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3. Potentiation of chemotherapeutic drugs by energy metabolism inhibitors 2-deoxyglucose and etomoxir

Author

Stig Linder, Yildiz Ozlem Ates, Omar M. Khan, Maria C. Shoshan, Emma Hernlund, Theocharis Panaretakis, and Linda Strandberg Ihrlund

Subjects
Cisplatin, Cancer Research, Programmed cell death, Deoxyglucose, Long-term potentiation, Pharmacology, Biology, chemistry.chemical_compound, Oncology, chemistry, Apoptosis, Enzyme inhibitor, medicine, biology.protein, Glycolysis, Etomoxir, medicine.drug
Abstract

Inhibition of energy production as a strategy for potentiation of anticancer chemotherapy was investigated using 1 glycolysis inhibitor and 1 fatty acid beta-oxidation inhibitor-2-deoxyglucose and etomoxir, respectively, both known to be clinically well tolerated. Eighteen anticancer drugs were screened for potentiation by these inhibitors. 2-deoxyglucose potentiated acute apoptosis (24 hr) induced mainly by some, but not all, genotoxic drugs, whereas etomoxir had effect only on cisplatin. By contrast, etomoxir did potentiate the overall, 48 hr effects of some genotoxic drugs, and was in addition more efficient than deoxyglucose in potentiating the overall effects of several non-genotoxic drugs. Both types of potentiation were largely lost in the absence of p53. Because cisplatin was potentiated by both energy inhibitors in both types of assay, it was investigated at additional concentrations and over longer time. Both energy inhibitors strongly potentiated non-apoptotic concentrations of cisplatin in p53-wildtype as well as in p53-deficient, cisplatin-resistant HCT-116 colon carcinoma cells. Reduced ATP levels correlated with, but were not sole determinants, the antiproliferative effects. We conclude that the long-term effects of cisplatin potentiation are important and either p53-independent or improved by a lack of p53. We also conclude that although the potentiated drugs as yet have no obvious mechanistic factor in common, the strategy holds promise with genotoxic as well non-genotoxic anticancer drugs.

Published
2008
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4. Calpain-Mediated Bid Cleavage and Calpain-Independent Bak Modulation: Two Separate Pathways in Cisplatin-Induced Apoptosis

Author

Aleksandra Mandic, Stig Linder, Maria C. Shoshan, Linda Strandberg, Thomas Heiden, Johan Hansson, and Kristina Viktorsson

Subjects
Time Factors, Cathepsin L, Molecular Sequence Data, Glycine, Apoptosis, Cytochrome c Group, Arginine, Cleavage (embryo), Membrane Potentials, Tumor Cells, Cultured, Humans, Amino Acid Sequence, Cell Growth and Development, Molecular Biology, Caspase, biology, Calpain, Cytochrome c, Membrane Proteins, Dipeptides, Intracellular Membranes, Cell Biology, Cathepsins, Molecular biology, Mitochondria, Cell biology, Enzyme Activation, Cysteine Endopeptidases, bcl-2 Homologous Antagonist-Killer Protein, biology.protein, Calcium, Cisplatin, biological phenomena, cell phenomena, and immunity, Signal transduction, Carrier Proteins, Protein Processing, Post-Translational, Bcl-2 Homologous Antagonist-Killer Protein, BH3 Interacting Domain Death Agonist Protein, Signal Transduction
Abstract

