Inhibition of interleukin-2 production in the human T cell line JURKAT by nonpolar maleimides

The immunosuppressive properties of polar and nonpolar maleimides were studied by measuring their ability to inhibit mitogen-induced interleukin-2 (IL-2) production by JURKAT T cells. The nonpolar maleimides N-ethylmaleimide (NEM) and N-phenylmaleimide (NPM) inhibited IL-2 production by 85-99%, but only when added to JURKAT cells prior to the mitogen. The polar maleimides N-hydroxymaleimide (NHM) and 4-maleimidosalicylic acid (M84) did not suppress IL-2 production significantly, even though NHM reacted with more cellular thiols (12%) than did NPM (8%). Both NEM and NPM suppressed IL-2 production at doses that did not affect proliferation. NEM inhibited IL-2 production induced by PHA, anti-CD3 (alpha CD3) monoclonal Antibodies or PMA, and A23187, but did not interfere with the binding of alpha CD3 to the cells. NEM inhibited IL-2 production at concentrations that did not interfere with the PHA-induced increase in intracellular free calcium [( Ca]i). Neither NPM nor NHM inhibited the rise in [Ca]i, even at the highest concentrations tested. Although JURKAT T cells require both PMA and A23187 to induce IL-2 production, we found that cells pretreated with PMA could respond to A23187 added 18 hr later. PMA-treated cells were not resistant to the immunosuppressive effects of NEM or NPM. However, PMA-pretreated cells became resistant to the inhibitory effects of NEM upon the addition of A23187, suggesting that nonpolar maleimides inhibit activation events induced by the rise in [Ca]i.