[Research Progress on Glycolytic Reprogramming and Lactylation Crosstalk in Tumors].

Metabolic reprogramming is a hallmark of cancer, with the Warburg effect-driven aerobic glycolysis leading to a substantial accumulation of lactate in the tumor microenvironment. For a long time, lactate was considered a mere metabolic end product; however, recent studies have found that it acts as an important signaling molecule, profoundly influencing tumor progression by inducing a novel post-translational modification - lactylation. Lactylation, driven by lactate, occurs on both histones and non-histone proteins and is finely regulated by the 'writer' 'eraser' and 'reader' mechanisms, thereby altering the function of target proteins and gene expression. This review systematically explores the bidirectional regulatory network between glycolytic reprogramming and lactylation: on one hand, key glycolytic regulators promote lactate production, thereby increasing lactylation levels; on the other hand, lactylation can feedback to regulate the activity and expression of key glycolytic enzymes, forming a pro-tumor positive feedback loop. This interaction plays a central role in tumor proliferation, metastasis, DNA damage repair, and immune evasion. Consequently, targeting lactate production, lactate transport, or the lactylation process itself has emerged as a highly promising anti-cancer strategy and shows potential synergy with existing therapies such as immune checkpoint inhibitors. In-depth analysis of the glycolysis-lactylation axis will provide a crucial theoretical basis for developing novel cancer treatment approaches.
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