Calpain is a ubiquitous protease with potential involvement in apoptosis. We report that in human melanoma cells, cisplatin-induced calpain activation occurs early in apoptosis. Calpain activation and subsequent apoptosis were inhibited by calpeptin and PD150606, two calpain inhibitors with different modes of action. Furthermore, cisplatin induced cleavage of the BH3-only protein Bid, yielding a 14-kDa fragment similar to proapoptotic, caspase-cleaved Bid. However, Bid cleavage was inhibited by inhibitors of calpain, but not by inhibitors of caspases or of cathepsin L. Recombinant Bid was cleaved in vitro by both recombinant calpain and by lysates of cisplatin-treated cells. Cleavage was calpeptin sensitive, and the cleavage site was mapped between Gly70 and Arg71. Calpain-cleaved Bid induced cytochrome c release from isolated mitochondria. While calpeptin did not affect cisplatin-induced modulation of Bak to its proapoptotic conformation, a dominant-negative mutant of MEKK1 (dnMEKK) inhibited Bak modulation. dnMEKK did not, however, block Bid cleavage. The combination of dnMEKK and calpeptin had an additive inhibitory effect on apoptosis. In summary, calpain-mediated Bid cleavage is important in drug-induced apoptosis, and cisplatin induces at least two separate apoptotic signaling pathways resulting in Bid cleavage and Bak modulation, respectively.

Published
2002
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5. Potentiation of chemotherapeutic drugs by energy metabolism inhibitors 2-deoxyglucose and etomoxir

Author

Emma, Hernlund, Linda Strandberg, Ihrlund, Omar, Khan, Yildiz Ozlem, Ates, Stig, Linder, Theocharis, Panaretakis, and Maria C, Shoshan

Subjects
Time Factors, Carcinoma, Antineoplastic Agents, Apoptosis, Drug Synergism, Deoxyglucose, HCT116 Cells, Adenosine Triphosphate, Colonic Neoplasms, Epoxy Compounds, Humans, Cisplatin, Drug Screening Assays, Antitumor, Energy Metabolism, Reactive Oxygen Species, Oxidation-Reduction, Cell Proliferation
Abstract

Inhibition of energy production as a strategy for potentiation of anticancer chemotherapy was investigated using 1 glycolysis inhibitor and 1 fatty acid beta-oxidation inhibitor-2-deoxyglucose and etomoxir, respectively, both known to be clinically well tolerated. Eighteen anticancer drugs were screened for potentiation by these inhibitors. 2-deoxyglucose potentiated acute apoptosis (24 hr) induced mainly by some, but not all, genotoxic drugs, whereas etomoxir had effect only on cisplatin. By contrast, etomoxir did potentiate the overall, 48 hr effects of some genotoxic drugs, and was in addition more efficient than deoxyglucose in potentiating the overall effects of several non-genotoxic drugs. Both types of potentiation were largely lost in the absence of p53. Because cisplatin was potentiated by both energy inhibitors in both types of assay, it was investigated at additional concentrations and over longer time. Both energy inhibitors strongly potentiated non-apoptotic concentrations of cisplatin in p53-wildtype as well as in p53-deficient, cisplatin-resistant HCT-116 colon carcinoma cells. Reduced ATP levels correlated with, but were not sole determinants, the antiproliferative effects. We conclude that the long-term effects of cisplatin potentiation are important and either p53-independent or improved by a lack of p53. We also conclude that although the potentiated drugs as yet have no obvious mechanistic factor in common, the strategy holds promise with genotoxic as well non-genotoxic anticancer drugs.

Published
2008

6. 3-Bromopyruvate as inhibitor of tumour cell energy metabolism and chemopotentiator of platinum drugs

Author

Linda Strandberg Ihrlund, Emma Hernlund, Omar M. Khan, and Maria C. Shoshan

Subjects
Cancer Research, Organoplatinum Compounds, Platinum Compounds, Biology, Mitochondrion, Pharmacology, Deoxyglucose, chemistry.chemical_compound, Adenosine Triphosphate, Cell Line, Tumor, Antineoplastic Combined Chemotherapy Protocols, Genetics, medicine, Humans, Glycolysis, Pyruvates, Cell Proliferation, chemistry.chemical_classification, Cisplatin, Reactive oxygen species, Hexokinase, Cell Death, Cell growth, Drug Synergism, General Medicine, Mitochondria, Oxaliplatin, Glucose, Oncology, chemistry, Anaerobic glycolysis, Colonic Neoplasms, Papers, Molecular Medicine, Tumor Suppressor Protein p53, Energy Metabolism, Adenosine triphosphate, medicine.drug
Abstract

