Energy stress and adaptation strategy of tumor cells in different microenvironments: from primary tumors to distant metastases

Since the Warburg effect was first described in the 1920s, tumor energy metabolism has been a central focus of cancer research, emerging as a potential therapeutic target. The tumor microenvironment-including blood vessels, immune cells, stromal components, and other cell types-profoundly influences tumor cell metabolism. Variations in energy supply, oxygen availability, nutrient composition, and the accumulation of metabolic waste across different microenvironments challenge tumor cell survival and progression. In response, tumor cells adapt through flexible regulation and reprogramming of metabolic pathways. Although recent studies have explored metabolic adaptation mechanisms in various tumor microenvironments, the full spectrum from primary tumors to distant metastases remains unexplored. This review summarizes energy stress and adaptation maneuvers in tumor cells across different stages of tumor progression and offers a new perspective for comprehensive research to explore therapeutic strategies targeting tumor metabolism.