AbstractIL‐23 but not IL‐12 is essential for the development of autoimmune tissue inflammation in mice. Conversely, IL‐12 and IL‐23 impact on the polarization of Th1 and Th17 cells, respectively. While both polarized T helper populations can mediate autoimmune inflammation, their redundancy in the pathogenesis of EAE indicates that IL‐23 exerts its crucial influence on the disease independent of its T helper polarizing capacity. To study the impact of IL‐23 and IL‐12 on the behavior of encephalitogenic T cells in vivo, we generated BM‐chimeric mice in which we can trace individual populations of IL‐23 or IL‐12 responsive T helper cells during EAE. We observed that T cells, which lack IL‐12Rβ1 (no IL‐12 and IL‐23 signaling), fail to invade the CNS and do not acquire a Th17 phenotype. In contrast, loss of IL‐12 signaling prevents Th1 polarization but does not prevent T‐cell entry into the CNS. The loss of IL‐12R engagement does not appear to alter T‐cell expansion but leads to their accumulation in secondary lymphoid organs. We found that IL‐23 licenses T cells to invade the target tissue and to exert their effector function, whereas IL‐12 is critical for Th1 differentiation, but does not influence the pathogenic capacity of auto‐reactive T helper cells in vivo.