Two major pathways, the T cell receptor and the T11 alternate pathway, allow for T cell activation. In the human thymus, the T cell antigen receptor complex is reduced or absent on immature thymocytes, whereas the T11 glycoprotein is present at high cell surface density on all thymocytes. To determine whether activation through the T11 pathway induces similar or different changes in mature and immature thymocytes, we fractionated thymocytes according to their surface expression of the T3-T cell receptor (T3/Ti) complex. We report that two populations, one with high and one with low T3/Ti expression, can be activated through the T11 pathway to undergo nuclear activation and express IL 2 receptors. Moreover, in the absence of accessory cells, only the most mature population, expressing high T3 density, could be induced to proliferate, whereas the subset representing immature cortical thymocytes required accessory cells for proliferation. These findings suggest that the cellular microenvironment may have a critical role in regulating the activation of immature cortical thymocytes and that this cell population may not represent "nonfunctional" dead end cells, but rather a valid intermediate in human thymic differentiation.