The functional loss of human natural killer cell activity induced by K562 is reversible via an interleukin-2-dependent mechanism.

In a recent study, we evaluated the functional status of human natural killer (NK) cells after their interaction with the NK-sensitive tumor target cell (TC), K562. We demonstrated that effector cells (EC), after treatment with K562 for 4 hr, lost greater than 90% of their original lytic activity. In this investigation, we examined whether this functional loss of NK cell activity represented an irreversible event in the NK lytic mechanism. Initial studies focused on the ability of K562-inactivated EC (ECi), which had been separated from their TC, to recover cytolytic activity following an 18-hr incubation. Our results indicated that ECi recovered 28% of their lytic activity in complete medium (CM) alone, 64% in CM containing interferon-beta (IFN-beta), and 91% in CM supplemented with interleukin 2 (IL-2). Analysis of the data revealed, however, that neither IFN-beta nor IL-2 simply boosted the lytic capacity of NK cells which initially escaped inactivation, but also, each cytokine affected the lytic capabilities of EC that were either truly inactivated by K562 or precursor NK (pre-NK) cells. Thus, to evaluate further the basis of IFN-beta and IL-2-induced ECi augmentation, we first treated the EC with IFN-beta or IL-2 prior to their interaction with K562 so that pre-NK cell subsets would be promoted to fully competent NK cells. Both pretreated EC preparations, after interacting with K562 for 4 hr, lost greater than 90% of their original lytic activities. NK inactivation did not result from cell death nor reflect alterations in conjugate formation or the percentages of Leu-7- and Leu-11-positive EC. IL-2-pretreated ECi, as did ECi, regained some lytic activity after incubation in CM alone, but recovered significantly more activity in CM containing IFN-beta or IL-2. In contrast to the restimulation profiles obtained for ECi and IL-2-pretreated ECi, IFN-pretreated ECi regained lytic function after incubation with IL-2, but not appreciably with IFN-beta or in CM alone. Overall, these findings suggest that EC, either untreated or pretreated with IFN-beta or IL-2, significantly lose their lytic capabilities following interaction with K562 while retaining their ability to bind to the TC; IFN-beta acts predominantly on pre-NK cells, but not on ECi; and IL-2 appears to play an important role in restoring lytic potential to functionally inactive NK cells.