Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Targeting glutaminolysis has antileukemic activity in acute myeloid leukemia and synergizes with BCL-2 inhibition.

Literature DB >> 26186940

Targeting glutaminolysis has antileukemic activity in acute myeloid leukemia and synergizes with BCL-2 inhibition.

Nathalie Jacque¹, Anne Marie Ronchetti¹, Clément Larrue², Godelieve Meunier¹, Rudy Birsen¹, Lise Willems³, Estelle Saland², Justine Decroocq⁴, Thiago Trovati Maciel⁴, Mireille Lambert¹, Laury Poulain¹, Marie Anne Hospital¹, Pierre Sujobert¹, Laure Joseph¹, Nicolas Chapuis⁵, Catherine Lacombe⁵, Ivan Cruz Moura⁴, Susan Demo⁶, Jean Emmanuel Sarry², Christian Recher², Patrick Mayeux⁵, Jérôme Tamburini³, Didier Bouscary³.

Abstract

Cancer cells require glutamine to adapt to increased biosynthetic activity. The limiting step in intracellular glutamine catabolism involves its conversion to glutamate by glutaminase (GA). Different GA isoforms are encoded by the genes GLS1 and GLS2 in humans. Herein, we show that glutamine levels control mitochondrial oxidative phosphorylation (OXPHOS) in acute myeloid leukemia (AML) cells. Glutaminase C (GAC) is the GA isoform that is most abundantly expressed in AML. Both knockdown of GLS1 expression and pharmacologic GLS1 inhibition by the drug CB-839 can reduce OXPHOS, leading to leukemic cell proliferation arrest and apoptosis without causing cytotoxic activity against normal human CD34(+) progenitors. Strikingly, GLS1 knockdown dramatically inhibited AML development in NSG mice. The antileukemic activity of CB-839 was abrogated by both the expression of a hyperactive GAC(K320A) allele and the addition of the tricarboxyclic acid cycle product α-ketoglutarate, indicating the critical function of GLS1 in AML cell survival. Finally, glutaminolysis inhibition activated mitochondrial apoptosis and synergistically sensitized leukemic cells to priming with the BCL-2 inhibitor ABT-199. These findings show that targeting glutamine addiction via GLS1 inhibition offers a potential novel therapeutic strategy for AML.

Entities: Chemical Disease Gene Mutation Species

Mesh：

Substances：

Year: 2015 PMID： 26186940 PMCID： PMC4608389 DOI： 10.1182/blood-2015-01-621870

Source DB: PubMed Journal: Blood ISSN： 0006-4971 Impact factor: 22.113

38 in total

Review 1. A novel glutaminase isoform in mammalian tissues.

Authors: Vanessa de la Rosa; José A Campos-Sandoval; Mercedes Martín-Rufián; Carolina Cardona; José M Matés; Juan A Segura; Francisco J Alonso; Javier Márquez
Journal: Neurochem Int Date: 2009-03-09 Impact factor: 3.921

2. Inhibition of glutaminase preferentially slows growth of glioma cells with mutant IDH1.

Authors: Meghan J Seltzer; Bryson D Bennett; Avadhut D Joshi; Ping Gao; Ajit G Thomas; Dana V Ferraris; Takashi Tsukamoto; Camilo J Rojas; Barbara S Slusher; Joshua D Rabinowitz; Chi V Dang; Gregory J Riggins
Journal: Cancer Res Date: 2010-11-02 Impact factor: 12.701

3. Phosphate-activated glutaminase (GLS2), a p53-inducible regulator of glutamine metabolism and reactive oxygen species.

