Inhibition of glycolytic enzymes mediated by pharmacologically activated p53: targeting Warburg effect to fight cancer
Unique sensitivity of tumor cells to the inhibition of glycolysis is a good target for anticancer therapy. Here, we demonstrate that the pharmacologically activated tumor suppressor p53 mediates the inhibition of glycolytic enzymes in cancer cells in vitro and in vivo. We showed that p53 binds to th...
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| Published in | The Journal of biological chemistry Vol. 286; no. 48; pp. 41600 - 41615 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Society for Biochemistry and Molecular Biology
02.12.2011
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| Abstract | Unique sensitivity of tumor cells to the inhibition of glycolysis is a good target for anticancer therapy. Here, we demonstrate that the pharmacologically activated tumor suppressor p53 mediates the inhibition of glycolytic enzymes in cancer cells in vitro and in vivo. We showed that p53 binds to the promoters of metabolic genes and represses their expression, including glucose transporters SLC2A12 (GLUT12) and SLC2A1 (GLUT1). Furthermore, p53-mediated repression of transcription factors c-Myc and HIF1α, key drivers of ATP-generating pathways in tumors, contributed to ATP production block. Inhibition of c-Myc by p53 mediated the ablation of several glycolytic genes in normoxia, whereas in hypoxia down-regulation of HIF1α contributed to this effect. We identified Sp1 as a transcription cofactor cooperating with p53 in the ablation of metabolic genes. Using different approaches, we demonstrated that glycolysis block contributes to the robust induction of apoptosis by p53 in cancer cells. Taken together, our data suggest that tumor-specific reinstatement of p53 function targets the "Achilles heel" of cancer cells (i.e. their dependence on glycolysis), which could contribute to the tumor-selective killing of cancer cells by pharmacologically activated p53. |
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| AbstractList | Unique sensitivity of tumor cells to the inhibition of glycolysis is a good target for anticancer therapy. Here, we demonstrate that the pharmacologically activated tumor suppressor p53 mediates the inhibition of glycolytic enzymes in cancer cells in vitro and in vivo. We showed that p53 binds to the promoters of metabolic genes and represses their expression, including glucose transporters SLC2A12 (GLUT12) and SLC2A1 (GLUT1). Furthermore, p53-mediated repression of transcription factors c-Myc and HIF1α, key drivers of ATP-generating pathways in tumors, contributed to ATP production block. Inhibition of c-Myc by p53 mediated the ablation of several glycolytic genes in normoxia, whereas in hypoxia down-regulation of HIF1α contributed to this effect. We identified Sp1 as a transcription cofactor cooperating with p53 in the ablation of metabolic genes. Using different approaches, we demonstrated that glycolysis block contributes to the robust induction of apoptosis by p53 in cancer cells. Taken together, our data suggest that tumor-specific reinstatement of p53 function targets the "Achilles heel" of cancer cells (i.e. their dependence on glycolysis), which could contribute to the tumor-selective killing of cancer cells by pharmacologically activated p53. Background: High dependence of cancer cells on glycolysis is a good target for cancer therapy. Results: Tumor suppressor p53 represses the expression of key regulators of metabolic genes HIF1a and c-Myc and glucose transporters GLUT1 and GLUT12. Conclusion: Blocking ATP production network by pharmacologically activated p53 contributes to cancer cell death. Significance: Tumor-selective killing by reconstituted p53 might be in part due to inhibition of glycolysis. Unique sensitivity of tumor cells to the inhibition of glycolysis is a good target for anticancer therapy. Here, we demonstrate that the pharmacologically activated tumor suppressor p53 mediates the inhibition of glycolytic enzymes in cancer cells in vitro and in vivo . We showed that p53 binds to the promoters of metabolic genes and represses their expression, including glucose transporters SLC2A12 (GLUT12) and SLC2A1 (GLUT1). Furthermore, p53-mediated repression of transcription factors c-Myc and HIF1α, key drivers of ATP-generating pathways in tumors, contributed to ATP production block. Inhibition of c-Myc by p53 mediated the ablation of several glycolytic genes in normoxia, whereas in hypoxia down-regulation of HIF1α contributed to this effect. We identified Sp1 as a transcription cofactor cooperating with p53 in the ablation of metabolic genes. Using different approaches, we demonstrated that glycolysis block contributes to the robust induction of apoptosis by p53 in cancer cells. Taken together, our data suggest that tumor-specific reinstatement of p53 function targets the “Achilles heel” of cancer cells ( i.e. their dependence on glycolysis), which could contribute to the tumor-selective killing of cancer cells by pharmacologically activated p53. |
| Author | Grinkevich, Vera V Hünten, Sabine Nikulenkov, Fedor Zawacka-Pankau, Joanna Enge, Martin Selivanova, Galina Li, Hai Kel, Alexander Gluch, Angela |
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| Snippet | Unique sensitivity of tumor cells to the inhibition of glycolysis is a good target for anticancer therapy. Here, we demonstrate that the pharmacologically... Background: High dependence of cancer cells on glycolysis is a good target for cancer therapy. Results: Tumor suppressor p53 represses the expression of key... |
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| SubjectTerms | Cell Hypoxia - genetics Cell Line, Tumor Gene Expression Regulation, Enzymologic Gene Expression Regulation, Neoplastic Glucose - genetics Glucose - metabolism Glucose Transport Proteins, Facilitative - biosynthesis Glucose Transport Proteins, Facilitative - genetics Glucose Transporter Type 1 - biosynthesis Glucose Transporter Type 1 - genetics Glycolysis Humans Hypoxia-Inducible Factor 1, alpha Subunit - genetics Hypoxia-Inducible Factor 1, alpha Subunit - metabolism Medicin och hälsovetenskap Molecular Bases of Disease Neoplasms - enzymology Neoplasms - genetics Neoplasms - therapy Proto-Oncogene Proteins c-myc - genetics Proto-Oncogene Proteins c-myc - metabolism Response Elements Tumor Suppressor Protein p53 - genetics Tumor Suppressor Protein p53 - metabolism |
| Title | Inhibition of glycolytic enzymes mediated by pharmacologically activated p53: targeting Warburg effect to fight cancer |
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