Piezo1 is a mechanosensitive, nonselective Ca2+ channel that is broadly expressed in CD4+ T cells. Using lineage-specific Piezo1 knockout mice (Piezo1cKO), we show that loss of Piezo1 in CD4+ T cells significantly increased IFNgamma and IL-17 production in vitro under TH1 and TH17 polarizing conditions, respectively. Despite their intrinsic proinflammatory phenotype, Piezo1cKO T cells are incapable of establishing disease in vivo in 3 separate adoptive transfer T-cell-mediated inflammatory mouse models, including experimental autoimmune encephalomyelitis, inflammatory bowel disease, and graft-vs-host disease. These phenomena coincided with a decreased effector memory (CD44hiCD62Llo) CD4+ T-cell pool derived from donor Piezo1cKO T cells, an observation related to intrinsic T-cell fitness, as a cotransfer inflammatory bowel disease mouse model revealed a deficiency in the CD4+ effector memory population derived only from the naive Piezo1cKO but a not coinfused Piezo1WT CD4+ T-cell source. Taken together, our results support Piezo1 as restraining proinflammatory T-cell differentiation while contributing to the generation and persistence of the effector memory pool during CD4+ T-cell-mediated immunopathology.