Abstract

Abstract CTLs that display high functional avidity are known to be optimal for pathogen clearance. However, the molecular mechanism that allows high avidity CTLs to respond at very low levels of peptide antigen remains to be elucidated. To investigate this question, we compared TCR signal transduction events in high and low avidity CD8+ T-cells generated from OT-I TCR transgenic mice. Upon stimulation with APCs preloaded with a range of Ova257-264 peptide concentrations (10^-6, 10^-9 and 10^-12 M), we found that high avidity CD8+ T-cells induced higher levels of MAPK ERK-1/2 phosphorylation as well as higher levels of the dephosphorylated form of NFAT at each peptide concentration used for stimulation. We next determined whether the observed divergence in NFAT activation was reflected in differences in calcium mobilization. We found efficient mobilization of Ca2+ in high avidity cells even when the lowest concentration of peptide was used for stimulation, a level of peptide at which no increase in calcium was observed in low avidity cells. The decreased peptide requirement for calcium mobilization in high avidity cells correlated with a decreased peptide requirement for ZAP-70 activation and CD3ζ phosphorylation, the latter of which was higher and prolonged in high versus low avidity cells. Thus the functional avidity of the CD8+ effector cells studies here is controlled by differential regulation of the most membrane proximal event, phosphorylation of CD3ζ. Studies are currently underway to determine the mechanism by which high avidity cells acheive CD3ζ phosphorylation at limiting peptide levels.

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