Inhibition of fatty acid metabolism reduces human myeloma cells proliferation

Multiple myeloma is a haematological malignancy characterized by the clonal proliferation of plasma cells. It has been proposed that targeting cancer cell metabolism would provide a new selective anticancer therapeutic strategy. In this work, we tested the hypothesis that inhibition of β-oxidation a...

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Veröffentlicht in:	PloS one 2012-09, Vol.7 (9), p.e46484
Hauptverfasser:	Tirado-Vélez, José Manuel, Joumady, Insaf, Sáez-Benito, Ana, Cózar-Castellano, Irene, Perdomo, Germán
Format:	Artikel
Sprache:	eng
Schlagworte:	Antimetabolites, Antineoplastic - pharmacology Apoptosis Apoptosis - drug effects Biology Boronic Acids - pharmacology Bortezomib Cancer Carbohydrate Metabolism - drug effects Cell cycle Cell Cycle Proteins - metabolism Cell death Cell growth Cell Line, Tumor Cell proliferation Cell Proliferation - drug effects Cell Survival - drug effects Cerulenin - pharmacology Cyclin-Dependent Kinase Inhibitor p21 - metabolism Drug Synergism Drugs Epoxy Compounds - pharmacology Fatty acid metabolism Fatty acids Fatty Acids - biosynthesis Fatty Acids - metabolism G1 Phase Cell Cycle Checkpoints - drug effects Glucose Glucose - metabolism GTP-binding protein Hematology Humans Inhibition Kinases Lactones - pharmacology Lipid Metabolism - drug effects Lipids Malignancy Medicine Metabolism Multiple Myeloma Oxidation Oxidation-Reduction Phosphorylation Plasma cells Proteins Pyrazines - pharmacology Regulatory proteins Retina Retinoblastoma Retinoblastoma protein Retinoblastoma Protein - metabolism Rodents S phase Synthesis
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creator	Tirado-Vélez, José Manuel Joumady, Insaf Sáez-Benito, Ana Cózar-Castellano, Irene Perdomo, Germán
description	Multiple myeloma is a haematological malignancy characterized by the clonal proliferation of plasma cells. It has been proposed that targeting cancer cell metabolism would provide a new selective anticancer therapeutic strategy. In this work, we tested the hypothesis that inhibition of β-oxidation and de novo fatty acid synthesis would reduce cell proliferation in human myeloma cells. We evaluated the effect of etomoxir and orlistat on fatty acid metabolism, glucose metabolism, cell cycle distribution, proliferation, cell death and expression of G1/S phase regulatory proteins in myeloma cells. Etomoxir and orlistat inhibited β-oxidation and de novo fatty acid synthesis respectively in myeloma cells, without altering significantly glucose metabolism. These effects were associated with reduced cell viability and cell cycle arrest in G0/G1. Specifically, etomoxir and orlistat reduced by 40-70% myeloma cells proliferation. The combination of etomoxir and orlistat resulted in an additive inhibitory effect on cell proliferation. Orlistat induced apoptosis and sensitized RPMI-8226 cells to apoptosis induction by bortezomib, whereas apoptosis was not altered by etomoxir. Finally, the inhibitory effect of both drugs on cell proliferation was associated with reduced p21 protein levels and phosphorylation levels of retinoblastoma protein. In conclusion, inhibition of fatty acid metabolism represents a potential therapeutic approach to treat human multiple myeloma.
