Abstract
Monoclonal-nonspecific suppressor factor (MNSF), a product of murine T cell hybridoma, suppresses antibody response to lipopolysaccharide. In an attempt to clarify the functional mechanisms in vitro, we investigated the mode of action of MNSF. This factor inhibited the antibody response by B cells (depleting T cells and Mφ), thereby indicating that the lymphokine acts directly on B cells, without interaction between B and T cells or Mφ. MNSF activity was absorbed by mitogen-stimulated T or B cells, but not by resting lymphocytes. Proliferative responses to T cell and B cell mitogens were inhibited dose dependently by the addition of MNSF. Kinetic studies showed that MNSF suppressed the antibody response, in all culture periods, thereby indicating that immunoglobulin secretion and proliferation were inhibited. The effect of growth factor on MNSF-mediated suppression was investigated to search for a possible suppression of MNSF action. Interleukin 2 (IL-2) remarkably inhibited MNSF activity, and the effect of IL-1 or IL-4 was less. IL-2 was most effective when added on the fourth day of culture. MNSF also inhibits division in the plasmacytoma line MOPC-31C or in thymoma EL4, but not in L929 fibroblasts. Tumor necrosis factor (TNF) inhibits cell division of various tumor cells and suppresses the pokeweed mitogen-induced antibody response, without cytotoxic action, as does MNSF. While MNSF and TNF have similar biochemical and physicochemical properties, the cross-reaction tests showed that both are antigenically discrete lymphokines. Although MNSF lacks TNF activity, the concomitant addition of both factors to L929 increases the cytotoxic action, a finding indicative of a synergistic effect.
Published Version
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