Abstract Checkpoint blockade has improved patient outcome through reinvigorating T cells against cancer. Despite this success, many patients don’t respond, leaving them with few options. Tumors utilize many immunosuppressive mechanisms, including altering the function of innate immune cells. Cancer cells can promote differentiation of macrophages into tolerogenic “M2-like” macrophages, which support tumor growth. Macrophage differentiation by cancer cells is influenced by many receptors, including Siglec-E. Siglec-E binds to α2,8-linked disialic acids, generated by the enzyme ST8Sia6, on O-linked glycoproteins, and functions to inhibit activation of innate immune cells. Cancer patients with high expression of ST8Sia6 exhibit reduced survival. Therefore, ST8Sia6 overexpressing tumors may engage Siglec-E, leading to immune suppression and accelerating tumor growth. Mice injected with ST8Sia6 overexpressing MC38 and B16-F10 tumors had increased tumor burden, reduced survival and an increase M2 macrophage polarization. The acceleration in tumor growth was abrogated when injected into Siglec-E knockout mice. Thus, the primary function of ST8Sia6 in tumors is an extrinsic alteration of the immune response, rather than an intrinsic effect on cell growth. Similarly, in a spontaneous colon cancer model, ST8Sia6 overexpression in a murine colon cancer model accelerated the development of tumors, decreasing survival to 2.5 months instead of 6 months. The overexpression of ST8Sia6 on tumors leads to increased Arg-1 expression by CD11b+ CD11c+Ly6C−Ly6G− cells, which suppresses the immune response. Therefore, ST8Sia6 expression in tumors inhibits the immune response to promote tumor growth in a Siglec-E dependent manner.