C. Rust et al., REACTIVITY OF HUMAN GAMMA-DELTA T-CELLS TO STAPHYLOCOCCAL ENTEROTOXINS - A RESTRICTED REACTION PATTERN MEDIATED BY 2 DISTINCT RECOGNITION PATHWAYS, Scandinavian journal of immunology, 38(1), 1993, pp. 89-94
Staphylococcal enterotoxins (SEs) are known superantigens for T cells
expressing the alphabeta T-cell receptor (TCR). They bind to MHC class
II molecules on antigen-presenting cells and can subsequently trigger
T-cell responses by binding to Vbeta-gene products. The reactivity of
gammadelta T cells with enterotoxins is less well defined although bo
th proliferative and cytotoxic responses have been described. In the p
resent study we have tested the cytotoxic reactivity of a panel of 41
gammadelta T-cell clones against target cells coated with the enteroto
xins SEA, SEB, SEC 1, SEC2, SEC3, SED, SEE or TSST. Three reaction pat
terns were observed with the gammadelta T-cell clones: (1) clones that
specifically lysed SEA-coated target cells only; (2) clones that spec
ifically lysed SEE-coated target cells only, and (3) clones that speci
fically lysed SEA-coated target cells only in the presence of certain
human sera. The presence of SEA-specific antibodies in such human sera
could be demonstrated. Moreover, gammadelta T- cell clones of this th
ird category expressed the IgG FcRIII (CD16) which indicates that thes
e clones are capable of mediating antibody-dependent cellular cytotoxi
city towards SEA-coated target cells. Thus, the cytotoxic response of
gammadelta T cells to SEs is mediated by two distinct pathways: an ant
ibody-independent and an antibody-dependent pathway. The antibody-inde
pendent reactivity of gammadelta T cells was directed to either SEA or
SEE, whereas antibody-dependent reactivity was found only towards SEA
. The capacity of gammadelta T-cell clones to respond to stimulation w
ith SEs, combined with their high cytolytic capacity in vitro, suggest
s that these cells can be involved in SE-directed immune responses and
efficiently kill SE-coated target cells in vivo.