Literature DB >> 24296756

Autophagy-dependent metabolic reprogramming sensitizes TSC2-deficient cells to the antimetabolite 6-aminonicotinamide.

Andrey A Parkhitko1, Carmen Priolo, Jonathan L Coloff, Jihye Yun, Julia J Wu, Kenji Mizumura, Wenping Xu, Izabela A Malinowska, Jane Yu, David J Kwiatkowski, Jason W Locasale, John M Asara, Augustine M K Choi, Toren Finkel, Elizabeth P Henske.   

Abstract

UNLABELLED: The mammalian target of rapamycin complex 1 (mTORC1) is hyperactive in many human cancers and in tuberous sclerosis complex (TSC). Autophagy, a key mTORC1-targeted process, is a critical determinant of metabolic homeostasis. Metabolomic profiling was performed to elucidate the cellular consequences of autophagy dysregulation under conditions of hyperactive mTORC1. It was discovered that TSC2-null cells have distinctive autophagy-dependent pentose phosphate pathway (PPP) alterations. This was accompanied by enhanced glucose uptake and utilization, decreased mitochondrial oxygen consumption, and increased mitochondrial reactive oxygen species (ROS) production. Importantly, these findings revealed that the PPP is a key autophagy-dependent compensatory metabolic mechanism. Furthermore, PPP inhibition with 6-aminonicotinamide (6-AN) in combination with autophagy inhibition suppressed proliferation and prompted the activation of NF-κB and CASP1 in TSC2-deficient, but not TSC2-proficient cells. These data demonstrate that TSC2-deficient cells can be therapeutically targeted, without mTORC1 inhibitors, by focusing on their metabolic vulnerabilities. IMPLICATIONS: This study provides proof-of-concept that therapeutic targeting of diseases with hyperactive mTORC1 can be achieved without the application of mTORC1 inhibitors. ©2013 AACR.

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Year:  2013        PMID: 24296756      PMCID: PMC4030750          DOI: 10.1158/1541-7786.MCR-13-0258-T

Source DB:  PubMed          Journal:  Mol Cancer Res        ISSN: 1541-7786            Impact factor:   5.852


  22 in total

Review 1.  The tuberous sclerosis complex.

Authors:  Peter B Crino; Katherine L Nathanson; Elizabeth Petri Henske
Journal:  N Engl J Med       Date:  2006-09-28       Impact factor: 91.245

2.  Platelet-derived growth factor-induced p42/44 mitogen-activated protein kinase activation and cellular growth is mediated by reactive oxygen species in the absence of TSC2/tuberin.

Authors:  Geraldine A Finlay; Victor J Thannickal; Barry L Fanburg; David J Kwiatkowski
Journal:  Cancer Res       Date:  2005-12-01       Impact factor: 12.701

3.  Metabolic control of muscle mitochondrial function and fatty acid oxidation through SIRT1/PGC-1alpha.

Authors:  Zachary Gerhart-Hines; Joseph T Rodgers; Olivia Bare; Carles Lerin; Seung-Hee Kim; Raul Mostoslavsky; Frederick W Alt; Zhidan Wu; Pere Puigserver
Journal:  EMBO J       Date:  2007-03-08       Impact factor: 11.598

4.  Specific killing of Rb mutant cancer cells by inactivating TSC2.

Authors:  Binghui Li; Gabriel M Gordon; Charles H Du; Jinhua Xu; Wei Du
Journal:  Cancer Cell       Date:  2010-05-18       Impact factor: 31.743

5.  Inhibition of NADPH supply by 6-aminonicotinamide: effect on glutathione, nitric oxide and superoxide in J774 cells.

Authors:  J S Hothersall; M Gordge; A A Noronha-Dutra
Journal:  FEBS Lett       Date:  1998-08-28       Impact factor: 4.124

6.  Activation of a metabolic gene regulatory network downstream of mTOR complex 1.

Authors:  Katrin Düvel; Jessica L Yecies; Suchithra Menon; Pichai Raman; Alex I Lipovsky; Amanda L Souza; Ellen Triantafellow; Qicheng Ma; Regina Gorski; Stephen Cleaver; Matthew G Vander Heiden; Jeffrey P MacKeigan; Peter M Finan; Clary B Clish; Leon O Murphy; Brendan D Manning
Journal:  Mol Cell       Date:  2010-07-30       Impact factor: 17.970

7.  Glucose addiction of TSC null cells is caused by failed mTORC1-dependent balancing of metabolic demand with supply.

Authors:  Andrew Y Choo; Sang Gyun Kim; Matthew G Vander Heiden; Sarah J Mahoney; Hieu Vu; Sang-Oh Yoon; Lewis C Cantley; John Blenis
Journal:  Mol Cell       Date:  2010-05-28       Impact factor: 17.970

8.  Loss of the autophagy protein Atg16L1 enhances endotoxin-induced IL-1beta production.

Authors:  Tatsuya Saitoh; Naonobu Fujita; Myoung Ho Jang; Satoshi Uematsu; Bo-Gie Yang; Takashi Satoh; Hiroko Omori; Takeshi Noda; Naoki Yamamoto; Masaaki Komatsu; Keiji Tanaka; Taro Kawai; Tohru Tsujimura; Osamu Takeuchi; Tamotsu Yoshimori; Shizuo Akira
Journal:  Nature       Date:  2008-10-05       Impact factor: 49.962

Review 9.  Sesquiterpene lactones as drugs with multiple targets in cancer treatment: focus on parthenolide.

