In the case of differentiated Th cells, the necessity of this co-stimulation is under debate — there are even reports of so-called self-presenting Th cells specific for haptens, such as nickel, that are activated completely
independently of APCs [37, 38]. A specific activation of Th cells leads to full activation and secretion of cytokines and chemokines; however, the strength of the stimulus and the point in the cell cycle during which specific activation occurs may influence what cytokines are secreted. Namely, antigen-specific T cells shown, by intracellular cytokine staining, to produce either both IL-4 and IL-17, or IFN-γ and Hedgehog inhibitor IL-17, were shown to secrete only IL-4 or IFN-γ, respectively, but not IL-17 after stimulation with their cognate antigen and autologous DCs [8]. However, adding staphylococcal-derived enterotoxins induced the co-expression of IL-17 [8]. These enterotoxins — so-called superantigens — are microbial-derived products that activate T cells independently of their receptor specificity by enhancing the binding of TCR/MHC complexes [39], highlighting the necessity of a strong TCR stimulus
for induction of IL-17 in T cells. The activation state also seems to be important for the cytokine profile of T cells, since resting Th17-cell clones cannot co-express any IL-10, while prolonged TCR stimulation leads to upregulation of anti-inflammatory LY294002 IL-10 in a subset of Th17 cells [12]. This highlights that certain functional states of the same cell population, in this case different degrees of activation, can result in different functional outcomes. However, during an immune response in the skin, only a minority of usually less than 10% of all infiltrating T cells is Glutathione peroxidase actually antigen specific. This has been shown in the
case of patch test-elicited ACD [36] and atopy patch tests to house dust mite or pollen [8]. This raises the question of the role for these nonspecific bystander cells in the inflammatory reaction. Increasing evidence suggests that such cells may be activated nonspecifically by superantigens. As described before, superantigens are strong inducers for IL-17 and IL-22 in T cells [8, 40]. The skin of about 90% of atopic eczema patients is colonized with S. aureus, the source of superantigens, such as staphylococcal enterotoxin B [41]. In contrast, only 25% of the healthy population is colonized with S. aureus, but here the nose and not the skin serves as a bacterial reservoir [42]. Applying superantigens to an atopy patch test reaction was shown to lead to aggravation of the developing eczematous lesion, indicating the importance of these factors in an unspecific amplification of inflammation [8]. Beyond bystander activation through superantigens, the role for bystander Th cells during inflammatory processes is still under debate.