Abstract
The lymphocytotoxic activity (LCA) of sera from patients with infectious mononucleosis (IM) was tested against lymphocytes under various experimental conditions. Firstly, lymphocytes from 11 healthy donors were preincubated with pools of normal human sera (NHS) or IM sera at 37°C and then tested for (a) reactivity with the same IM sera in a standard lymphocytotoxin assay at 15°C; (b) rosetting with various sheep erythrocyte (E) preparations (E, EA and EAC) and (c) stimulation by non-specific activators (phytohaemagglutinin, pokeweed mitogen and concanavalin A). These experiments showed that preincubation of normal cells with IM sera caused significant reduction in subsequent lymphocyte killing at 15°C (P<0·01) compared to unincubated cells or those preincubated with pooled NHS. There was no change in the binding of E, EA and EAC or mitogen stimulation following incubation. Culture of preincubated lymphocytes in lymphocytotoxin-free medium for 24 hr did not restore LCA at 15°C. Secondly, a pool of normal lymphocytes was incorporated into media containing either 2,4-dinitrophenol or sodium azide and tested for LCA against 11 acute IM sera and two NHS at both 15 and 37°C. No significant change in cell killing was observed at 15°C in the presence of these inhibitors, but there was a significant return of LCA at 37°C. Finally, normal lymphocytes and cells from two patients with IM were cultured at 37°C in lymphocytotoxin-free medium to determine the role of down-regulation of lymphocyte surface receptors in reducing autolymphocytotoxicity during the acute phase of the illness. There was no change in cell killing by IM sera after culture for 24 hr. These experiments show that lymphocytotoxic sera from patients with infectious mononucleosis interact with normal lymphocytes at 37°C without causing cell killing. This interaction caused a change in surface-binding characteristics that was not reversed by culture in ligand-free medium for 24 hr. Studies using metabolic inhibitors suggested that the failed lymphocytotoxicity at 37°C resulted, at least in part, from lymphocyte metabolism, although this did not inhibit the reaction between cytotoxic material and the lymphocyte surface.
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