Impaired immunity in late stage cancer patients is not limited to anti-tumor responses, as demonstrated by poor vaccination protection and high susceptibility to infection 1 – 3 . This has been largely attributed to chemotherapy-induced impairment of innate immunity such as neutropenia 2 , whereas systemic effects of tumors on hematopoiesis and adoptive immunity remain incompletely understood. Here we observed anemia associated with severe deficiency of CD8 + T cell responses against pathogens in treatment-naïve mice bearing large tumors. Specifically, we identify CD45 + erythroid progenitor cells (CD71 + TER119 + , EPCs) as robust immunosuppressors. CD45 + EPCs, induced by tumor growth-associated extramedullary hematopoiesis, accumulate in the spleen to become a major population, outnumbering regulatory T cells (Tregs) and myeloid-derived suppressor cells (MDSCs). The CD45 + EPC transcriptome closely resembles that of MDSCs, and, like MDSCs, reactive oxygen species production is a major mechanism underlying CD45 + EPC-mediated immunosuppression. Similarly, an immunosuppressive CD45 + EPC population was detected in cancer patients with anemia. These findings identify a major population of immunosuppressive cells that likely contributes to the impaired T cell responses commonly observed in advanced cancer patients.
Interleukin-7 (IL-7) is a non-hematopoietic cell-derived cytokine with a central role in the adaptive immune system. It promotes lymphocyte development in the thymus and maintains survival of naive and memory T cell homeostasis in the periphery. Moreover, it is important for the organogenesis of lymph nodes (LN) and for the maintenance of activated T cells recruited into the secondary lymphoid organs (SLOs). The immune capacity of cancer patients is suppressed that is characterized by lower T cell counts, less effector immune cells infiltration, higher levels of exhausted effector cells and higher levels of immunosuppressive cytokines, such as transforming growth factor β (TGF-β). Recombinant human IL-7 (rhIL-7) is an ideal solution for the immune reconstitution of lymphopenia patients by promoting peripheral T cell expansion. Furthermore, it can antagonize the immunosuppressive network. In animal models, IL-7 has been proven to prolong the survival of tumor-bearing hosts. In this review, we will focus on the mechanism of action and applications of IL-7 in cancer immunotherapy and the potential restrictions for its usage.
Complement aids in the construction of an immunosuppressive tumor microenvironment. Tumor cell-derived C3 has been previously reported, but whether and how it acts on antitumor immunity remains to be elucidated. Here, we describe a mechanism for tumor cell-derived C3 in suppressing antitumor immunity. Tumor cell-derived C3 was activated intracellularly, which results in generation of C3a. C3a modulated tumor-associated macrophages via C3a-C3aR-PI3Kg signaling, thereby repressing antitumor immunity. Deletion of C3 in tumor cells that had high C3 expression enhanced efficacy of anti-PD-L1 treatment. Collectively, our results suggest tumor cell-derived C3 may be a useful target for cancer immunotherapy and that targeting C3 in tumor cells may enhance antitumor immunity.
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