Abstract
IntroductionMacrophages play a significant role in the progression of diseases, such as cancer, making them a target for immune‐modulating agents. Trehalose dibehenate (TDB) is known to activate M1‐like macrophages via Mincle, however, the effect of TDB on M2‐like macrophages, which are found in the tumor microenvironment, has not been studied.MethodsqRT‐PCR, flow cytometry, cytokine ELISA, and Western Blotting were used to study the effect of TDB on GM‐CSF and M‐CSF/IL‐4 derived bone marrow macrophages (BMMs) from C57BL/6 and Mincle−/− mice.ResultsTDB treatment up‐regulated M1 markers over M2 markers by GM‐CSF BMMs, whereas M‐CSF/IL‐4 BMMs down‐regulated marker gene expression overall. TDB treatment resulted in Mincle‐independent down‐regulation of CD11b, CD115, and CD206 expression by GM‐CSF macrophages and CD115 in M‐CSF/IL‐4 macrophages. GM‐CSF BMMs produced of significant levels of proinflammatory cytokines (IL‐1β, IL‐6, TNF‐α), which was Mincle‐dependent and further enhanced by LPS priming. M‐CSF BMMs produced little or no cytokines in response to TDB regardless of LPS priming. Western blot analysis confirmed that the absence of cytokine production was associated with a lack of activation of the Syk kinase pathway.ConclusionThis study illustrates that TDB has the potential to differentially regulate M1‐ and M2‐like macrophages in the tumor environment.
Highlights
Macrophages play a significant role in the progression of diseases, such as cancer, making them a target for immune-modulating agents
Analysis of cell surface marker expression on the two macrophage populations by flow cytometry showed that GM-CSF bone marrow macrophages (BMMs) expressed higher levels of MHC II, CD86 and Mincle, and lower levels of the M2 markers F4/80, CD115, and CD206 compared to M-CSF/IL-4 macrophages (Fig. 1B)
This data was consistent with the GM-CSF and M-CSF/IL-4 BMMs exhibiting M1-like proinflammatory and M2-like tissue-resident antiinflammatory phenotypes, respectively [38,39,40]
Summary
Macrophages play a significant role in the progression of diseases, such as cancer, making them a target for immune-modulating agents. TDB treatment resulted in Mincle-independent down-regulation of CD11b, CD115, and CD206 expression by GM-CSF macrophages and CD115 in M-CSF/IL-4 macrophages. Innate immunity plays an important role in host protection against invading pathogens, and in the progression of various diseases, such as autoimmunity, atherosclerosis, and cancer [1, 2]. Microbial products, such as trehalose glycolipids [3], have been widely studied for their ability to cause and treat disease [4, 5]. Upon binding of TDB to Mincle, the Syk (Spleen tyrosine kinase) and Card9–Bcl10–MALT1 inflammasome pathways are activated, which leads to the cellular production of cytokines and chemokines [20,21,22,23]
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