Abstract Regulatory T-cells (Tregs) play a dual role in colon cancer, promoting immune tolerance and suppressing inflammation. Two types of Tregs infiltrate the gut. Thymic derived Helios+CD4+Foxp3+ Tregs have high affinity for self-antigens, including tumor-antigens and protect the tumor, while Helios−CD4+Foxp3+ extra-thymic Tregs that are generated in the gut have microbial specificity and suppress harmful inflammation. In colon cancer, there is a preferential expansion of a population of Helios−CD4+Foxp3+RORγt+ Tregs with enhanced T-cell suppressive properties and pro-inflammatory properties that promote tumor growth. We showed that this population of Tregs in cancer patients expresses elevated levels of β-catenin. To test the role of canonical Wnt signaling in the generation of pro-inflammatory Tregs, we stabilized β-catenin or deleted its DNA binding partner TCF-1 in Tregs. In both instances expression of RORγt was upregulated. While the stabilization of β-catenin led to loss of Treg functions, ablation of TCF-1 reproduced the phenotype and functional characteristics of Tregs in colon cancer. The TCF-1 deficient Tregs were pro-inflammatory, potent T-cell suppressive, and tumor promoting.