A lectin-binding, protease-resistant mycobacterial ligand specifically activates V gamma 9+ human gamma delta T cells.

Bacterial (exogeneous) superantigens have been defined as bifunctional proteinaceous molecules. They bind to class II MHC molecules of presenting cells and engage with particular TCR-V beta gene elements, thereby activating alpha beta T cells in a V beta-oriented fashion. In previous studies we have elucidated that gamma delta T cells exhibit a propensity to vigorously respond toward mycobacterial Ag. Intrigued by this finding we now analyzed whether mycobacteria express a superantigen for a subset of human gamma delta T cells definable by the selective use of TCR-V gene elements. Here we describe that a protease-resistant, low m.w. (1 to 3 kDa) component of mycobacteria selectively activates gamma delta T cells expressing TCR-V gamma 9 gene segments. Contained in mycobacterial lysates it stimulates TCR-V gamma 9-positive gamma delta T cells at a frequency of 1/6. Stimulation is critically dependent on the presence of class II MHC-positive presenting cells, the important structure being HLA-DR molecules. The fine specificity of the V gamma 9 seeking mycobacterial ligand differs from the gamma delta T cell-stimulating structures expressed by Daudi cells. In addition, the mycobacterial, V gamma 9-seeking ligand is bound selectively to lectins such as UEAI, SBA, and DBA. We conclude that mycobacteria contain a component that acts as a superantigen for human gamma delta T cells and we believe it is this property that explains the vigorous participation of gamma delta T cells in mycobacterial infections.