Protein kinase C-theta (PKC-theta) is important for the activation of autoreactive T cells but is thought to be of minor importance for T-cell responses in infectious diseases, suggesting that PKC-theta may be a target for the treatment of T-cell-mediated autoimmune diseases. To explore the function of PKC-theta in a chronic persisting infection in which T cells are crucial for pathogen control, we infected BALB/c PKC-theta(-/-) and PKC-theta(+/+) wild-type mice with Toxoplasma gondii. The PKC-theta(-/-) mice succumbed to necrotizing Toxoplasma encephalitis due to an insufficient parasite control up to day 40, whereas the wild-type mice survived. The number of T. gondii-specific CD4 and CD8 T cells was significantly reduced in the PKC-theta(-/-) mice, resulting in the impaired production of protective cytokines (gamma interferon, tumor necrosis factor) and antiparasitic effector molecules (inducible nitric oxide, gamma interferon-induced GTPase) in the spleen and brain. In addition, Th2-cell numbers were reduced in infected the PKC-theta(-/-) mice, paralleled by the diminished GATA3 expression of PKC-theta(-/-) CD4 T cells and reduced T. gondii-specific IgG production in serum and cerebrospinal fluid. Western blot analysis of splenic CD4 and CD8 T cells revealed an impaired activation of the NF-kappaB, AP-1, and MAPK pathways in T. gondii-infected PKC-theta(-/-) mice. Adoptive transfer of wild-type CD4 plus CD8 T cells significantly protected PKC-theta(-/-) mice from death by increasing the numbers of gamma interferon-producing T. gondii-specific CD4 and CD8 T cells, illustrating a cell-autonomous, protective function of PKC-theta in T cells. These findings imply that PKC-theta inhibition drastically impairs T. gondii-specific T-cell responses with fatal consequences for intracerebral parasite control and survival.