Literature DB >> 26170313

Glucose-dependent acetylation of Rictor promotes targeted cancer therapy resistance.

Kenta Masui1, Kazuhiro Tanaka2, Shiro Ikegami3, Genaro R Villa3, Huijun Yang3, William H Yong4, Timothy F Cloughesy5, Kanato Yamagata6, Nobutaka Arai7, Webster K Cavenee8, Paul S Mischel9.   

Abstract

Cancer cells adapt their signaling in response to nutrient availability. To uncover the mechanisms regulating this process and its functional consequences, we interrogated cell lines, mouse tumor models, and clinical samples of glioblastoma (GBM), the highly lethal brain cancer. We discovered that glucose or acetate is required for epidermal growth factor receptor vIII (EGFRvIII), the most common growth factor receptor mutation in GBM, to activate mechanistic target of rapamycin complex 2 (mTORC2) and promote tumor growth. Glucose or acetate promoted growth factor receptor signaling through acetyl-CoA-dependent acetylation of Rictor, a core component of the mTORC2 signaling complex. Remarkably, in the presence of elevated glucose levels, Rictor acetylation is maintained to form an autoactivation loop of mTORC2 even when the upstream components of the growth factor receptor signaling pathway are no longer active, thus rendering GBMs resistant to EGFR-, PI3K (phosphoinositide 3-kinase)-, or AKT (v-akt murine thymoma viral oncogene homolog)-targeted therapies. These results demonstrate that elevated nutrient levels can drive resistance to targeted cancer treatments and nominate mTORC2 as a central node for integrating growth factor signaling with nutrient availability in GBM.

Entities:  

Keywords:  Rictor acetylation; glioblastoma; mTORC2; metabolic reprogramming; targeted therapy resistance

Mesh:

Substances:

Year:  2015        PMID: 26170313      PMCID: PMC4522814          DOI: 10.1073/pnas.1511759112

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  41 in total

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Journal:  Cold Spring Harb Symp Quant Biol       Date:  2011-09-06

2.  Characterization and prediction of lysine (K)-acetyl-transferase specific acetylation sites.

Authors:  Tingting Li; Yipeng Du; Likun Wang; Lei Huang; Wenlin Li; Ming Lu; Xuegong Zhang; Wei-Guo Zhu
Journal:  Mol Cell Proteomics       Date:  2011-09-30       Impact factor: 5.911

3.  Acetate dependence of tumors.

Authors:  Sarah A Comerford; Zhiguang Huang; Xinlin Du; Yun Wang; Ling Cai; Agnes K Witkiewicz; Holly Walters; Mohammed N Tantawy; Allie Fu; H Charles Manning; Jay D Horton; Robert E Hammer; Steven L McKnight; Benjamin P Tu
Journal:  Cell       Date:  2014-12-18       Impact factor: 41.582

Review 4.  Links between metabolism and cancer.

Authors:  Chi V Dang
Journal:  Genes Dev       Date:  2012-05-01       Impact factor: 11.361

5.  Regulation of cellular metabolism by protein lysine acetylation.

Authors:  Shimin Zhao; Wei Xu; Wenqing Jiang; Wei Yu; Yan Lin; Tengfei Zhang; Jun Yao; Li Zhou; Yaxue Zeng; Hong Li; Yixue Li; Jiong Shi; Wenlin An; Susan M Hancock; Fuchu He; Lunxiu Qin; Jason Chin; Pengyuan Yang; Xian Chen; Qunying Lei; Yue Xiong; Kun-Liang Guan
Journal:  Science       Date:  2010-02-19       Impact factor: 47.728

6.  Akt-dependent metabolic reprogramming regulates tumor cell histone acetylation.

Authors:  Joyce V Lee; Alessandro Carrer; Supriya Shah; Nathaniel W Snyder; Shuanzeng Wei; Sriram Venneti; Andrew J Worth; Zuo-Fei Yuan; Hee-Woong Lim; Shichong Liu; Ellen Jackson; Nicole M Aiello; Naomi B Haas; Timothy R Rebbeck; Alexander Judkins; Kyoung-Jae Won; Lewis A Chodosh; Benjamin A Garcia; Ben Z Stanger; Michael D Feldman; Ian A Blair; Kathryn E Wellen
Journal:  Cell Metab       Date:  2014-07-03       Impact factor: 27.287

Review 7.  Metabolic complications with the use of mTOR inhibitors for cancer therapy.

Authors:  Shanthi Sivendran; Neeraj Agarwal; Benjamin Gartrell; Jian Ying; Kenneth M Boucher; Toni K Choueiri; Guru Sonpavde; William K Oh; Matthew D Galsky
Journal:  Cancer Treat Rev       Date:  2013-05-16       Impact factor: 12.111

8.  Association between hyperglycemia and survival in patients with newly diagnosed glioblastoma.

Authors:  Rachel L Derr; Xiaobu Ye; Melissa U Islas; Serena Desideri; Christopher D Saudek; Stuart A Grossman
Journal:  J Clin Oncol       Date:  2009-01-12       Impact factor: 44.544

Review 9.  What a tangled web we weave: emerging resistance mechanisms to inhibition of the phosphoinositide 3-kinase pathway.

