Regulation of tumor necrosis factor (TNF)-alpha synthesis and TNF receptors expression in T lymphocytes through the CD2 activation pathway

Abstract

The involvement of the CD2 (T11) molecule, an alternative activation pathway for T lymphocytes, in the regulation of tumor necrosis factor (TNF)-alpha/TNF receptor system in human T lymphocytes has been investigated. It has been found that both TNF-alpha synthesis and secretion were induced after incubation of purified T lymphocytes with the appropriate mitogenic combination of antibodies specific for two different epitopes on the CD2 molecule. Moreover, TNF-alpha secretion was also observed by activation of T lymphocytes either through CD3 or CD69 molecular pathways, or with other stimulating agents such as Ca2+ ionophore in combination with phorbol esters. The expression of TNF receptors has been studied in both nonactivated and CD2-activated T lymphocytes. Unstimulated T cells weakly expressed a functional 75-kDa receptor form, whereas they lacked detectable levels of the 55-kDa receptor form. Triggering of T cell activation through the CD2 molecule also markedly increased the expression of the p75-kDa TNF receptor form, but did not exert any inductive effect on the expression of the p55-kDa TNF receptor. In addition, we have found that TNF-alpha enhanced the proliferative response triggered by the mixture of anti-CD2 monoclonal antibodies. Taken together, these results support a role for the CD2 activation pathway in the functional regulation of TNF-alpha/TNF receptor system in T lymphocytes, and reinforce the view of CD2 as an alternative pathway for regulation of the cytokine network that modulates the function of T lymphocytes.