Prothymosin alpha(Prot alpha), an immunologically active polypeptide derived initially from rat thymus, and now pig thymus, was tested for its effect on autoantigen-induced human T cell proliferation in vitro. Pig ProT alpha was found to enhance the autologous mixed lymphocyte response (auto-MLR). Optimum enhancement was achieved at doses which varied among different donors. Treatment of the stimulatory monocytes with ProT alpha resulted in considerably higher auto-MLR responses as compared to those with non treated monocytes. ProT alpha was without effect on T lymphocytes. In contrast, T lymphocytes exhibited enhanced proliferative activity when treated with ProT alpha in the environment of autologous monocytes. Moreover, supernatants from cultures of monocytes incubated with ProT alpha (ProT alpha-sup) were also shown to enhance the human auto-MLR either after addition in cultures or after preincubation with responder T lymphocytes. In addition, ProT alpha-sup did not demonstrate any detectable interleukin 1 (IL 1) or interleukin 2 (IL 2) - like activity. Furthermore, ProT alpha-sup induced an increase in IL 2 production in auto-MLR cultures. The enhancement of T-cell proliferation and IL 2 production by ProT alpha-sup was maximal when this material was added at the beginning of the auto-MLR, and no effect of ProT alpha-sup was seen if the latter was added 3 days after initiation of the culture. Finally, Prot alpha-sup was also shown to increase the expression of IL 2 receptors on T lymphocytes activated in the auto-MLR. These studies suggest that ProT alpha enhances the human auto-MLR through ProT alpha-sup which is released after interaction of monocytes with ProT alpha ProT alpha-sup then increases directly T lymphocyte proliferation by elevating IL 2 production and expression of IL 2 specific receptors on autoactivated T lymphocytes.
The in vitro incubation of phytohemagglutinin (PHA)- or alloantigen-stimulated peripheral blood T cells with prothymosin alpha (ProT alpha) resulted in a marked and reproducible increase in the production of interleukin-2 (IL-2). Incubation of T cells with ProT alpha, in the absence of PHA or alloantigen, failed to induce any production of IL-2. ProT alpha by itself did not exert any IL-2 activity. Finally, ProT alpha was shown to increase the expression of IL-2 receptors on phytohemagglutinin- or alloantigen-activated T cells. These data provide the basis for understanding the in vitro immunoenhancing effects of ProT alpha in cellular immune systems.
This report demonstrates that in vitro activation of human cells with the beta-galactoside-specific lectin from mistletoe (ML-I) or interleukin-2 (IL-2) results in different patterns of activation and function of cytotoxic cells. It is now well established that natural killer (NK) and lymphokine-activated killer (LAK) cytotoxicity is mainly mediated by resting (NK) and IL-2-activated (LAK) CD56-positive (+) cells respectively. Culture of peripheral blood lymphocytes (PBL) for 3 days with ML-I led to expansion and activation of T cells which demonstrated NK- and LAK-like cytotoxicity. T lymphocyte subset analysis revealed that in total PBL, ML-I preferentially stimulated and expanded CD8+ T cells which mediated the cytotoxic effect. Incubation of highly purified CD8+ T cells alone with ML-I did not lead to induction of cytotoxicity, which required the presence of both CD4+ and CD14+ (monocytes) cells, suggesting that ML-I does not exert a direct effect on CD8+ T cells. Activation of PBL with both ML-I and IL-2 resulted in simultaneous induction of T and CD56+ cell-mediated NK and LAK cytotoxicity. These data suggest that treatment with ML-I and IL-2 might provide an approach to induce maximum cytotoxicity against tumors and to recruit both T and NK cells for tumor therapy.
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