Add to ORKGActivation of serine biosynthesis supports growth and proliferation of cancer cells. Human cancers often exhibit overexpression of phosphoglycerate dehydrogenase (PHGDH), the metabolic enzyme that catalyses the reaction that diverts serine biosynthesis from the glycolytic pathway. By refueling serine biosynthetic pathways, cancer cells sustain their metabolic requirements, promoting macromolecule synthesis, anaplerotic flux and ATP. Serine biosynthesis intersects glutaminolysis and together with this pathway provides substrates for production of antioxidant GSH. In human lung adenocarcinomas we identified a correlation between serine biosynthetic pathway and p73 expression. Metabolic profiling of human cancer cell line revealed that TAp73 a...
Cancer cells display a reprogramming of metabolism that facilitates growth but addicts them to key e...
Leukemia cells are described as a prototype of glucose-consuming cells with a high turnover rate. Th...
Cancer cells reprogram their metabolism to promote growth and proliferation. The genetic evidence po...
Activation of serine biosynthesis supports growth and proliferation of cancer cells. Human cancers o...
Activation of serine biosynthesis supports growth and proliferation of cancer cells. Human cancers o...
Serine and glycine are biosynthetically linked, and together provide the essential precursors for th...
Serine and glycine are biosynthetically linked, and together provide the essential precursors for th...
Cancer cells are biosynthetic factories that gear multiple metabolic pathways toward cell growth and...
Serine and glycine are biosynthetically linked, and together provide the essential precursors for th...
Tumors exhibit altered metabolism compared to normal tissues. Many cancers upregulate expression of ...
Serine metabolism is frequently dysregulated in cancers; however, the benefit that this confers to t...
The activation of de novo serine/glycine biosynthesis in a subset of tumors has been described as a ...
Many tumour cells show dependence on exogenous serine and dietary serine and glycine starvation can ...
Serine and glycine are amino acids that provide the essential precursors for the synthesis of protei...
Cancer cells reprogramme their metabolism to support unrestrained proliferation and survival in nutr...
Cancer cells display a reprogramming of metabolism that facilitates growth but addicts them to key e...
Leukemia cells are described as a prototype of glucose-consuming cells with a high turnover rate. Th...
Cancer cells reprogram their metabolism to promote growth and proliferation. The genetic evidence po...
Activation of serine biosynthesis supports growth and proliferation of cancer cells. Human cancers o...
Activation of serine biosynthesis supports growth and proliferation of cancer cells. Human cancers o...
Serine and glycine are biosynthetically linked, and together provide the essential precursors for th...
Serine and glycine are biosynthetically linked, and together provide the essential precursors for th...
Cancer cells are biosynthetic factories that gear multiple metabolic pathways toward cell growth and...
Serine and glycine are biosynthetically linked, and together provide the essential precursors for th...
Tumors exhibit altered metabolism compared to normal tissues. Many cancers upregulate expression of ...
Serine metabolism is frequently dysregulated in cancers; however, the benefit that this confers to t...
The activation of de novo serine/glycine biosynthesis in a subset of tumors has been described as a ...
Many tumour cells show dependence on exogenous serine and dietary serine and glycine starvation can ...
Serine and glycine are amino acids that provide the essential precursors for the synthesis of protei...
Cancer cells reprogramme their metabolism to support unrestrained proliferation and survival in nutr...
Cancer cells display a reprogramming of metabolism that facilitates growth but addicts them to key e...
Leukemia cells are described as a prototype of glucose-consuming cells with a high turnover rate. Th...
Cancer cells reprogram their metabolism to promote growth and proliferation. The genetic evidence po...