclude the possible role of antibodies in nonspecific serum cytotoxicity. First, the cytotoxic capacities and the titers of guinea pig and rabbit sera were not significantly affected after absorption with target cells in the presence of EDTA, i.e., in the absence of free divalent cations, a condition which does not interfere with antigen antibody binding. By contrast, the activity was eliminated when absorption was performed in the absence of chelating agents or in the presence of a selective Ca 2+ chelator, sodium ethyleneglycoltetraacetate, plus excess Mg 2+ These observations also highlight the Mg 2+-dependence of the removal of activity by absorption. Second, γ-globulins isolated from a highly cytotoxic guinea pig serum were not toxic for rat thymocytes when tested in the presence of rat C. These results suggest that conventional antibodies, whether of “natural” origin or otherwise, are unlikely to play a role in serum-produced nonspecific cytotoxicity. Furthermore, and since incubation of human serum with rat or mouse thymocytes produced conversion of factor B, “absorption” of cytotoxic activity would seem to be more likely a consequence of the consumption of C activity via the C3 shunt than of the removal of any antibodies.