Abstract
Tumor cells, including leukemic cells, remodel their bioenergetic system in favor of aerobic glycolysis. This process is called “the Warburg effect” and offers an attractive pharmacological target to preferentially eliminate malignant cells. In addition, recent results show that metabolic changes can be linked to tumor immune evasion. Mouse models demonstrate the importance of this metabolic remodeling in leukemogenesis. Some leukemias, although treatable, remain incurable and resistance to chemotherapy produces an elevated percentage of relapse in most leukemia cases. Several groups have targeted the specific metabolism of leukemia cells in preclinical and clinical studies to improve the prognosis of these patients, i.e. using L-asparaginase to treat pediatric acute lymphocytic leukemia (ALL). Additional metabolic drugs that are currently being used to treat other diseases or tumors could also be exploited for leukemia, based on preclinical studies. Finally, we discuss the potential use of several metabolic drugs in combination therapies, including immunomodulatory drugs (IMiDs) or immune cell-based therapies, to increase their efficacy and reduce side effects in the treatment of hematological cancers.
Keywords: Cancer immunosurveillance, DCA, glutamine, metformin, MHC-I, OXPHOS, warburg effect.
Anti-Cancer Agents in Medicinal Chemistry
Title:Chemical Metabolic Inhibitors for the Treatment of Blood-Borne Cancers
Volume: 14 Issue: 2
Author(s): Martin Villalba, Nuria Lopez-Royuela, Ewelina Krzywinska, Moeez G. Rathore, Robert A. Hipskind, Houda Haouas and Nerea Allende-Vega
Affiliation:
Keywords: Cancer immunosurveillance, DCA, glutamine, metformin, MHC-I, OXPHOS, warburg effect.
Abstract: Tumor cells, including leukemic cells, remodel their bioenergetic system in favor of aerobic glycolysis. This process is called “the Warburg effect” and offers an attractive pharmacological target to preferentially eliminate malignant cells. In addition, recent results show that metabolic changes can be linked to tumor immune evasion. Mouse models demonstrate the importance of this metabolic remodeling in leukemogenesis. Some leukemias, although treatable, remain incurable and resistance to chemotherapy produces an elevated percentage of relapse in most leukemia cases. Several groups have targeted the specific metabolism of leukemia cells in preclinical and clinical studies to improve the prognosis of these patients, i.e. using L-asparaginase to treat pediatric acute lymphocytic leukemia (ALL). Additional metabolic drugs that are currently being used to treat other diseases or tumors could also be exploited for leukemia, based on preclinical studies. Finally, we discuss the potential use of several metabolic drugs in combination therapies, including immunomodulatory drugs (IMiDs) or immune cell-based therapies, to increase their efficacy and reduce side effects in the treatment of hematological cancers.
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Cite this article as:
Villalba Martin, Lopez-Royuela Nuria, Krzywinska Ewelina, Rathore G. Moeez, Hipskind A. Robert, Haouas Houda and Allende-Vega Nerea, Chemical Metabolic Inhibitors for the Treatment of Blood-Borne Cancers, Anti-Cancer Agents in Medicinal Chemistry 2014; 14 (2) . https://dx.doi.org/10.2174/18715206113136660374
DOI https://dx.doi.org/10.2174/18715206113136660374 |
Print ISSN 1871-5206 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-5992 |
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