Literature DB >> 23965987

Autophagy sustains mitochondrial glutamine metabolism and growth of BrafV600E-driven lung tumors.

Anne M Strohecker1, Jessie Yanxiang Guo, Gizem Karsli-Uzunbas, Sandy M Price, Guanghua Jim Chen, Robin Mathew, Martin McMahon, Eileen White.   

Abstract

UNLABELLED: Autophagic elimination of defective mitochondria suppresses oxidative stress and preserves mitochondrial function. Here, the essential autophagy gene Atg7 was deleted in a mouse model of BrafV600E-induced lung cancer in the presence or absence of the tumor suppressor Trp53. Atg7 deletion initially induced oxidative stress and accelerated tumor cell proliferation in a manner indistinguishable from Nrf2 ablation. Compound deletion of Atg7 and Nrf2 had no additive effect, suggesting that both genes modulate tumorigenesis by regulating oxidative stress and revealing a potential mechanism of autophagy-mediated tumor suppression. At later stages of tumorigenesis, Atg7 deficiency resulted in an accumulation of defective mitochondria, proliferative defects, reduced tumor burden, conversion of adenomas and adenocarcinomas to oncocytomas, and increased mouse life span. Autophagy-defective tumor-derived cell lines were impaired in their ability to respire and survive starvation and were glutamine-dependent, suggesting that autophagy-supplied substrates from protein degradation sustains BrafV600E tumor growth and metabolism. SIGNIFICANCE: The essential autophagy gene Atg7 functions to promote BrafV600E-driven lung tumorigenesis by preserving mitochondrial glutamine metabolism. This suggests that inhibiting autophagy is a novel approach to treating BrafV600E-driven cancers. ©2013 AACR.

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Year:  2013        PMID: 23965987      PMCID: PMC3823822          DOI: 10.1158/2159-8290.CD-13-0397

Source DB:  PubMed          Journal:  Cancer Discov        ISSN: 2159-8274            Impact factor:   39.397


  36 in total

1.  Autophagy opposes p53-mediated tumor barrier to facilitate tumorigenesis in a model of PALB2-associated hereditary breast cancer.

Authors:  Yanying Huo; Hong Cai; Irina Teplova; Christian Bowman-Colin; Guanghua Chen; Sandy Price; Nicola Barnard; Shridar Ganesan; Vassiliki Karantza; Eileen White; Bing Xia
Journal:  Cancer Discov       Date:  2013-05-06       Impact factor: 39.397

2.  The role of autophagy during the early neonatal starvation period.

Authors:  Akiko Kuma; Masahiko Hatano; Makoto Matsui; Akitsugu Yamamoto; Haruaki Nakaya; Tamotsu Yoshimori; Yoshinori Ohsumi; Takeshi Tokuhisa; Noboru Mizushima
Journal:  Nature       Date:  2004-11-03       Impact factor: 49.962

3.  Beclin 1, an autophagy gene essential for early embryonic development, is a haploinsufficient tumor suppressor.

Authors:  Zhenyu Yue; Shengkan Jin; Chingwen Yang; Arnold J Levine; Nathaniel Heintz
Journal:  Proc Natl Acad Sci U S A       Date:  2003-12-01       Impact factor: 11.205

4.  Isolation and characterization of autophagy-defective mutants of Saccharomyces cerevisiae.

Authors:  M Tsukada; Y Ohsumi
Journal:  FEBS Lett       Date:  1993-10-25       Impact factor: 4.124

5.  High frequency of BRAF mutations in nevi.

Authors:  Pamela M Pollock; Ursula L Harper; Katherine S Hansen; Laura M Yudt; Mitchell Stark; Christiane M Robbins; Tracy Y Moses; Galen Hostetter; Urs Wagner; John Kakareka; Ghadi Salem; Tom Pohida; Peter Heenan; Paul Duray; Olli Kallioniemi; Nicholas K Hayward; Jeffrey M Trent; Paul S Meltzer
Journal:  Nat Genet       Date:  2002-11-25       Impact factor: 38.330

6.  Promotion of tumorigenesis by heterozygous disruption of the beclin 1 autophagy gene.

Authors:  Xueping Qu; Jie Yu; Govind Bhagat; Norihiko Furuya; Hanina Hibshoosh; Andrea Troxel; Jeffrey Rosen; Eeva-Liisa Eskelinen; Noboru Mizushima; Yoshinori Ohsumi; Giorgio Cattoretti; Beth Levine
Journal:  J Clin Invest       Date:  2003-11-24       Impact factor: 14.808

7.  Oxidative stress sensor Keap1 functions as an adaptor for Cul3-based E3 ligase to regulate proteasomal degradation of Nrf2.

