Glycolysis is a preferred metabolic pattern of cancer cells. Phosphoglycerate mutase 1 (PGAM1) is a pivotal glycolytic enzyme that catalyzes the reciprocal conversion between 2-phosphoglycerate and 3-phosphoglycerate. It also stimulates anabolic pathways, generates adenosine triphosphate, and keeps redox balance under hypoxic conditions. Mounting evidence supports that PGAM1 is overexpressed in many cancers and promotes their progression. The critical roles of PGAM1 in tumorigenesis make it a promising theranostical target for cancer. The aberrant expression of PGAM1 enables it to become a potential diagnosis gene for several cancers, and its heterogeneous regulations via interacting with its different ligands increase the possibility of it as a target for cancer therapy and discovery of tens of PGAM1 inhibitors, which can provide the potential feasibility for cancer treatment. This review provides insights into structure, function, and regulation of PGAM1, summarizes its mechanism in tumorigenesis, reviews the advanced status of PGAM1 inhibitors in cancer diagnosis and treatment, and finally emphasizes PGAM1 as an appealing theranostical target for cancer.
Keywords: Cancer therapy; Glycolysis; Phosphoglycerate mutase 1; Structure-activity relationship.
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