T-Cell Chemiluminescence.

Abstract

The binding of mitogenic lectins phytohaemagglutinin (PHA), concanavalin A (Con A) and/or of monoclonal antibodies to different receptors such as antigen receptor complex or CD2 on human T cells generates increases in the concentrations of inositol triphosphate (IP3) and cytoplasmic free calcium. This T lymphocyte requires the delivery of two signals; the first can be provided by specific monoclonal antibodies or by mitogenic lectins, and the second by a phorbol ester, phorbol myristate acetate (PMA). In other cells such as macrophages, the rise of intracellular calcium via the generation of IP3 and stimulation of protein kinase C can activate the phospholipase A2, a calcium-dependent enzyme. This enzyme initiates the release of reactive oxygen intermediates and metabolites of arachidonic acid. In order to know whether this other metabolic pathway can be generated in T cells, we tested the capacity of different T-cell lines and clones to produce superoxid anion after stimulation by the above-mentioned activating agents. In this paper, we demonstrate that treatment of the Jurkat human cell line with con A, PHA, and PMA results in a significant release of reactive oxygen metabolites. Of the various T-cell lines and clones tested, only Jurkat exhibited an oxidative burst. Moreover, none of the antibodies tested (anti-CD3, anti-CD2, and anti-CD28) and known to activate T cells, and none of the immune complexes was able to mediate such an effect. The existence of an oxidative metabolism in at least one T-cell line suggests that T-cell activation may in some instances use another metabolic pathway.