Authors:  Akira Kobayashi; Moon-Il Kang; Hiromi Okawa; Makiko Ohtsuji; Yukari Zenke; Tomoki Chiba; Kazuhiko Igarashi; Masayuki Yamamoto
Journal:  Mol Cell Biol       Date:  2004-08       Impact factor: 4.272

8.  BRAF(V599E) mutation is the leading genetic event in adult sporadic papillary thyroid carcinomas.

Authors:  Efisio Puxeddu; Sonia Moretti; Rossella Elisei; Cristina Romei; Raffaela Pascucci; Marco Martinelli; Cecilia Marino; Nicola Avenia; Esther Diana Rossi; Guido Fadda; Antonio Cavaliere; Rodolfo Ribacchi; Alberto Falorni; Alfredo Pontecorvi; Furio Pacini; Aldo Pinchera; Fausto Santeusanio
Journal:  J Clin Endocrinol Metab       Date:  2004-05       Impact factor: 5.958

9.  Mutations of the BRAF gene in human cancer.

Authors:  Helen Davies; Graham R Bignell; Charles Cox; Philip Stephens; Sarah Edkins; Sheila Clegg; Jon Teague; Hayley Woffendin; Mathew J Garnett; William Bottomley; Neil Davis; Ed Dicks; Rebecca Ewing; Yvonne Floyd; Kristian Gray; Sarah Hall; Rachel Hawes; Jaime Hughes; Vivian Kosmidou; Andrew Menzies; Catherine Mould; Adrian Parker; Claire Stevens; Stephen Watt; Steven Hooper; Rebecca Wilson; Hiran Jayatilake; Barry A Gusterson; Colin Cooper; Janet Shipley; Darren Hargrave; Katherine Pritchard-Jones; Norman Maitland; Georgia Chenevix-Trench; Gregory J Riggins; Darell D Bigner; Giuseppe Palmieri; Antonio Cossu; Adrienne Flanagan; Andrew Nicholson; Judy W C Ho; Suet Y Leung; Siu T Yuen; Barbara L Weber; Hilliard F Seigler; Timothy L Darrow; Hugh Paterson; Richard Marais; Christopher J Marshall; Richard Wooster; Michael R Stratton; P Andrew Futreal
Journal:  Nature       Date:  2002-06-09       Impact factor: 49.962

10.  Impairment of starvation-induced and constitutive autophagy in Atg7-deficient mice.

Authors:  Masaaki Komatsu; Satoshi Waguri; Takashi Ueno; Junichi Iwata; Shigeo Murata; Isei Tanida; Junji Ezaki; Noboru Mizushima; Yoshinori Ohsumi; Yasuo Uchiyama; Eiki Kominami; Keiji Tanaka; Tomoki Chiba
Journal:  J Cell Biol       Date:  2005-05-02       Impact factor: 10.539
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  194 in total

Review 1.  NRF2 and the Hallmarks of Cancer.

Authors:  Montserrat Rojo de la Vega; Eli Chapman; Donna D Zhang
Journal:  Cancer Cell       Date:  2018-05-03       Impact factor: 31.743

2.  Cancer: A suppression switch.

Authors:  Hanna Starobinets; Jayanta Debnath
Journal:  Nature       Date:  2013-12-04       Impact factor: 49.962

3.  Tumor-promoting and -suppressive roles of autophagy in the same mouse model of BrafV600E-driven lung cancer.

Authors:  Song Chen; Jun-Lin Guan
Journal:  Cancer Discov       Date:  2013-11       Impact factor: 39.397

4.  Transcriptional Repressor DAXX Promotes Prostate Cancer Tumorigenicity via Suppression of Autophagy.

Authors:  Lorena A Puto; John Brognard; Tony Hunter
Journal:  J Biol Chem       Date:  2015-04-22       Impact factor: 5.157

5.  Targeting Autophagy in BRAF-Mutant Tumors.

Authors:  Andrew Thorburn; Michael J Morgan
Journal:  Cancer Discov       Date:  2015-04       Impact factor: 39.397

Review 6.  Autophagy in cellular metabolism and cancer.

Authors:  Xuejun Jiang; Michael Overholtzer; Craig B Thompson
Journal:  J Clin Invest       Date:  2015-01-02       Impact factor: 14.808

Review 7.  Activating autophagy to potentiate immunogenic chemotherapy and radiation therapy.

Authors:  Lorenzo Galluzzi; José Manuel Bravo-San Pedro; Sandra Demaria; Silvia Chiara Formenti; Guido Kroemer
Journal:  Nat Rev Clin Oncol       Date:  2016-11-15       Impact factor: 66.675

Review 8.  Pharmacological modulation of autophagy: therapeutic potential and persisting obstacles.

Authors:  Lorenzo Galluzzi; José Manuel Bravo-San Pedro; Beth Levine; Douglas R Green; Guido Kroemer
Journal:  Nat Rev Drug Discov       Date:  2017-05-19       Impact factor: 84.694

Review 9.  Metabolic control of autophagy.

Authors:  Lorenzo Galluzzi; Federico Pietrocola; Beth Levine; Guido Kroemer
Journal:  Cell       Date:  2014-12-04       Impact factor: 41.582

10.  Mouse models address key concerns regarding autophagy inhibition in cancer therapy.

Authors:  Ravi Amaravadi; Jayanta Debnath
Journal:  Cancer Discov       Date:  2014-08       Impact factor: 39.397
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