The elderly have a higher risk for a wide range of diseases, including infection, tumor, and cardiovascular disease. This could be, at least partially, attributed to T lymphocyte changes during aging. The goal of this project was to characterize age-related changes in T cell output and functions. In this study, young (3-6 months old) and aged (18-24 months old) male and female C57BL/6J mice were utilized. Our data showed that compared to young mice, aged mice demonstrated significantly smaller thymus and fewer developing thymocytes, including double negative CD4 - CD8 - , double positive CD4 + CD8 + , as well as single positive CD4 + and CD8 + thymocytes, which implies that aged mice generate less T cells. Accordingly, circulating T cell count was significantly lower in aged mice than young controls. To investigate how aging affects T cell functions, we isolated splenic T cells and stimulated them with PMA (100 nM) + ionomycin (1 µM) (P+I) or vehicle for 4 hours. At the steady state, aged T cells expressed higher levels of Ifng , Tnfα , granzyme b , and perforin than young T cells, suggesting that aged T cells show a senescence-associated secretory phenotype (SASP). After stimulation with P+I, both young and aged T cells expressed dramatically higher levels of Ifng , Tnfα , Il2 , Il4 , Il17 , and granzyme b , indicative of T cell activation. Interestingly, aged T cells had higher expression of Ifng, Il17, and granzyme b, but lower Tnfα and Il2 levels. Moreover, aged T cells expressed higher levels of exhaustion markers, such as Pd1 , Ctla4 , Lag3 , and Tigit , indicating that aged T cells exhibit an exhaustion phenotype. In conclusion, our study demonstrates that aged mice show smaller thymus and fewer thymocytes and blood T cells than young mice. In addition, aged T cells exhibit a SASP and exhaustion phenotype. Upon activation, aged T cells might be more cytotoxic by secreting higher levels of IFN-γ, IL-17, and granzyme B.