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Literature DB >> 31100352

Therapeutic targeting of glutaminolysis as an essential strategy to combat cancer.

José M Matés¹, Floriana J Di Paola², José A Campos-Sandoval¹, Sybille Mazurek², Javier Márquez³.

Abstract

Metabolic reprogramming in cancer targets glutamine metabolism as a key mechanism to provide energy, biosynthetic precursors and redox requirements to allow the massive proliferation of tumor cells. Glutamine is also a signaling molecule involved in essential pathways regulated by oncogenes and tumor suppressor factors. Glutaminase isoenzymes are critical proteins to control glutaminolysis, a key metabolic pathway for cell proliferation and survival that directs neoplasms' fate. Adaptive glutamine metabolism can be altered by different metabolic therapies, including the use of specific allosteric inhibitors of glutaminase that can evoke synergistic effects for the therapy of cancer patients. We also review other clinical applications of in vivo assessment of glutaminolysis by metabolomic approaches, including diagnosis and monitoring of cancer.

Entities: Chemical Disease Gene Species

Keywords: Cancer; Combination therapy; Glutaminase inhibitors; Glutamine imaging; Glutaminolysis; Metabolomics

Mesh：

Substances：

Year: 2019 PMID： 31100352 DOI： 10.1016/j.semcdb.2019.05.012

Source DB: PubMed Journal: Semin Cell Dev Biol ISSN： 1084-9521 Impact factor: 7.727

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Cited

30 in total

Review 1. Oxidative Stress in Cancer.

Authors: John D Hayes; Albena T Dinkova-Kostova; Kenneth D Tew
Journal: Cancer Cell Date: 2020-07-09 Impact factor: 31.743

2. Glutamine deficiency promotes stemness and chemoresistance in tumor cells through DRP1-induced mitochondrial fragmentation.

Authors: Parash Prasad; Sampurna Ghosh; Sib Sankar Roy
Journal: Cell Mol Life Sci Date: 2021-04-24 Impact factor: 9.261

Review 3. The role of the glutamine transporter ASCT2 in antineoplastic therapy.

Authors: Estefânia Teixeira; Cláudia Silva; Fátima Martel
Journal: Cancer Chemother Pharmacol Date: 2021-01-19 Impact factor: 3.333

4. Simple Esterification of [1-¹³C]-Alpha-Ketoglutarate Enhances Membrane Permeability and Allows for Noninvasive Tracing of Glutamate and Glutamine Production.

Authors: Jenna E AbuSalim; Kazutoshi Yamamoto; Natsuko Miura; Burchelle Blackman; Jeffrey R Brender; Chandrasekhar Mushti; Tomohiro Seki; Kevin A Camphausen; Rolf E Swenson; Murali C Krishna; Aparna H Kesarwala
Journal: ACS Chem Biol Date: 2021-09-23 Impact factor: 4.634

Review 5. The Role of Aberrant Metabolism in Cancer: Insights Into the Interplay Between Cell Metabolic Reprogramming, Metabolic Syndrome, and Cancer.

Authors: Yina Yu; Liang Gong; Jun Ye
Journal: Front Oncol Date: 2020-06-11 Impact factor: 6.244

Review 6. A Potential Role of YAP/TAZ in the Interplay Between Metastasis and Metabolic Alterations.

Authors: Hirohito Yamaguchi; Ghina M Taouk
Journal: Front Oncol Date: 2020-06-11 Impact factor: 6.244

Review 7. KRAS, A Prime Mediator in Pancreatic Lipid Synthesis through Extra Mitochondrial Glutamine and Citrate Metabolism.

Authors: Isaac James Muyinda; Jae-Gwang Park; Eun-Jung Jang; Byong-Chul Yoo
Journal: Int J Mol Sci Date: 2021-05-11 Impact factor: 5.923

Therapeutic targeting of glutaminolysis as an essential strategy to combat cancer.

Review 1. Oxidative Stress in Cancer.

2. Glutamine deficiency promotes stemness and chemoresistance in tumor cells through DRP1-induced mitochondrial fragmentation.

Review 3. The role of the glutamine transporter ASCT2 in antineoplastic therapy.

4. Simple Esterification of [1-¹³C]-Alpha-Ketoglutarate Enhances Membrane Permeability and Allows for Noninvasive Tracing of Glutamate and Glutamine Production.

Review 5. The Role of Aberrant Metabolism in Cancer: Insights Into the Interplay Between Cell Metabolic Reprogramming, Metabolic Syndrome, and Cancer.

Review 6. A Potential Role of YAP/TAZ in the Interplay Between Metastasis and Metabolic Alterations.

Review 7. KRAS, A Prime Mediator in Pancreatic Lipid Synthesis through Extra Mitochondrial Glutamine and Citrate Metabolism.

Review 8. SLC6A14 and SLC38A5 Drive the Glutaminolysis and Serine-Glycine-One-Carbon Pathways in Cancer.

Review 9. Metabolic Reprogramming of Colorectal Cancer Cells and the Microenvironment: Implication for Therapy.

Review 10. The Alterations in and the Role of the Th17/Treg Balance in Metabolic Diseases.

Therapeutic targeting of glutaminolysis as an essential strategy to combat cancer.

Review 1. Oxidative Stress in Cancer.

2. Glutamine deficiency promotes stemness and chemoresistance in tumor cells through DRP1-induced mitochondrial fragmentation.

Review 3. The role of the glutamine transporter ASCT2 in antineoplastic therapy.

4. Simple Esterification of [1-13C]-Alpha-Ketoglutarate Enhances Membrane Permeability and Allows for Noninvasive Tracing of Glutamate and Glutamine Production.

Review 5. The Role of Aberrant Metabolism in Cancer: Insights Into the Interplay Between Cell Metabolic Reprogramming, Metabolic Syndrome, and Cancer.

Review 6. A Potential Role of YAP/TAZ in the Interplay Between Metastasis and Metabolic Alterations.

Review 7. KRAS, A Prime Mediator in Pancreatic Lipid Synthesis through Extra Mitochondrial Glutamine and Citrate Metabolism.

Review 8. SLC6A14 and SLC38A5 Drive the Glutaminolysis and Serine-Glycine-One-Carbon Pathways in Cancer.

Review 9. Metabolic Reprogramming of Colorectal Cancer Cells and the Microenvironment: Implication for Therapy.

Review 10. The Alterations in and the Role of the Th17/Treg Balance in Metabolic Diseases.

4. Simple Esterification of [1-¹³C]-Alpha-Ketoglutarate Enhances Membrane Permeability and Allows for Noninvasive Tracing of Glutamate and Glutamine Production.