Literature DB >> 30209241

Targeting the Warburg effect via LDHA inhibition engages ATF4 signaling for cancer cell survival.

Gaurav Pathria1, David A Scott2, Yongmei Feng2, Joo Sang Lee3, Yu Fujita2, Gao Zhang4, Avinash D Sahu5, Eytan Ruppin3, Meenhard Herlyn4, Andrei L Osterman2, Ze'ev A Ronai1,6.   

Abstract

Nutrient restriction reprograms cellular signaling and metabolic network to shape cancer phenotype. Lactate dehydrogenase A (LDHA) has a key role in aerobic glycolysis (the Warburg effect) through regeneration of the electron acceptor NAD+ and is widely regarded as a desirable target for cancer therapeutics. However, the mechanisms of cellular response and adaptation to LDHA inhibition remain largely unknown. Here, we show that LDHA activity supports serine and aspartate biosynthesis. Surprisingly, however, LDHA inhibition fails to impact human melanoma cell proliferation, survival, or tumor growth. Reduced intracellular serine and aspartate following LDHA inhibition engage GCN2-ATF4 signaling to initiate an expansive pro-survival response. This includes the upregulation of glutamine transporter SLC1A5 and glutamine uptake, with concomitant build-up of essential amino acids, and mTORC1 activation, to ameliorate the effects of LDHA inhibition. Tumors with low LDHA expression and melanoma patients acquiring resistance to MAPK signaling inhibitors, which target the Warburg effect, exhibit altered metabolic gene expression reminiscent of the ATF4-mediated survival signaling. ATF4-controlled survival mechanisms conferring synthetic vulnerability to the approaches targeting the Warburg effect offer efficacious therapeutic strategies.
© 2018 The Authors.

Entities:  

Keywords:  zzm321990LDHAzzm321990; ATF4; Warburg; aspartate; mTORC1

Mesh:

Substances:

Year:  2018        PMID: 30209241      PMCID: PMC6187221          DOI: 10.15252/embj.201899735

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  46 in total

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Authors:  Eva Szegezdi; Susan E Logue; Adrienne M Gorman; Afshin Samali
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2.  mTOR Inhibition Restores Amino Acid Balance in Cells Dependent on Catabolism of Extracellular Protein.

Authors:  Michel Nofal; Kevin Zhang; Seunghun Han; Joshua D Rabinowitz
Journal:  Mol Cell       Date:  2017-09-14       Impact factor: 17.970

3.  SIRT3-dependent GOT2 acetylation status affects the malate-aspartate NADH shuttle activity and pancreatic tumor growth.

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Journal:  EMBO J       Date:  2015-03-09       Impact factor: 11.598

4.  Metabolic plasticity underpins innate and acquired resistance to LDHA inhibition.

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Journal:  Nat Chem Biol       Date:  2016-08-01       Impact factor: 15.040

5.  An integrated stress response regulates amino acid metabolism and resistance to oxidative stress.

Authors:  Heather P Harding; Yuhong Zhang; Huiquing Zeng; Isabel Novoa; Phoebe D Lu; Marcella Calfon; Navid Sadri; Chi Yun; Brian Popko; Richard Paules; David F Stojdl; John C Bell; Thore Hettmann; Jeffrey M Leiden; David Ron
Journal:  Mol Cell       Date:  2003-03       Impact factor: 17.970

6.  Activating transcription factor 4 is translationally regulated by hypoxic stress.

Authors:  Jaime D Blais; Vasilisa Filipenko; Meixia Bi; Heather P Harding; David Ron; Costas Koumenis; Bradly G Wouters; John C Bell
Journal:  Mol Cell Biol       Date:  2004-09       Impact factor: 4.272

Review 7.  Lactate dehydrogenase A in cancer: a promising target for diagnosis and therapy.

Authors:  Ping Miao; Shile Sheng; Xiaoguang Sun; Jianjun Liu; Gang Huang
Journal:  IUBMB Life       Date:  2013-11-07       Impact factor: 3.885

Review 8.  Detection and characterization of tumor hypoxia using pO2 histography.

