BACKGROUND: IL-7 is a cytokine that plays a critical role in the development and proliferation of many different immune cells. IL-7 is notably important for the proper development and activity of T cells and B cells. Additionally, the cytokine plays a role in the function of natural killer cells and dendritic cells. Because of this innate biological activity, IL-7 has gained traction as a potential immunotherapy for multiple applications. METHODS: We conducted a comprehensive literature review to explore the physiological role of IL-7 and current applications harnessing the biology of IL-7 as a therapeutic. We also investigated the ways in which IL-7 is being engineered to enhance its therapeutic potential. RESULTS: Notably, IL-7 has demonstrated efficacy in adoptive cell therapy models and as a vaccine adjuvant. The cytokine has also been used as a treatment for sepsis and other chronic infections. To further enhance its therapeutic efficacy, IL-7 has been engineered by fusing the cytokine to antibody fragments or other bioactive or targeting molecules. These engineered IL-7 therapeutics seek to improve the cytokine's pharmacokinetic and immunological properties and reduce off-target effects. CONCLUSION: IL-7 immunotherapies largely remain at the preclinical stage, but there is growing interest in IL-7's many therapeutic applications and increasing opportunities to further engineer the molecule for future clinical translation.