Literature DB >> 31843902

SIRT5 stabilizes mitochondrial glutaminase and supports breast cancer tumorigenesis.

Kai Su Greene1, Michael J Lukey1, Xueying Wang1, Bryant Blank2, Joseph E Druso1, Miao-Chong J Lin1, Clint A Stalnecker3, Chengliang Zhang4, Yashira Negrón Abril2,5, Jon W Erickson1,5, Kristin F Wilson1, Hening Lin5, Robert S Weiss2, Richard A Cerione6,5.   

Abstract

The mitochondrial enzyme glutaminase (GLS) is frequently up-regulated during tumorigenesis and is being evaluated as a target for cancer therapy. GLS catalyzes the hydrolysis of glutamine to glutamate, which then supplies diverse metabolic pathways with carbon and/or nitrogen. Here, we report that SIRT5, a mitochondrial NAD+-dependent lysine deacylase, plays a key role in stabilizing GLS. In transformed cells, SIRT5 regulates glutamine metabolism by desuccinylating GLS and thereby protecting it from ubiquitin-mediated degradation. Moreover, we show that SIRT5 is up-regulated during cellular transformation and supports proliferation and tumorigenesis. Elevated SIRT5 expression in human breast tumors correlates with poor patient prognosis. These findings reveal a mechanism for increasing GLS expression in cancer cells and establish a role for SIRT5 in metabolic reprogramming and mammary tumorigenesis.

Entities:  

Keywords:  SIRT5; cancer; glutaminase; metabolism; sirtuin

Year:  2019        PMID: 31843902      PMCID: PMC6936584          DOI: 10.1073/pnas.1911954116

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


  54 in total

1.  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

2.  Loss of Sirtuin 1 Alters the Secretome of Breast Cancer Cells by Impairing Lysosomal Integrity.

Authors:  Arash Latifkar; Lu Ling; Amrit Hingorani; Eric Johansen; Amdiel Clement; Xiaoyu Zhang; John Hartman; Claudia Fischbach; Hening Lin; Richard A Cerione; Marc A Antonyak
Journal:  Dev Cell       Date:  2019-04-11       Impact factor: 12.270

3.  Acetylation of WRN protein regulates its stability by inhibiting ubiquitination.

Authors:  Kai Li; Rui Wang; Enerlyn Lozada; Wei Fan; David K Orren; Jianyuan Luo
Journal:  PLoS One       Date:  2010-04-23       Impact factor: 3.240

Review 4.  The Emerging Hallmarks of Cancer Metabolism.

Authors:  Natalya N Pavlova; Craig B Thompson
Journal:  Cell Metab       Date:  2016-01-12       Impact factor: 27.287

5.  Glioblastoma cells require glutamate dehydrogenase to survive impairments of glucose metabolism or Akt signaling.

Authors:  Chendong Yang; Jessica Sudderth; Tuyen Dang; Robert M Bachoo; Robert G Bachoo; Jeffrey G McDonald; Ralph J DeBerardinis
Journal:  Cancer Res       Date:  2009-10-13       Impact factor: 12.701

6.  SIRT2 is a tumor suppressor that connects aging, acetylome, cell cycle signaling, and carcinogenesis.

Authors:  Seong-Hoon Park; Yuming Zhu; Ozkan Ozden; Hyun-Seok Kim; Haiyan Jiang; Chu-Xia Deng; David Gius; Athanassios Vassilopoulos
Journal:  Transl Cancer Res       Date:  2012-05-22       Impact factor: 1.241

7.  Lysine glutarylation is a protein posttranslational modification regulated by SIRT5.

Authors:  Minjia Tan; Chao Peng; Kristin A Anderson; Peter Chhoy; Zhongyu Xie; Lunzhi Dai; Jeongsoon Park; Yue Chen; He Huang; Yi Zhang; Jennifer Ro; Gregory R Wagner; Michelle F Green; Andreas S Madsen; Jessica Schmiesing; Brett S Peterson; Guofeng Xu; Olga R Ilkayeva; Michael J Muehlbauer; Thomas Braulke; Chris Mühlhausen; Donald S Backos; Christian A Olsen; Peter J McGuire; Scott D Pletcher; David B Lombard; Matthew D Hirschey; Yingming Zhao
Journal:  Cell Metab       Date:  2014-04-01       Impact factor: 27.287

8.  SIRT7 links H3K18 deacetylation to maintenance of oncogenic transformation.

Authors:  Matthew F Barber; Eriko Michishita-Kioi; Yuanxin Xi; Luisa Tasselli; Mitomu Kioi; Zarmik Moqtaderi; Ruth I Tennen; Silvana Paredes; Nicolas L Young; Kaifu Chen; Kevin Struhl; Benjamin A Garcia; Or Gozani; Wei Li; Katrin F Chua
Journal:  Nature       Date:  2012-07-05       Impact factor: 49.962

Review 9.  Sirtuin-3 (SIRT3), a therapeutic target with oncogenic and tumor-suppressive function in cancer.

Authors:  Y Chen; L L Fu; X Wen; X Y Wang; J Liu; Y Cheng; J Huang
Journal:  Cell Death Dis       Date:  2014-02-06       Impact factor: 8.469

10.  Tumor volume in subcutaneous mouse xenografts measured by microCT is more accurate and reproducible than determined by 18F-FDG-microPET or external caliper.

