Age-related reductions in the activation of mitogen-activated protein kinases p44(mapk)/ERK1 and p42(mapk)/ERK2 in human T cells stimulated via ligation of the T cell receptor complex

Age-related changes in the functional properties of human T cells are well described, but less known about possible changes in T cell signalling pathways. The signalling pathways mediated by the mitogen-activiated protein kinases (MAPK) are considered essential for normal cellular growth and function. Several stimuli trigger MAPK activation in human T cells and MEK (MAPK or ERK kinases) are immediate upstream inducers of MAPK activation. The current study investigated if aging might influence the activation and expression of MAPK and MEK in human T cells. Exposure of peripheral blood T cells from young subjects to PHA or cross-linked anti-CD3 monoclonal antibodies stimulated rapid increases in MAPK and MEK enzymatic activity. By contrast, significant reductions of MAPK and MEK activation were observed in stimulated T cells from 7 of 13 elderly subjects. Kinetic studies showed that age-related impairments represented reductions in both the levels and duration of MAPK activation. In addition, Western immunoblot analysis did not reveal significant age-related differences in T cell expression of p42(mapk)/EKR2, p44(mapk)/ERK1, or MEK, suggesting impairments in upstream inducers of MEK/MAPK activation. Other experiments determined if agents that directly stimulate upstream Ras or Raf kinase components of the early MAPK activation. Treatment of elderly T cells with fluoroaluminate (AlF4-), phorbol esters/Ca2+ ionophores, or okadaic acid stimulated increased MAPK activation compared to anti-CD3. However, these agents failed to restore MAPK activation in elderly T cells to the levels seen in young T cells. These results suggest that aberrancies in the MAPK activation cascade may underline the age-related reductions of MAPK activation in human T cells stimulated via the TCR/CD3 complex.