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Literature DB >> 22331464

PALB2 interacts with KEAP1 to promote NRF2 nuclear accumulation and function.

Jianglin Ma¹, Hong Cai, Tongde Wu, Bijan Sobhian, Yanying Huo, Allen Alcivar, Monal Mehta, Ka Lung Cheung, Shridar Ganesan, Ah-Ng Tony Kong, Donna D Zhang, Bing Xia.

Abstract

PALB2/FANCN is mutated in breast and pancreatic cancers and Fanconi anemia (FA). It controls the intranuclear localization, stability, and DNA repair function of BRCA2 and links BRCA1 and BRCA2 in DNA homologous recombination repair and breast cancer suppression. Here, we show that PALB2 directly interacts with KEAP1, an oxidative stress sensor that binds and represses the master antioxidant transcription factor NRF2. PALB2 shares with NRF2 a highly conserved ETGE-type KEAP1 binding motif and can effectively compete with NRF2 for KEAP1 binding. PALB2 promotes NRF2 accumulation and function in the nucleus and lowers the cellular reactive oxygen species (ROS) level. In addition, PALB2 also regulates the rate of NRF2 export from the nucleus following induction. Our findings identify PALB2 as a regulator of cellular redox homeostasis and provide a new link between oxidative stress and the development of cancer and FA.

Entities: Chemical Disease Gene

Mesh：

Substances：

Year: 2012 PMID： 22331464 PMCID： PMC3318596 DOI： 10.1128/MCB.06271-11

Source DB: PubMed Journal: Mol Cell Biol ISSN： 0270-7306 Impact factor: 4.272

42 in total

1. Identification of the interactive interface and phylogenic conservation of the Nrf2-Keap1 system.

Authors: Makoto Kobayashi; Ken Itoh; Takafumi Suzuki; Hitoshi Osanai; Keizo Nishikawa; Yasutake Katoh; Yaeko Takagi; Masayuki Yamamoto
Journal: Genes Cells Date: 2002-08 Impact factor: 1.891

2. The Keap1-BTB protein is an adaptor that bridges Nrf2 to a Cul3-based E3 ligase: oxidative stress sensing by a Cul3-Keap1 ligase.

Authors: Sara B Cullinan; John D Gordan; Jianping Jin; J Wade Harper; J Alan Diehl
Journal: Mol Cell Biol Date: 2004-10 Impact factor: 4.272

3. Keap1 is a redox-regulated substrate adaptor protein for a Cul3-dependent ubiquitin ligase complex.

Authors: Donna D Zhang; Shih-Ching Lo; Janet V Cross; Dennis J Templeton; Mark Hannink
Journal: Mol Cell Biol Date: 2004-12 Impact factor: 4.272

4. Structural basis for defects of Keap1 activity provoked by its point mutations in lung cancer.

Authors: Balasundaram Padmanabhan; Kit I Tong; Tsutomu Ohta; Yoshihiro Nakamura; Maria Scharlock; Makiko Ohtsuji; Moon-Il Kang; Akira Kobayashi; Shigeyuki Yokoyama; Masayuki Yamamoto
Journal: Mol Cell Date: 2006-03-03 Impact factor: 17.970

5. Structure of the Keap1:Nrf2 interface provides mechanistic insight into Nrf2 signaling.

Authors: Shih-Ching Lo; Xuchu Li; Michael T Henzl; Lesa J Beamer; Mark Hannink
Journal: EMBO J Date: 2006-08-03 Impact factor: 11.598

6. Keap1 recruits Neh2 through binding to ETGE and DLG motifs: characterization of the two-site molecular recognition model.

Authors: Kit I Tong; Yasutake Katoh; Hideki Kusunoki; Ken Itoh; Toshiyuki Tanaka; Masayuki Yamamoto
Journal: Mol Cell Biol Date: 2006-04 Impact factor: 4.272

7. Contribution of inherited mutations in the BRCA2-interacting protein PALB2 to familial breast cancer.

Authors: Silvia Casadei; Barbara M Norquist; Tom Walsh; Sunday Stray; Jessica B Mandell; Ming K Lee; John A Stamatoyannopoulos; Mary-Claire King
Journal: Cancer Res Date: 2011-02-01 Impact factor: 12.701

8. Control of BRCA2 cellular and clinical functions by a nuclear partner, PALB2.

Authors: Bing Xia; Qing Sheng; Koji Nakanishi; Akihiro Ohashi; Jianmin Wu; Nicole Christ; Xinggang Liu; Maria Jasin; Fergus J Couch; David M Livingston
Journal: Mol Cell Date: 2006-06-23 Impact factor: 17.970

9. BTB protein Keap1 targets antioxidant transcription factor Nrf2 for ubiquitination by the Cullin 3-Roc1 ligase.

Authors: Manabu Furukawa; Yue Xiong
Journal: Mol Cell Biol Date: 2005-01 Impact factor: 4.272

10. 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

83 in total

1. Coupling of Homologous Recombination and the Checkpoint by ATR.

Authors: Rémi Buisson; Joshi Niraj; Amélie Rodrigue; Chu Kwen Ho; Johannes Kreuzer; Tzeh Keong Foo; Emilie J-L Hardy; Graham Dellaire; Wilhelm Haas; Bing Xia; Jean-Yves Masson; Lee Zou
Journal: Mol Cell Date: 2017-01-12 Impact factor: 17.970

Review 2. 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

3. Hyperactivity of the transcription factor Nrf2 causes metabolic reprogramming in mouse esophagus.

Authors: Junsheng Fu; Zhaohui Xiong; Caizhi Huang; Jing Li; Wenjun Yang; Yuning Han; Chorlada Paiboonrungruan; Michael B Major; Ke-Neng Chen; Xiaozheng Kang; Xiaoxin Chen
Journal: J Biol Chem Date: 2018-11-08 Impact factor: 5.157

4. 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

5. Oncogene PKCε controls INrf2-Nrf2 interaction in normal and cancer cells through phosphorylation of INrf2.

Authors: Suryakant K Niture; Averell Gnatt; Anil K Jaiswal
Journal: J Cell Sci Date: 2013-10-14 Impact factor: 5.285

Review 6. Regulation of Nrf2-an update.

Authors: Suryakant K Niture; Raju Khatri; Anil K Jaiswal
Journal: Free Radic Biol Med Date: 2013-02-19 Impact factor: 7.376