Abstract
Tumor-associated macrophages (TAM) form a major component of the tumor stroma. However, important concepts such as TAM heterogeneity and the nature of the monocytic TAM precursors remain speculative. Here, we show for the first time that mouse mammary tumors contained functionally distinct subsets of TAMs and provide markers for their identification. Furthermore, in search of the TAM progenitors, we show that the tumor-monocyte pool almost exclusively consisted of Ly6C(hi)CX(3)CR1(low) monocytes, which continuously seeded tumors and renewed all nonproliferating TAM subsets. Interestingly, gene and protein profiling indicated that distinct TAM populations differed at the molecular level and could be classified based on the classic (M1) versus alternative (M2) macrophage activation paradigm. Importantly, the more M2-like TAMs were enriched in hypoxic tumor areas, had a superior proangiogenic activity in vivo, and increased in numbers as tumors progressed. Finally, it was shown that the TAM subsets were poor antigen presenters, but could suppress T-cell activation, albeit by using different suppressive mechanisms. Together, our data help to unravel the complexities of the tumor-infiltrating myeloid cell compartment and provide a rationale for targeting specialized TAM subsets, thereby optimally "re-educating" the TAM compartment.
Highlights
Myeloid cells are frequently found to infiltrate tumors and have been linked to diverse tumor-promoting activities [1]
We show that the tumor-infiltrating myeloid compartment can be highly heterogeneous, with the coexistence of distinct subsets of granulocytes and mononuclear phagocytes
We identified the nature and dynamics of the monocyte precursor that was seeding tumors and giving rise to distinct tumor-associated macrophages (TAM) subsets
Summary
Myeloid cells are frequently found to infiltrate tumors and have been linked to diverse tumor-promoting activities [1]. Tumor-associated macrophages (TAM) are an important component of the tumor stroma, both in murine models and human patients [2]. TAMs can promote tumor growth by affecting angiogenesis, immune suppression, and invasion and metastasis [2, 3]. It seems unlikely that these diverse functions are performed by a single cell type, and the existence of distinct TAM subsets, linked to different intratumoral microenvironments, has been predicted [4]. Studies identifying spatially and functionally distinct TAM subpopulations are currently lacking.
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