Interleukin 4 (IL4)-induced gene 1 (IL4I1) is an oxidase that degrades l-phenylalanine into phenylpyruvate, hydrogen peroxide, and ammonia. In contrast to other amino acid catabolic enzymes (i.e., indoleamine 2,3-dioxygenase and inducible nitric oxide synthase), IL4I1 is expressed not only in an intracellular form but also an active secreted form. Although about 20 yr ago IL4I1 was identified in murine B cells in response to IL4, we only recently established its key role in controlling B-cell receptor-mediated signaling during murine B-cell ontogeny and responses in physiological settings. Genetic IL4I1 invalidation increases the number of tumor-associated B cells and delays development of spontaneous metastatic melanoma in mice that are transgenic for the RET oncogene, without impairing tumor-specific antibody response. Although no consensus exists on phenotype and functions of melanoma-associated B cells, our results in RET mice argue for a protective role, with IL4I1 dampening this benefit. However, regulation of IL4I1 expression in innate-like and conventional B-cell subsets and its impact on B-cell properties are incompletely known, in particular, in cancer settings. This review aims to summarize our present knowledge of B cells in human and murine melanoma and address emerging questions about the impact of IL4I1 on B-cell functions in physiological and cancer settings. We note that during melanoma progression, IL4I1 may selectively be expressed by regulatory B cells and/or indirectly promote B-cell-mediated immunosuppression.