Authors: Sawako Suzuki; Tomoaki Tanaka; Masha V Poyurovsky; Hidekazu Nagano; Takafumi Mayama; Shuichi Ohkubo; Maria Lokshin; Hiroyuki Hosokawa; Toshinori Nakayama; Yutaka Suzuki; Sumio Sugano; Eiichi Sato; Toshitaka Nagao; Koutaro Yokote; Ichiro Tatsuno; Carol Prives
Journal: Proc Natl Acad Sci U S A Date: 2010-03-29 Impact factor: 11.205

4. Glutaminase 2, a novel p53 target gene regulating energy metabolism and antioxidant function.

Authors: Wenwei Hu; Cen Zhang; Rui Wu; Yvonne Sun; Arnold Levine; Zhaohui Feng
Journal: Proc Natl Acad Sci U S A Date: 2010-04-08 Impact factor: 11.205

5. Targeting mitochondrial glutaminase activity inhibits oncogenic transformation.

Authors: Jian-Bin Wang; Jon W Erickson; Reina Fuji; Sekar Ramachandran; Ping Gao; Ramani Dinavahi; Kristin F Wilson; Andre L B Ambrosio; Sandra M G Dias; Chi V Dang; Richard A Cerione
Journal: Cancer Cell Date: 2010-09-14 Impact factor: 31.743

6. The hexosamine biosynthetic pathway couples growth factor-induced glutamine uptake to glucose metabolism.

Authors: Kathryn E Wellen; Chao Lu; Anthony Mancuso; Johanna M S Lemons; Michael Ryczko; James W Dennis; Joshua D Rabinowitz; Hilary A Coller; Craig B Thompson
Journal: Genes Dev Date: 2010-11-24 Impact factor: 11.361

7. The pINDUCER lentiviral toolkit for inducible RNA interference in vitro and in vivo.

Authors: Kristen L Meerbrey; Guang Hu; Jessica D Kessler; Kevin Roarty; Mamie Z Li; Justin E Fang; Jason I Herschkowitz; Anna E Burrows; Alberto Ciccia; Tingting Sun; Earlene M Schmitt; Ronald J Bernardi; Xiaoyong Fu; Christopher S Bland; Thomas A Cooper; Rachel Schiff; Jeffrey M Rosen; Thomas F Westbrook; Stephen J Elledge
Journal: Proc Natl Acad Sci U S A Date: 2011-02-09 Impact factor: 11.205

8. Inhibition of mitochondrial translation as a therapeutic strategy for human acute myeloid leukemia.

Authors: Marko Skrtić; Shrivani Sriskanthadevan; Bozhena Jhas; Marinella Gebbia; Xiaoming Wang; Zezhou Wang; Rose Hurren; Yulia Jitkova; Marcela Gronda; Neil Maclean; Courteney K Lai; Yanina Eberhard; Justyna Bartoszko; Paul Spagnuolo; Angela C Rutledge; Alessandro Datti; Troy Ketela; Jason Moffat; Brian H Robinson; Jessie H Cameron; Jeffery Wrana; Connie J Eaves; Mark D Minden; Jean C Y Wang; John E Dick; Keith Humphries; Corey Nislow; Guri Giaever; Aaron D Schimmer
Journal: Cancer Cell Date: 2011-11-15 Impact factor: 31.743

9. Energy metabolism in human pluripotent stem cells and their differentiated counterparts.

Authors: Sandra Varum; Ana S Rodrigues; Michelle B Moura; Olga Momcilovic; Charles A Easley; João Ramalho-Santos; Bennett Van Houten; Gerald Schatten
Journal: PLoS One Date: 2011-06-17 Impact factor: 3.240

10. Synergistic drug combinations tend to improve therapeutically relevant selectivity.

Authors: Joseph Lehár; Andrew S Krueger; William Avery; Adrian M Heilbut; Lisa M Johansen; E Roydon Price; Richard J Rickles; Glenn F Short; Jane E Staunton; Xiaowei Jin; Margaret S Lee; Grant R Zimmermann; Alexis A Borisy
Journal: Nat Biotechnol Date: 2009-07-05 Impact factor: 54.908

138 in total

Review 1. Pathways and mechanisms of venetoclax resistance.