Authors:  Mette Munk Jensen; Jesper Tranekjaer Jørgensen; Tina Binderup; Andreas Kjaer
Journal:  BMC Med Imaging       Date:  2008-10-16       Impact factor: 1.930
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  22 in total

1.  Deacetylation of Glutaminase by HDAC4 contributes to Lung Cancer Tumorigenesis.

Authors:  Tao Wang; Zhuo Lu; Tianyu Han; Yanan Wang; Mingxi Gan; Jian-Bin Wang
Journal:  Int J Biol Sci       Date:  2022-07-04       Impact factor: 10.750

2.  LINC01234 regulates microRNA-27b-5p to induce the migration, invasion and self-renewal of ovarian cancer stem cells through targeting SIRT5.

Authors:  Fang Ke; Chenchen Ren; Zihan Zhai; Xiang Gao; Jing Wei; Yuanhang Zhu; Yunxiao Zhi
Journal:  Cell Cycle       Date:  2022-03-01       Impact factor: 5.173

Review 3.  NAD+ metabolism: pathophysiologic mechanisms and therapeutic potential.

Authors:  Na Xie; Lu Zhang; Wei Gao; Canhua Huang; Peter Ernst Huber; Xiaobo Zhou; Changlong Li; Guobo Shen; Bingwen Zou
Journal:  Signal Transduct Target Ther       Date:  2020-10-07

4.  SIRT5's GOT1 up on PDAC.

Authors:  Surinder Kumar; David B Lombard
Journal:  Gastroenterology       Date:  2021-07-16       Impact factor: 22.682

5.  The deacylase SIRT5 supports melanoma viability by influencing chromatin dynamics.

Authors:  William Giblin; Lauren Bringman-Rodenbarger; Angela H Guo; Surinder Kumar; Alexander C Monovich; Ahmed M Mostafa; Mary E Skinner; Michelle Azar; Ahmed Sa Mady; Carolina H Chung; Namrata Kadambi; Keith-Allen Melong; Ho-Joon Lee; Li Zhang; Peter Sajjakulnukit; Sophie Trefely; Erika L Varner; Sowmya Iyer; Min Wang; James S Wilmott; H Peter Soyer; Richard A Sturm; Antonia L Pritchard; Aleodor A Andea; Richard A Scolyer; Mitchell S Stark; David A Scott; Douglas R Fullen; Marcus W Bosenberg; Sriram Chandrasekaran; Zaneta Nikolovska-Coleska; Monique E Verhaegen; Nathaniel W Snyder; Miguel N Rivera; Andrei L Osterman; Costas A Lyssiotis; David B Lombard
Journal:  J Clin Invest       Date:  2021-06-15       Impact factor: 14.808

6.  SIRT5 IS A DRUGGABLE METABOLIC VULNERABILITY IN ACUTE MYELOID LEUKEMIA.

Authors:  Anca Franzini; Anthony D Pomicter; Dongqing Yan; Brayden J Halverson; Orlando Antelope; Clinton C Mason; Jonathan M Ahmann; Anna V Senina; Nadeem A Vellore; Courtney L Jones; Matthew S Zabriskie; Hein Than; Michael J Xiao; Alexandria van Scoyk; Ami B Patel; Phillip M Clair; William L Heaton; Shawn C Owen; Joshua L Andersen; Christina M Egbert; Julie A Reisz; Angelo D'Alessandro; James E Cox; Kevin C Gantz; Hannah M Redwine; Siddharth M Iyer; Jamshid S Khorashad; Nima Rajabi; Christian A Olsen; Thomas O'Hare; Michael W Deininger
Journal:  Blood Cancer Discov       Date:  2019-12-02

Review 7.  Is nuclear sirtuin SIRT6 a master regulator of immune function?

Authors:  Vinodkumar B Pillai; Mahesh P Gupta
Journal:  Am J Physiol Endocrinol Metab       Date:  2020-12-14       Impact factor: 4.310

Review 8.  Metabolic reprogramming and epigenetic modifications on the path to cancer.

Authors:  Linchong Sun; Huafeng Zhang; Ping Gao
Journal:  Protein Cell       Date:  2021-05-29       Impact factor: 15.328

9.  FAIM regulates autophagy through glutaminolysis in lung adenocarcinoma.

Authors:  Tianyu Han; Pengcheng Wang; Yanan Wang; Wenze Xun; Jiapeng Lei; Tao Wang; Zhuo Lu; Mingxi Gan; Wei Zhang; Bentong Yu; Jian-Bin Wang
Journal:  Autophagy       Date:  2021-10-31       Impact factor: 13.391

10.  Metabolic Rewiring by Loss of Sirt5 Promotes Kras-Induced Pancreatic Cancer Progression.

Authors:  Tuo Hu; Surendra K Shukla; Enza Vernucci; Chunbo He; Dezhen Wang; Ryan J King; Kanupriya Jha; Kasturi Siddhanta; Nicholas J Mullen; Kuldeep S Attri; Divya Murthy; Nina V Chaika; Ravi Thakur; Scott E Mulder; Camila G Pacheco; Xiao Fu; Robin R High; Fang Yu; Audrey Lazenby; Clemens Steegborn; Ping Lan; Kamiya Mehla; Dante Rotili; Sarika Chaudhary; Sergio Valente; Marco Tafani; Antonello Mai; Johan Auwerx; Eric Verdin; David Tuveson; Pankaj K Singh
Journal:  Gastroenterology       Date:  2021-07-08       Impact factor: 22.682
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