Sphingolipids in cancer.

The bioactive sphingolipids including, ceramide, sphingosine, and sphingosine-1-phosphate (S1P) have important roles in several types of signaling and regulation of many cellular processes including cell proliferation, apoptosis, senescence, angiogenesis, and transformation. Recent accumulating evidence suggests that ceramide- and S1P-mediated pathways have been implicated in cancer development, progression, and chemotherapy. Ceramide mediates numerous cell-stress responses, such as induction of apoptosis and cell senescence, whereas S1P plays pivotal roles in cell survival, migration, and inflammation. These sphingolipids with opposing roles can be interconverted within cells, suggesting that the balance between them is related to cell fate. Importantly, these sphingolipids are metabolically related through actions of enzymes including ceramidases, ceramide synthases, sphingosine kinases, and S1P phosphatases thereby forming a network of metabolically interrelated bioactive lipid mediators whose importance in normal cellular function and diseases is gaining appreciation. In this review, we summarize involvement of sphingolipids and their related enzymes in pathogenesis and therapy of cancer and discuss future directions of sphingolipid field in cancer research.