Authors: Prithviraj Bose; Varsha Gandhi; Marina Konopleva
Journal: Leuk Lymphoma Date: 2017-01-31

2. Targeting Glutamine Metabolism and Redox State for Leukemia Therapy.

Authors: Mark A Gregory; Travis Nemkov; Hae J Park; Vadym Zaberezhnyy; Sarah Gehrke; Biniam Adane; Craig T Jordan; Kirk C Hansen; Angelo D'Alessandro; James DeGregori
Journal: Clin Cancer Res Date: 2019-04-02 Impact factor: 12.531

3. Glutaminase and poly(ADP-ribose) polymerase inhibitors suppress pyrimidine synthesis and VHL-deficient renal cancers.

Authors: Arimichi Okazaki; Paulo A Gameiro; Danos Christodoulou; Laura Laviollette; Meike Schneider; Frances Chaves; Anat Stemmer-Rachamimov; Stephanie A Yazinski; Richard Lee; Gregory Stephanopoulos; Lee Zou; Othon Iliopoulos
Journal: J Clin Invest Date: 2017-03-27 Impact factor: 14.808

4. Enhancing venetoclax activity in acute myeloid leukemia by co-targeting MCL1.

Authors: T-C Teh; N-Y Nguyen; D M Moujalled; D Segal; G Pomilio; S Rijal; A Jabbour; K Cummins; K Lackovic; P Blombery; E Thompson; P G Ekert; G Lessene; S P Glaser; D C S Huang; A W Roberts; M A Guthridge; A H Wei
Journal: Leukemia Date: 2017-07-28 Impact factor: 11.528

5. Glutamine metabolism via glutaminase 1 in autosomal-dominant polycystic kidney disease.

Authors: Irfana Soomro; Ying Sun; Zhai Li; Lonnette Diggs; Georgia Hatzivassiliou; Ajit G Thomas; Rana Rais; Seth J Parker; Barbara S Slusher; Alec C Kimmelman; Stefan Somlo; Edward Y Skolnik
Journal: Nephrol Dial Transplant Date: 2018-08-01 Impact factor: 5.992

Review 6. From Krebs to clinic: glutamine metabolism to cancer therapy.

Authors: Brian J Altman; Zachary E Stine; Chi V Dang
Journal: Nat Rev Cancer Date: 2016-07-29 Impact factor: 60.716

7. Bcl-2 delays cell cycle through mitochondrial ATP and ROS.

Authors: Xing Du; Xufeng Fu; Kun Yao; Zhenwei Lan; Hui Xu; Qinghua Cui; Elizabeth Yang
Journal: Cell Cycle Date: 2017-02-22 Impact factor: 4.534

8. Glutaminase inhibition improves FLT3 inhibitor therapy for acute myeloid leukemia.

Authors: Mark A Gregory; Travis Nemkov; Julie A Reisz; Vadym Zaberezhnyy; Kirk C Hansen; Angelo D'Alessandro; James DeGregori
Journal: Exp Hematol Date: 2017-09-22 Impact factor: 3.084

Review 9. Novel Prognostic and Therapeutic Mutations in Acute Myeloid Leukemia.

Authors: Michael Medinger; Claudia Lengerke; Jakob Passweg
Journal: Cancer Genomics Proteomics Date: 2016 09-10 Impact factor: 4.069

10. Amino acid depletion triggered by ʟ-asparaginase sensitizes MM cells to carfilzomib by inducing mitochondria ROS-mediated cell death.

Authors: Debora Soncini; Paola Minetto; Claudia Martinuzzi; Pamela Becherini; Valeria Fenu; Fabio Guolo; Katia Todoerti; Giovanni Calice; Paola Contini; Maurizio Miglino; Giulia Rivoli; Sara Aquino; Alida Dominietto; Antonia Cagnetta; Mario Passalacqua; Santina Bruzzone; Alessio Nencioni; Massimo Zucchetti; Tommaso Ceruti; Antonino Neri; Roberto M Lemoli; Michele Cea
Journal: Blood Adv Date: 2020-09-22