Authors:  Maria Regina Orofino Kreuger; Sasker Grootjans; Maique W Biavatti; Peter Vandenabeele; Katharina D'Herde
Journal:  Anticancer Drugs       Date:  2012-10       Impact factor: 2.248

10.  Equivalent benefit of mTORC1 blockade and combined PI3K-mTOR blockade in a mouse model of tuberous sclerosis.

Authors:  Kristen Pollizzi; Izabela Malinowska-Kolodziej; Michael Stumm; Heidi Lane; David Kwiatkowski
Journal:  Mol Cancer       Date:  2009-06-15       Impact factor: 27.401
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  32 in total

Review 1.  Lymphangioleiomyomatosis: A Monogenic Model of Malignancy.

Authors:  Vera P Krymskaya; Francis X McCormack
Journal:  Annu Rev Med       Date:  2017-01-14       Impact factor: 13.739

2.  Genomic Subtypes of Non-invasive Bladder Cancer with Distinct Metabolic Profile and Female Gender Bias in KDM6A Mutation Frequency.

Authors:  Carolyn D Hurst; Olivia Alder; Fiona M Platt; Alastair Droop; Lucy F Stead; Julie E Burns; George J Burghel; Sunjay Jain; Leszek J Klimczak; Helen Lindsay; Jo-An Roulson; Claire F Taylor; Helene Thygesen; Angus J Cameron; Anne J Ridley; Helen R Mott; Dmitry A Gordenin; Margaret A Knowles
Journal:  Cancer Cell       Date:  2017-11-13       Impact factor: 31.743

3.  Targeting mTORC1-mediated metabolic addiction overcomes fludarabine resistance in malignant B cells.

Authors:  Arishya Sharma; Allison J Janocha; Brian T Hill; Mitchell R Smith; Serpil C Erzurum; Alexandru Almasan
Journal:  Mol Cancer Res       Date:  2014-07-24       Impact factor: 5.852

4.  Alterations in Polyamine Metabolism in Patients With Lymphangioleiomyomatosis and Tuberous Sclerosis Complex 2-Deficient Cells.

Authors:  Yan Tang; Souheil El-Chemaly; Angelo Taveira-Dasilva; Hilary J Goldberg; Shefali Bagwe; Ivan O Rosas; Joel Moss; Carmen Priolo; Elizabeth P Henske
Journal:  Chest       Date:  2019-07-09       Impact factor: 9.410

5.  Tuberous sclerosis complex 2 loss increases lysophosphatidylcholine synthesis in lymphangioleiomyomatosis.

Authors:  Carmen Priolo; Stéphane J H Ricoult; Damir Khabibullin; Harilaos Filippakis; Jane Yu; Brendan D Manning; Clary Clish; Elizabeth P Henske
Journal:  Am J Respir Cell Mol Biol       Date:  2015-07       Impact factor: 6.914

6.  Human Pluripotent Stem Cell-Derived TSC2-Haploinsufficient Smooth Muscle Cells Recapitulate Features of Lymphangioleiomyomatosis.

Authors:  Lisa M Julian; Sean P Delaney; Ying Wang; Alexander A Goldberg; Carole Doré; Julien Yockell-Lelièvre; Roger Y Tam; Krinio Giannikou; Fiona McMurray; Molly S Shoichet; Mary-Ellen Harper; Elizabeth P Henske; David J Kwiatkowski; Thomas N Darling; Joel Moss; Arnold S Kristof; William L Stanford
Journal:  Cancer Res       Date:  2017-08-22       Impact factor: 12.701

7.  Rapamycin reversal of VEGF-C-driven lymphatic anomalies in the respiratory tract.

Authors:  Peter Baluk; Li-Chin Yao; Julio C Flores; Dongwon Choi; Young-Kwon Hong; Donald M McDonald
Journal:  JCI Insight       Date:  2017-08-17

8.  [18F]Fluorocholine and [18F]Fluoroacetate PET as Imaging Biomarkers to Assess Phosphatidylcholine and Mitochondrial Metabolism in Preclinical Models of TSC and LAM.

Authors:  Taylor R Kavanagh; William J Mischler; Eline E Verwer; You Feng; Kazue Takahashi; Shuyan Wang; Timothy M Shoup; Ramesh Neelamegam; Jing Yang; Nicolas J Guehl; Chongzhao Ran; Walter Massefski; Ye Cui; Souheil El-Chemaly; Peter M Sadow; William M Oldham; Marie F Kijewski; Georges El Fakhri; Marc D Normandin; Carmen Priolo
Journal:  Clin Cancer Res       Date:  2018-07-27       Impact factor: 12.531

9.  p62/SQSTM1 Cooperates with Hyperactive mTORC1 to Regulate Glutathione Production, Maintain Mitochondrial Integrity, and Promote Tumorigenesis.

Authors:  Hilaire C Lam; Christian V Baglini; Alicia Llorente Lope; Andrey A Parkhitko; Heng-Jia Liu; Nicola Alesi; Izabela A Malinowska; Darius Ebrahimi-Fakhari; Afshin Saffari; Jane J Yu; Ana Pereira; Damir Khabibullin; Barbara Ogorek; Julie Nijmeh; Taylor Kavanagh; Adam Handen; Stephen Y Chan; John M Asara; William M Oldham; Maria T Diaz-Meco; Jorge Moscat; Mustafa Sahin; Carmen Priolo; Elizabeth P Henske
Journal:  Cancer Res       Date:  2017-05-16       Impact factor: 12.701

10.  Inhibition of pentose phosphate pathway suppresses acute myelogenous leukemia.

Authors:  Yan Chen; Qian Xu; Dexiang Ji; Yanlin Wei; Huamei Chen; Tingting Li; Bolin Wan; Liya Yuan; Ruibin Huang; Guoan Chen
Journal:  Tumour Biol       Date:  2015-11-23
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