Estrogen, the major female sex hormone has been linked with immune response disparity between males and females. However, the exact mechanism by which estrogen impacts our ability to fight viral infection and development of immunologic memory remains unknown. CD8 T cells represent the primary protective mechanism against viruses and cancer. Here we aim to understand how CD8 T cell mediated antiviral immune response is regulated by estrogen. Systemic LCMV infection in ovariectomized female mice generated lower virus-specific memory CD8 T cells compared to sham surgery controls. To check if this reduction in memory response is CD8 T cell intrinsic, I generated a transgenic virus-specific estrogen receptor-a deficient CD8 mouse line (ESR1 KO). Using a co-adoptive transfer model, I compared the differentiation of ESR1 KO and control CD8 T cells in both systemic LCMV and local influenza infection. The lack of estrogen signaling resulted in reduced abundance of effector CD8 T cells in the context of both infections. ESR1 KO CD8 T cells also displayed reduced cytotoxic ability. In vitro studies revealed that the CD8 T cell expansion was primarily impacted by the lack of estrogen signaling, whereas activation and cellular apoptosis remain unchanged. Altogether, this suggests a crucial role of sex steroid estrogen in initial effector CD8 T cell differentiation, that has significant ramification for generation of protective immune responses in pathological or physiological estrogen deficiency.