Authors:  Peter Vaupel; Michael Höckel; Arnulf Mayer
Journal:  Antioxid Redox Signal       Date:  2007-08       Impact factor: 8.401

9.  Asparagine plays a critical role in regulating cellular adaptation to glutamine depletion.

Authors:  Ji Zhang; Jing Fan; Sriram Venneti; Justin R Cross; Toshimitsu Takagi; Bhavneet Bhinder; Hakim Djaballah; Masayuki Kanai; Emily H Cheng; Alexander R Judkins; Bruce Pawel; Julie Baggs; Sara Cherry; Joshua D Rabinowitz; Craig B Thompson
Journal:  Mol Cell       Date:  2014-09-18       Impact factor: 17.970

10.  Resistance to BRAF inhibitors induces glutamine dependency in melanoma cells.

Authors:  Franziska Baenke; Barbara Chaneton; Matthew Smith; Niels Van Den Broek; Kate Hogan; Haoran Tang; Amaya Viros; Matthew Martin; Laura Galbraith; Maria R Girotti; Nathalie Dhomen; Eyal Gottlieb; Richard Marais
Journal:  Mol Oncol       Date:  2015-08-20       Impact factor: 6.603
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  34 in total

1.  ATF4-amino acid circuits: a recipe for resistance in melanoma.

Authors:  Mario R Fernandez; John L Cleveland
Journal:  EMBO J       Date:  2018-09-28       Impact factor: 11.598

Review 2.  Signal pathways of melanoma and targeted therapy.

Authors:  Weinan Guo; Huina Wang; Chunying Li
Journal:  Signal Transduct Target Ther       Date:  2021-12-20

Review 3.  The multiple roles of LDH in cancer.

Authors:  Giuseppina Claps; Sara Faouzi; Virginie Quidville; Feras Chehade; Shensi Shen; Stéphan Vagner; Caroline Robert
Journal:  Nat Rev Clin Oncol       Date:  2022-10-07       Impact factor: 65.011

Review 4.  The plasticity of mRNA translation during cancer progression and therapy resistance.

Authors:  Lucilla Fabbri; Alina Chakraborty; Caroline Robert; Stéphan Vagner
Journal:  Nat Rev Cancer       Date:  2021-08-02       Impact factor: 60.716

5.  MAPK signaling regulates c-MYC for melanoma cell adaptation to asparagine restriction.

Authors:  Gaurav Pathria; Sachin Verma; Jun Yin; David A Scott; Ze'ev A Ronai
Journal:  EMBO Rep       Date:  2021-02-08       Impact factor: 8.807

Review 6.  Harnessing the Co-vulnerabilities of Amino Acid-Restricted Cancers.

Authors:  Gaurav Pathria; Ze'ev A Ronai
Journal:  Cell Metab       Date:  2021-01-05       Impact factor: 27.287

7.  Analysis of Melanoma Cell Glutamine Metabolism by Stable Isotope Tracing and Gas Chromatography-Mass Spectrometry.

Authors:  David A Scott
Journal:  Methods Mol Biol       Date:  2021

8.  Serine Metabolism Regulates YAP Activity Through USP7 in Colon Cancer.

Authors:  Xiaoya Zhao; Jianfei Fu; Bin Hu; Lin Chen; Jing Wang; Jinyong Fang; Chenyang Ge; Haiping Lin; Kailing Pan; Liang Fu; Lude Wang; Jinlin Du; Wenxia Xu
Journal:  Front Cell Dev Biol       Date:  2021-05-12

9.  Targeting Lactate Dehydrogenase A with Catechin Resensitizes SNU620/5FU Gastric Cancer Cells to 5-Fluorouracil.

Authors:  Jung Ho Han; MinJeong Kim; Hyeon Jin Kim; Se Bok Jang; Sung-Jin Bae; In-Kyu Lee; Dongryeol Ryu; Ki-Tae Ha
Journal:  Int J Mol Sci       Date:  2021-05-20       Impact factor: 5.923

10.  Circ_0001944 Contributes to Glycolysis and Tumor Growth by Upregulating NFAT5 Through Acting as a Decoy for miR-142-5p in Non-Small Cell Lung Cancer.

Authors:  Yawei Dou; Wei Tian; Hongtao Wang; Shanshan Lv
Journal:  Cancer Manag Res       Date:  2021-05-11       Impact factor: 3.989
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