The RNA-binding protein tristetraprolin (TTP) destabilizes target messenger RNAs (mRNAs) containing AU-rich elements within their 3' untranslated region. Thereby, it controls the expression of multiple inflammatory and tumor-associated transcripts. Moreover, a loss of TTP in tumors predicts disease-associated survival. Although tumor intrinsic functions of TTP have previously been studied, the impact of TTP on the interaction of tumors with their microenvironment remains elusive. As immune cell infiltration into tumors is a critical determinant for tumor progression, this study aimed at determining the influence of tumor cell TTP on the interaction between tumor and immune cells, specifically monocytes (MO)/macrophages (MΦ). Knockdown (k/d) of TTP in T47D breast cancer cells enhanced tumor growth both in vitro and in vivo and increased infiltration of MO into 3D tumor spheroids in vitro and of MΦ into tumor xenografts in vivo. Enhanced migration of MO toward supernatants of TTP-deficient tumor spheroids was determined as the underlying principle. Interestingly, we noticed interleukin-16 (IL-16) mRNA stabilization when TTP was depleted. In line, IL-16 protein levels were elevated in TTP-deficient spheroids and their supernatants as well as in TTP k/d tumor xenografts and critically contributed to the enhanced chemotactic behavior. In summary, we show that the loss of TTP in tumors not only affects tumor cell proliferation and survival but also enhances infiltration of MO/MΦ into the tumors, which is typically associated with poor prognosis. Moreover, we identified IL-16 as a critical TTP-regulated chemotactic factor that contributes to MO/MΦ migration.