Abstract
Myeloid-derived suppressor cells (MDSCs) are a major component of the immunosuppressive tumor microenvironment (TME) and have been recognized as a contributing factor to inflammation-related cancers. However, the molecular mechanisms of MDSCs accumulation and activation remain elusive. We previously showed that the proinflammatory molecule S100A9 in TME exerts a tumor-promoting effect in colorectal carcinoma (CRC). In this report, we investigated the effect and molecular mechanisms of S100A9 on the accumulation and immunosuppressive function of MDSCs in CRC. Elevated S100A9 and MDSCs were found in tumor tissue and peripheral blood from CRC patients. Circulating S100A9 and MDSCs were positively associated to each other, and both S100A9 and MDSCs were correlated to neoplastic progression. Using a CRC cell line LoVo-induced MDSCs model, we found that S100A9 stimulated chemotaxis and activation but not viability of MDSCs. Mechanistic studies demonstrated that activation of RAGE-mediated p38 MAPK and TLR4-mediated NF-κB signaling pathways were involved in S100A9-induced chemotaxis and MDSCs activation, respectively. Furthermore, ROC analysis showed that combination detection of S100A9 and MDSCs was superior to individual detection of these two factors for diagnosing CRC patients with advanced staging and lymphatic metastasis, which yielded an area under the ROC curve (AUC) of 0.92 with 86.7% sensitivity and 86.4% specificity, and an AUC of 0.82 with 75% sensitivity and 77.1% specificity, respectively. Collectively, our study suggests that the S100A9 plays a pivotal role in immunosuppressive TME by stimulating MDSCs chemotaxis and activation, and combination detection of S100A9 and MDSCs may serve as a potential marker for diagnosis of CRC progression.
Highlights
Colorectal carcinoma (CRC) is the third most common cancer and the fourth leading cause of cancer death worldwide [1, 2]
Fresh tumor tissues and adjacent normal tissues collected from CRC patients were used to generate single cell samples, and Myeloid-derived suppressor cells (MDSCs) were detected by flow cytometry (FCM) using the myeloid marker HLA-DR−CD33+CD11b+
TAK-242, but not FPS-ZM1, blocked S100A9-induced mRNA expression of Arg1, inducible nitric oxide synthase (iNOS), and IL-10 and ROS production in MDSCs (Figures 5E–H). Consistent with these results, the suppressive effect of S100A9-treated MDSCs on CD8+ T cell proliferation was inhibited by TAK-242 but not FPSZM1 (Figures 5I,J). These results suggest that RAGE and TLR4 are responsible for S100A9-mediated MDSCs chemotaxis and activation, receptively
Summary
Colorectal carcinoma (CRC) is the third most common cancer and the fourth leading cause of cancer death worldwide [1, 2]. Human MDSCs are characterized by the myeloid marker HLA-DR−CD33+CD11b+ [6]. This tolerogenic appearance of MDSCs represents a common trait of cancer and other non-cancerous diseases such as sepsis, bacterial, viral, and parasitical infections, autoimmune diseases, and aging [5,6,7]. The accumulation of MDSCs in TME involves multifarious mechanisms including trafficking, expansion and activation in different types of cancer [3, 8,9,10,11,12,13]. The exact molecular mechanism of MDSCs accumulation and activation in CRC remains elusive
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