Authors:  Samuel J Klempner; Andrea P Myers; Lewis C Cantley
Journal:  Cancer Discov       Date:  2013-11-21       Impact factor: 39.397

10.  Protein kinase D1 mediates class IIa histone deacetylase phosphorylation and nuclear extrusion in intestinal epithelial cells: role in mitogenic signaling.

Authors:  James Sinnett-Smith; Yang Ni; Jia Wang; Ming Ming; Steven H Young; Enrique Rozengurt
Journal:  Am J Physiol Cell Physiol       Date:  2014-03-19       Impact factor: 4.249
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  48 in total

Review 1.  Non-invasive metabolic imaging of brain tumours in the era of precision medicine.

Authors:  Michelle M Kim; Abhijit Parolia; Mark P Dunphy; Sriram Venneti
Journal:  Nat Rev Clin Oncol       Date:  2016-07-19       Impact factor: 66.675

2.  Loss of GCN5L1 in cardiac cells disrupts glucose metabolism and promotes cell death via reduced Akt/mTORC2 signaling.

Authors:  Janet R Manning; Dharendra Thapa; Manling Zhang; Michael W Stoner; Javier Traba; Catherine Corey; Sruti Shiva; Michael N Sack; Iain Scott
Journal:  Biochem J       Date:  2019-06-19       Impact factor: 3.857

Review 3.  Metabolic control of epigenetics in cancer.

Authors:  Adam Kinnaird; Steven Zhao; Kathryn E Wellen; Evangelos D Michelakis
Journal:  Nat Rev Cancer       Date:  2016-09-16       Impact factor: 60.716

4.  Purine synthesis promotes maintenance of brain tumor initiating cells in glioma.

Authors:  Xiuxing Wang; Kailin Yang; Qi Xie; Qiulian Wu; Stephen C Mack; Yu Shi; Leo J Y Kim; Briana C Prager; William A Flavahan; Xiaojing Liu; Meromit Singer; Christopher G Hubert; Tyler E Miller; Wenchao Zhou; Zhi Huang; Xiaoguang Fang; Aviv Regev; Mario L Suvà; Tae Hyun Hwang; Jason W Locasale; Shideng Bao; Jeremy N Rich
Journal:  Nat Neurosci       Date:  2017-03-27       Impact factor: 24.884

5.  Effects of Metformin and a Mammalian Target of Rapamycin (mTOR) ATP-Competitive Inhibitor on Targeted Metabolomics in Pancreatic Cancer Cell Line.

Authors:  Ghada A Soliman; Sharalyn M Steenson; Asserewou H Etekpo
Journal:  Metabolomics (Los Angel)       Date:  2016-08-20

Review 6.  Clinical development of cancer therapeutics that target metabolism.

Authors:  B F Clem; J O'Neal; A C Klarer; S Telang; J Chesney
Journal:  QJM       Date:  2015-10-01

7.  Outside-in HLA class I signaling regulates ICAM-1 clustering and endothelial cell-monocyte interactions via mTOR in transplant antibody-mediated rejection.

Authors:  Sahar Salehi; Rebecca A Sosa; Yi-Ping Jin; Shoichi Kageyama; Michael C Fishbein; Enrique Rozengurt; Jerzy W Kupiec-Weglinski; Elaine F Reed
Journal:  Am J Transplant       Date:  2017-11-23       Impact factor: 8.086

8.  Integrin-α10 Dependency Identifies RAC and RICTOR as Therapeutic Targets in High-Grade Myxofibrosarcoma.

Authors:  Tomoyo Okada; Ann Y Lee; Li-Xuan Qin; Narasimhan Agaram; Takahiro Mimae; Yawei Shen; Rachael O'Connor; Miguel A López-Lago; Amanda Craig; Martin L Miller; Phaedra Agius; Evan Molinelli; Nicholas D Socci; Aimee M Crago; Fumi Shima; Chris Sander; Samuel Singer
Journal:  Cancer Discov       Date:  2016-08-30       Impact factor: 39.397

9.  mTORC2 Responds to Glutamine Catabolite Levels to Modulate the Hexosamine Biosynthesis Enzyme GFAT1.

Authors:  Joseph G Moloughney; Peter K Kim; Nicole M Vega-Cotto; Chang-Chih Wu; Sisi Zhang; Matthew Adlam; Thomas Lynch; Po-Chien Chou; Joshua D Rabinowitz; Guy Werlen; Estela Jacinto
Journal:  Mol Cell       Date:  2016-08-25       Impact factor: 17.970

Review 10.  Cancer metabolism as a central driving force of glioma pathogenesis.

Authors:  Kenta Masui; Webster K Cavenee; Paul S Mischel
Journal:  Brain Tumor Pathol       Date:  2016-06-13       Impact factor: 3.298
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