Expression of autoimmune regulator (Aire) by thymic medullary epithelial cells (MECs) is critical for central tolerance of self. To explore the mechanism by which such a rare cell population imposes tolerance on the large repertoire of differentiating thymocytes, we examined the proliferation and turnover of Aire(+) and Aire(-) MEC subsets through flow cytometric analysis of 5-bromo-2'deoxyuridine (BrdU) incorporation. The Aire(+) MEC subset was almost entirely postmitotic and derived from cycling Aire(-) precursors. Experiments using reaggregate thymic organ cultures revealed the presence of such precursors among Aire(-) MECs expressing low levels of major histocompatibility complex class II and CD80. The kinetics of BrdU decay showed the Aire(+) population to have a high turnover. Aire did not have a direct impact on the division of MECs in vitro or in vivo but, rather, induced their apoptosis. We argue that these properties strongly favor a "terminal differentiation" model for Aire function in MECs, placing strict temporal limits on the operation of any individual Aire(+) MEC in central tolerance induction. We further speculate that the speedy apoptosis of Aire-expressing MECs may be a mechanism to promote cross-presentation of the array of peripheral-tissue antigens they produce.