Abstract
The immune system has many sophisticated mechanisms to balance an extensive immune response. Distinct immunosuppressive cells could protect from excessive tissue damage and autoimmune disorders. Tumor cells take an advantage of those immunosuppressive mechanisms and establish a strongly immunosuppressive tumor microenvironment (TME), which inhibits antitumor immune responses, supporting the disease progression. Myeloid-derived suppressor cells (MDSC) play a crucial role in this immunosuppressive TME. Those cells represent a heterogeneous population of immature myeloid cells with a strong immunosuppressive potential. They inhibit an antitumor reactivity of T cells and NK cells. Furthermore, they promote angiogenesis, establish pre-metastatic niches, and recruit other immunosuppressive cells such as regulatory T cells. Accumulating evidences demonstrated that the enrichment and activation of MDSC correlated with tumor progression, recurrence, and negative clinical outcome. In the last few years, various preclinical studies and clinical trials targeting MDSC showed promising results. In this review, we discuss different therapeutic approaches on MDSC targeting to overcome immunosuppressive TME and enhance the efficiency of current tumor immunotherapies.
Highlights
Immunosuppression is a hallmark of most cancer entities and is pivotal for cancer growth and progression [1, 2]
The first population is called monocytic Myeloid-derived suppressor cells (MDSC) (M-MDSC), whereas the second is polymorphonuclear MDSC (PMN-MDSC) [8], which was previously known as granulocytic MDSC [6]
Several recent studies described that in melanoma patients treated with the immune checkpoint inhibitor, ipilimumab, decreased amounts and immunosuppressive functionality of both M- and PMN-MDSC correlated with beneficial therapeutic effects [65,66,67,68]
Summary
Immunosuppression is a hallmark of most cancer entities and is pivotal for cancer growth and progression [1, 2]. Several recent studies described that in melanoma patients treated with the immune checkpoint inhibitor, ipilimumab, decreased amounts and immunosuppressive functionality of both M- and PMN-MDSC correlated with beneficial therapeutic effects [65,66,67,68] These studies show that MDSC could be promising biomarkers for the survival of patients and the treatment efficacy and could serve as a valuable target in combined immunotherapy of cancer patients. To block the CXCR2-CCL2 interaction, tumor-bearing mice were treated with the chemotherapeutic drug docetaxel combination with a CXCR2 antagonist, showing a significant therapeutic effect [88] Another chemokine receptor CCR5, which is expressed on a broad spectrum of immune cells [84], interacts with its ligands CCL3, CCL4, and CCL5 [89]. Taken together, targeting CCR5 on MDSC could be applied to prevent the MDSC migration and accumulation in the TME and to reduce MDSC immunosuppressive functions in cancer patients [87, 91]
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