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Literature DB >> 24844324

Isg15 controls p53 stability and functions.

Yi-Fu Huang¹, Sheena Wee¹, Jayantha Gunaratne¹, David P Lane², Dmitry V Bulavin³.

Abstract

Degradation of p53 is a cornerstone in the control of its functions as a tumor suppressor. This process is attributed to ubiquitin-dependent modification of p53. In addition to polyubiquitination, we found that p53 is targeted for degradation through ISGylation. Isg15, a ubiquitin-like protein, covalently modifies p53 at 2 sites in the N and C terminus, and ISGylated p53 can be degraded by the 20S proteasome. ISGylation primarily targets a misfolded, dominant-negative p53, and Isg15 deletion in normal cells results in suppression of p53 activity and functions. We propose that Isg15-dependent degradation of p53 represents an alternative mechanism of controlling p53 protein levels, and, thus, it is an attractive pathway for drug discovery.

Entities: Disease Gene

Keywords: Isg15; apoptosis; p53; protein degradation misfolded protein

Mesh：

Substances：

Year: 2014 PMID： 24844324 PMCID： PMC4111675 DOI： 10.4161/cc.29209

Source DB: PubMed Journal: Cell Cycle ISSN： 1551-4005 Impact factor: 4.534

52 in total

1. ISG15 modification of the eIF4E cognate 4EHP enhances cap structure-binding activity of 4EHP.

Authors: Fumihiko Okumura; Weiguo Zou; Dong-Er Zhang
Journal: Genes Dev Date: 2007-02-01 Impact factor: 11.361

2. Negative regulation of protein phosphatase 2Cbeta by ISG15 conjugation.

Authors: Tomoharu Takeuchi; Takayasu Kobayashi; Shinri Tamura; Hideyoshi Yokosawa
Journal: FEBS Lett Date: 2006-07-20 Impact factor: 4.124

3. HERC5 is an IFN-induced HECT-type E3 protein ligase that mediates type I IFN-induced ISGylation of protein targets.

Authors: Joyce Jing Yi Wong; Yuh Fen Pung; Newman Siu-Kwan Sze; Keh-Chuang Chin
Journal: Proc Natl Acad Sci U S A Date: 2006-06-30 Impact factor: 11.205

4. The pathological response to DNA damage does not contribute to p53-mediated tumour suppression.

Authors: M A Christophorou; I Ringshausen; A J Finch; L Brown Swigart; G I Evan
Journal: Nature Date: 2006-09-06 Impact factor: 49.962

5. The interferon-inducible ubiquitin-protein isopeptide ligase (E3) EFP also functions as an ISG15 E3 ligase.

Authors: Weiguo Zou; Dong-Er Zhang
Journal: J Biol Chem Date: 2005-12-13 Impact factor: 5.157

6. Herc5, an interferon-induced HECT E3 enzyme, is required for conjugation of ISG15 in human cells.

Authors: Anahita Dastur; Sylvie Beaudenon; Melissa Kelley; Robert M Krug; Jon M Huibregtse
Journal: J Biol Chem Date: 2005-12-28 Impact factor: 5.157

7. ISG15 modification of filamin B negatively regulates the type I interferon-induced JNK signalling pathway.

Authors: Young Joo Jeon; Joon Seok Choi; Jung Yun Lee; Kyung Ryun Yu; Sangman Michael Kim; Seung Hyeun Ka; Kyu Hee Oh; Keun Il Kim; Dong-Er Zhang; Ok Sun Bang; Chin Ha Chung
Journal: EMBO Rep Date: 2009-03-06 Impact factor: 8.807

8. Protocol for micro-purification, enrichment, pre-fractionation and storage of peptides for proteomics using StageTips.

Authors: Juri Rappsilber; Matthias Mann; Yasushi Ishihama
Journal: Nat Protoc Date: 2007 Impact factor: 13.491

9. Proteasomes can degrade a significant proportion of cellular proteins independent of ubiquitination.

Authors: James M Baugh; Ekaterina G Viktorova; Evgeny V Pilipenko
Journal: J Mol Biol Date: 2009-01-08 Impact factor: 5.469

10. Vaccinia virus E3 protein prevents the antiviral action of ISG15.

Authors: Susana Guerra; Ana Cáceres; Klaus-Peter Knobeloch; Ivan Horak; Mariano Esteban
Journal: PLoS Pathog Date: 2008-07-04 Impact factor: 6.823

27 in total

1. NGX6a is degraded through a proteasome-dependent pathway without ubiquitination mediated by ezrin, a cytoskeleton-membrane linker.

Authors: Li Wang; Xiaoling Li; Bo Xiang; Ming Zhou; Xiayu Li; Wei Xiong; Man Niu; Pingpin Wei; Zeyou Wang; Heran Wang; Pan Chen; Shourong Shen; Shuping Peng; Guiyuan Li
Journal: J Biol Chem Date: 2014-11-05 Impact factor: 5.157

Review 2. How ISG15 combats viral infection.

Authors: Brendan T Freitas; Florine E M Scholte; Éric Bergeron; Scott D Pegan
Journal: Virus Res Date: 2020-05-31 Impact factor: 3.303

3. USP18 (UBP43) Abrogates p21-Mediated Inhibition of HIV-1.

Authors: Edmund Osei Kuffour; Kerstin Schott; Ananda Ayyappan Jaguva Vasudevan; Jessica Holler; Wolfgang A Schulz; Philipp A Lang; Karl S Lang; Baek Kim; Dieter Häussinger; Renate König; Carsten Münk
Journal: J Virol Date: 2018-09-26 Impact factor: 5.103

4. Essential amino acid supplementation alters the p53 transcriptional response and cytokine gene expression following total knee arthroplasty.

Authors: Jonathan B Muyskens; Ari Winbush; Douglas M Foote; Douglas W Turnbull; Hans C Dreyer
Journal: J Appl Physiol (1985) Date: 2020-09-03

5. Interferon-stimulated gene 15 expression in systemic lupus erythematosus : Diagnostic value and association with lymphocytopenia.

Authors: Y Yuan; H Ma; Z Ye; W Jing; Z Jiang
Journal: Z Rheumatol Date: 2018-04 Impact factor: 1.372

Review 6. Emerging roles of p53 and other tumour-suppressor genes in immune regulation.

Authors: César Muñoz-Fontela; Anna Mandinova; Stuart A Aaronson; Sam W Lee
Journal: Nat Rev Immunol Date: 2016-09-26 Impact factor: 53.106

7. Dual regulation of Stat1 and Stat3 by the tumor suppressor protein PML contributes to interferon α-mediated inhibition of angiogenesis.

Authors: Kuo-Sheng Hsu; Xuan Zhao; Xiwen Cheng; Dongyin Guan; Ganapati H Mahabeleshwar; Yu Liu; Ernest Borden; Mukesh K Jain; Hung-Ying Kao
Journal: J Biol Chem Date: 2017-04-21 Impact factor: 5.157