Tumour cells depend on aerobic glycolysis for adenosine triphosphate (ATP) production, making energy metabolism an interesting therapeutic target. 3-Bromopyruvate (BP) has been shown by others to inhibit hexokinase and eradicate mouse hepatocarcinomas. We report that similar to the glycolysis inhibitor 2-deoxyglucose (DG), BP rapidly decreased cellular ATP within hours, but unlike DG, BP concomitantly induced mitochondrial depolarization without affecting levels of reducing equivalents. Over 24h, and at equitoxic doses, DG reduced glucose consumption more than did BP. The observed BP-induced loss of ATP is therefore largely due to mitochondrial effects. Cell death induced over 24h by BP, but not DG, was blocked by N-acetylcysteine, indicating involvement of reactive oxygen species. BP-induced cytotoxicity was independent of p53. When combined with cisplatin or oxaliplatin, BP led to massive cell death. The anti-proliferative effects of low-dose platinum were strikingly potentiated also in resistant p53-deficient cells. Together with the reported lack of toxicity, this indicates the potential of BP as a clinical chemopotentiating agent.

Published
2007

7. Two distinct steps of Bak regulation during apoptotic stress signaling: different roles of MEKK1 and JNK1

Author

Emma Hernlund, Theocharis Panaretakis, Stig Linder, Maria C. Shoshan, Linda Strandberg Ihrlund, Kristina Viktorsson, Gabor Barna, and Kanaga Sabapathy

Subjects
MAP Kinase Kinase Kinase 1, Caspase 3, Apoptosis, Mitochondrion, Transfection, Models, Biological, p38 Mitogen-Activated Protein Kinases, Mice, Cell Line, Tumor, Proto-Oncogene Proteins, Animals, Humans, Sorbitol, Mitogen-Activated Protein Kinase 8, Enzyme Inhibitors, Phosphorylation, Extracellular Signal-Regulated MAP Kinases, Caspase, Anthracenes, biology, Bcl-2-Like Protein 11, Kinase, JNK Mitogen-Activated Protein Kinases, Cytochromes c, Membrane Proteins, Cell Biology, Fibroblasts, Molecular biology, Cell biology, bcl-2 Homologous Antagonist-Killer Protein, Caspases, biology.protein, biological phenomena, cell phenomena, and immunity, Signal transduction, Cisplatin, Apoptosis Regulatory Proteins, Bcl-2 Homologous Antagonist-Killer Protein, BH3 Interacting Domain Death Agonist Protein, Signal Transduction
Abstract

Stress-activated protein (SAP) kinases and the mitochondrial pro-apoptotic Bcl-2 protein Bak are important regulators of apoptosis. Reduced expression of Bak increases cellular resistance to the anticancer agent cisplatin, and we report here that mouse embryo fibroblasts deficient in the SAP kinase jnk1 are highly resistant to apoptosis induced by cisplatin. When human melanoma cells were treated with cisplatin, Bak function was found to be regulated in two distinct steps by two SAP kinases, MEKK1 and JNK1. The first of these steps involves MEKK1-controlled conformational activation of Bak. The second step leads to formation of 80-170 kDa Bak complexes correlating with apoptosis, and is controlled by JNK1. Inhibition of MEKK1 blocked the initial Bak conformational activation but did not block JNK1 activation, and deficiency in, or inhibition of, JNK1 did not prevent conformational activation of Bak. Furthermore, inducible expression of a constitutively active form of MEKK1 led to Bak conformational activation, but not to 80-170 kDa complexes. Consequently, apoptosis was delayed unless JNK was exogenously stimulated, indicating that Bak conformational activation is not necessarily an apoptotic marker. The two-step regulation of Bak revealed here may be important for tight control of mitochondrial factor release and apoptosis.

Published
2005

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