A Review of the Lipid Metabolism Reprogramming in Tumor Associated Macrophages

Abstract

Tumor associated macrophages (TAMs) are one of the most common types of stromal cells in solid tumors. They are closely related to the immunosuppressive status of tumor microenvironment and potentiate the malignant progress of tumors. Studies have shown that metabolism in tumor associated macrophages has been reprogrammed and involved in the regulation of their own polarization and corresponding functions and phenotypes. Metabolic reprogramming refers to the alteration of key enzymes activity, substrate and its associated metabolites' concentration in a certain metabolic pathway, which accounts for the disorder of original metabolic states. In this paper, we mainly concentrated on the lipid metabolic reprogramming of TAMs, including triglycerides, fatty acids and their derivatives, cholesterol, phospholipids, and their regulations on tumor progression. However, the metabolism of tumor and tumor microenvironment cells is highly heterogeneous. It is worthy of further exploration on the similarities and differences of lipid metabolism reprogramming between stromal cells and tumor cells, and the mechanism of how reprogramming modulates cell activity. It will be a new strategy for immunotherapy of tumor with metabolic intervention to accurately target the lipid metabolism reprogramming of TAMs, so as to promote the polarization of TAMs to M1 like macrophages, when synthetically considering the diverse types of tumors and different stages of development.