Enhancement of Mycobacterium tuberculosis-induced tumor necrosis factor alpha production from primary human monocytes by an activated T-cell membrane-mediated mechanism

Mycobacterium tuberculosis alone induces small, donor-variable amounts of t umor necrosis factor alpha (TNF-alpha) from primary human monocytes in vitr o. However, TNF-alpha release is increased 5- to 500-fold when fixed activa ted T cells (FAT) or their isolated, unfixed membranes are added to this sy stem. This FAT-induced synergy was at least as potent as that induced by ga mma interferon (IFN-gamma) at 100 U/ml. FAT-enhanced TNF-alpha production i s at least in part transcriptionally mediated, as reflected by quantitative changes in TNF-alpha mRNA between 2 and 6 h poststimulation. Unlike IFN-ga mma -cocultured cells, FAT-treated monocytes appeared not to have enhanced TNF-alpha message stability, suggesting that de novo transcription may be i nvolved in this effect. Furthermore, M. tuberculosis alone induced only min imal DNA binding of monocyte NF-kappaB, but cells treated with M. tuberculo sis and FAT potentiated NF-kappaB activity more effectively. It is therefor e possible that one mechanism by which FAT synergize with M. tuberculosis t o stimulate TNF-alpha production is via NF-kappaB-enhanced transcription. T hese data strongly suggest that in the interaction of cells involved in the immune response to M. tuberculosis, T-cell stimulation of monocyte TNF-alp ha production involves a surface membrane interaction(s) as well as soluble mediators.