doi_str_mv	10.1371/journal.pone.0046484
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It has been proposed that targeting cancer cell metabolism would provide a new selective anticancer therapeutic strategy. In this work, we tested the hypothesis that inhibition of β-oxidation and de novo fatty acid synthesis would reduce cell proliferation in human myeloma cells. We evaluated the effect of etomoxir and orlistat on fatty acid metabolism, glucose metabolism, cell cycle distribution, proliferation, cell death and expression of G1/S phase regulatory proteins in myeloma cells. Etomoxir and orlistat inhibited β-oxidation and de novo fatty acid synthesis respectively in myeloma cells, without altering significantly glucose metabolism. These effects were associated with reduced cell viability and cell cycle arrest in G0/G1. Specifically, etomoxir and orlistat reduced by 40-70% myeloma cells proliferation. The combination of etomoxir and orlistat resulted in an additive inhibitory effect on cell proliferation. Orlistat induced apoptosis and sensitized RPMI-8226 cells to apoptosis induction by bortezomib, whereas apoptosis was not altered by etomoxir. Finally, the inhibitory effect of both drugs on cell proliferation was associated with reduced p21 protein levels and phosphorylation levels of retinoblastoma protein. 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It has been proposed that targeting cancer cell metabolism would provide a new selective anticancer therapeutic strategy. In this work, we tested the hypothesis that inhibition of β-oxidation and de novo fatty acid synthesis would reduce cell proliferation in human myeloma cells. We evaluated the effect of etomoxir and orlistat on fatty acid metabolism, glucose metabolism, cell cycle distribution, proliferation, cell death and expression of G1/S phase regulatory proteins in myeloma cells. Etomoxir and orlistat inhibited β-oxidation and de novo fatty acid synthesis respectively in myeloma cells, without altering significantly glucose metabolism. These effects were associated with reduced cell viability and cell cycle arrest in G0/G1. Specifically, etomoxir and orlistat reduced by 40-70% myeloma cells proliferation. The combination of etomoxir and orlistat resulted in an additive inhibitory effect on cell proliferation. Orlistat induced apoptosis and sensitized RPMI-8226 cells to apoptosis induction by bortezomib, whereas apoptosis was not altered by etomoxir. Finally, the inhibitory effect of both drugs on cell proliferation was associated with reduced p21 protein levels and phosphorylation levels of retinoblastoma protein. In conclusion, inhibition of fatty acid metabolism represents a potential therapeutic approach to treat human multiple myeloma.</description><subject>Antimetabolites, Antineoplastic - pharmacology</subject><subject>Apoptosis</subject><subject>Apoptosis - drug effects</subject><subject>Biology</subject><subject>Boronic Acids - pharmacology</subject><subject>Bortezomib</subject><subject>Cancer</subject><subject>Carbohydrate Metabolism - drug effects</subject><subject>Cell cycle</subject><subject>Cell Cycle Proteins - metabolism</subject><subject>Cell death</subject><subject>Cell growth</subject><subject>Cell Line, Tumor</subject><subject>Cell proliferation</subject><subject>Cell Proliferation - drug effects</subject><subject>Cell Survival - drug effects</subject><subject>Cerulenin - pharmacology</subject><subject>Cyclin-Dependent Kinase Inhibitor p21 - metabolism</subject><subject>Drug Synergism</subject><subject>Drugs</subject><subject>Epoxy Compounds - pharmacology</subject><subject>Fatty acid metabolism</subject><subject>Fatty acids</subject><subject>Fatty Acids - 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It has been proposed that targeting cancer cell metabolism would provide a new selective anticancer therapeutic strategy. In this work, we tested the hypothesis that inhibition of β-oxidation and de novo fatty acid synthesis would reduce cell proliferation in human myeloma cells. We evaluated the effect of etomoxir and orlistat on fatty acid metabolism, glucose metabolism, cell cycle distribution, proliferation, cell death and expression of G1/S phase regulatory proteins in myeloma cells. Etomoxir and orlistat inhibited β-oxidation and de novo fatty acid synthesis respectively in myeloma cells, without altering significantly glucose metabolism. These effects were associated with reduced cell viability and cell cycle arrest in G0/G1. Specifically, etomoxir and orlistat reduced by 40-70% myeloma cells proliferation. The combination of etomoxir and orlistat resulted in an additive inhibitory effect on cell proliferation. Orlistat induced apoptosis and sensitized RPMI-8226 cells to apoptosis induction by bortezomib, whereas apoptosis was not altered by etomoxir. Finally, the inhibitory effect of both drugs on cell proliferation was associated with reduced p21 protein levels and phosphorylation levels of retinoblastoma protein. In conclusion, inhibition of fatty acid metabolism represents a potential therapeutic approach to treat human multiple myeloma.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23029529</pmid><doi>10.1371/journal.pone.0046484</doi><tpages>e46484</tpages><oa>free_for_read</oa></addata></record>
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subjects	Antimetabolites, Antineoplastic - pharmacology Apoptosis Apoptosis - drug effects Biology Boronic Acids - pharmacology Bortezomib Cancer Carbohydrate Metabolism - drug effects Cell cycle Cell Cycle Proteins - metabolism Cell death Cell growth Cell Line, Tumor Cell proliferation Cell Proliferation - drug effects Cell Survival - drug effects Cerulenin - pharmacology Cyclin-Dependent Kinase Inhibitor p21 - metabolism Drug Synergism Drugs Epoxy Compounds - pharmacology Fatty acid metabolism Fatty acids Fatty Acids - biosynthesis Fatty Acids - metabolism G1 Phase Cell Cycle Checkpoints - drug effects Glucose Glucose - metabolism GTP-binding protein Hematology Humans Inhibition Kinases Lactones - pharmacology Lipid Metabolism - drug effects Lipids Malignancy Medicine Metabolism Multiple Myeloma Oxidation Oxidation-Reduction Phosphorylation Plasma cells Proteins Pyrazines - pharmacology Regulatory proteins Retina Retinoblastoma Retinoblastoma protein Retinoblastoma Protein - metabolism Rodents S phase Synthesis
title	Inhibition of fatty acid metabolism reduces human myeloma cells proliferation
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