Production of tumor necrosis factor-alpha by naive or memory T lymphocytes activated via CD28.

While it is well established that activated T cells can produce tumor necrosis factor alpha (TNF-alpha), it is less clear whether this function is confined to a given subset, e.g., memory cells. To approach this question, we investigated the production of TNF-alpha by human peripheral blood T lymphocytes activated with anti-CD28 mAb since this activation pathway is known to potentiate cytokine production. Under the culture conditions used, the amount of TNF-alpha produced was markedly enhanced compared to that obtained after activation with immobilized anti-CD3 mAb. The enhancement of TNF-alpha production was already apparent after incubation of T cells for 6 hr. Up to 5 ng/ml of TNF-alpha was measured on Day 2 in supernatants of cultures of 10(4) T lymphocytes. To determine the source of the cells producing high amounts of TNF-alpha, T lymphocytes were separated into two subpopulations, namely naive cells (expressing the CD45RA isoform) and memory cells (expressing the CD45RO isoform). While both subpopulations proliferated equally well after stimulation with anti-CD28 mAb, up to 90% of the TNF-alpha produced under these conditions originated from memory T cells. These results thus document that T cell activation via CD28 results in a marked increase in TNF-alpha production without affecting the functional disparity that exists between naive and memory T cells.