Abstract
BackgroundTumor-associated macrophages (TAMs) are the most abundant immune cells within the tumor stroma and play a crucial role in tumor development. Although clinical investigations indicate that high levels of macrophage (MΦ) infiltration into tumors are associated with a poor prognosis, the exact role played by TAMs during tumor development remains unclear. The present study aimed to investigate dynamic changes in TAM major histocompatibility complex (MHC) class II expression levels and to assess the effects of these changes on tumor progression.ResultsSignificant inhibition of tumor growth in the murine hepatocellular carcinoma Hepa1-6 model was closely associated with partial TAM depletion. Strikingly, two distinct TAM subsets were found to coexist within the tumor microenvironment during Hepa1-6 tumor development. An MHC class IIhi TAM population appeared during the early phase of tumor development and was associated with tumor suppression; however, an MHC class IIlow TAM population became increasingly predominant as the tumor progressed.ConclusionsTumor progression was positively correlated with increasing infiltration of the tumor tissues by MHC class IIlow TAMs. Thus, targeting the transition of MΦ may be a novel strategy for drug development and immunotherapy.
Highlights
Tumor-associated macrophages (TAMs) are the most abundant immune cells within the tumor stroma and play a crucial role in tumor development
High levels of MF infiltration into tumor tissues are associated with a poor prognosis; this is true for hepatocellular carcinoma (HCC) [3,4,5,6]
This study shows that TAM depletion causes tumor regression in a murine hepatoma xenograft mouse model
Summary
Tumor-associated macrophages (TAMs) are the most abundant immune cells within the tumor stroma and play a crucial role in tumor development. Clinical investigations indicate that high levels of macrophage (MF) infiltration into tumors are associated with a poor prognosis, the exact role played by TAMs during tumor development remains unclear. Depletion of Kupffer cells worsens the prognosis of tumorbearing mice in peritoneal xenograft models because the cancer cells are able to metastasize to the liver; the mice die from the increased tumor burden in the MF are a highly heterogeneous cell population. This is because their phenotypes and diverse functions are shaped by the tumor microenvironment [11]. The precise role played by these heterogeneous TAM subsets in tumor progression has rarely been reported
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