DC recognize microbial components through an array of receptors known as PRR. PRR initiate intracellular signals, which engender DC with the capacity to stimulate T-cell responses. Dectin-1 is a PRR that recognizes beta-glucan, a major constituent of many fungi's outer cell wall. Here we show that Dectin-1 activates DC through phospholipase (PLC)gamma2 signaling. PLCgamma2-deficient DC were unable to expand antigen-specific T cells and induce T(H)1 and T(H)17 differentiation in response to beta-glucan. Mechanistically, PLCgamma2-deficiency impaired the capacity of DC to secrete polarizing cytokines following exposure to beta-glucan. Dectin-1 required PLCgamma2 to activate MAPK, AP-1 and NF-kappaB, which induce cytokine gene expression. Moreover, PLCgamma2 controlled Dectin-1-mediated NFAT activation and induction of NFAT-dependent genes such as IL-2, cyclooxigenase-2 and Egr transcription factors. We conclude that PLCgamma2 is a crucial signaling mediator that modifies DC gene expression program to activate DC responses to beta-glucan-containing pathogens.