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Literature DB >> 24577402

Drugging the p53 pathway: understanding the route to clinical efficacy.

Kian Hoe Khoo, Khoo Kian Hoe¹, Chandra S Verma², David P Lane¹.

Abstract

The tumour suppressor p53 is the most frequently mutated gene in human cancer, with more than half of all human tumours carrying mutations in this particular gene. Intense efforts to develop drugs that could activate or restore the p53 pathway have now reached clinical trials. The first clinical results with inhibitors of MDM2, a negative regulator of p53, have shown efficacy but hint at on-target toxicities. Here, we describe the current state of the development of p53 pathway modulators and new pathway targets that have emerged. The challenge of targeting protein-protein interactions and a fragile mutant transcription factor has stimulated many exciting new approaches to drug discovery.

Entities: Disease Gene Species

Mesh：

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Year: 2014 PMID： 24577402 DOI： 10.1038/nrd4236

Source DB: PubMed Journal: Nat Rev Drug Discov ISSN： 1474-1776 Impact factor: 84.694

233 in total

1. ASPP proteins specifically stimulate the apoptotic function of p53.

Authors: Y Samuels-Lev; D J O'Connor; D Bergamaschi; G Trigiante; J K Hsieh; S Zhong; I Campargue; L Naumovski; T Crook; X Lu
Journal: Mol Cell Date: 2001-10 Impact factor: 17.970

2. A nonpeptidic sulfonamide inhibits the p53-mdm2 interaction and activates p53-dependent transcription in mdm2-overexpressing cells.

Authors: Peter S Galatin; Donald J Abraham
Journal: J Med Chem Date: 2004-08-12 Impact factor: 7.446

3. Synergistic induction of p53 mediated apoptosis by valproic acid and nutlin-3 in acute myeloid leukemia.

Authors: E McCormack; I Haaland; G Venås; R B Forthun; S Huseby; G Gausdal; S Knappskog; D R Micklem; J B Lorens; O Bruserud; B T Gjertsen
Journal: Leukemia Date: 2011-11-08 Impact factor: 11.528

4. Differential targeting of prosurvival Bcl-2 proteins by their BH3-only ligands allows complementary apoptotic function.

Authors: Lin Chen; Simon N Willis; Andrew Wei; Brian J Smith; Jamie I Fletcher; Mark G Hinds; Peter M Colman; Catherine L Day; Jerry M Adams; David C S Huang
Journal: Mol Cell Date: 2005-02-04 Impact factor: 17.970

5. Multiple peptide conformations give rise to similar binding affinities: molecular simulations of p53-MDM2.

Authors: Shubhra Ghosh Dastidar; David P Lane; Chandra S Verma
Journal: J Am Chem Soc Date: 2008-09-19 Impact factor: 15.419

6. p53 efficiently suppresses tumor development in the complete absence of its cell-cycle inhibitory and proapoptotic effectors p21, Puma, and Noxa.

Authors: Liz J Valente; Daniel H D Gray; Ewa M Michalak; Josefina Pinon-Hofbauer; Alex Egle; Clare L Scott; Ana Janic; Andreas Strasser
Journal: Cell Rep Date: 2013-05-09 Impact factor: 9.423

7. Rational design and binding mode duality of MDM2-p53 inhibitors.

Authors: Felix Gonzalez-Lopez de Turiso; Daqing Sun; Yosup Rew; Michael D Bartberger; Hilary P Beck; Jude Canon; Ada Chen; David Chow; Tiffany L Correll; Xin Huang; Lisa D Julian; Frank Kayser; Mei-Chu Lo; Alexander M Long; Dustin McMinn; Jonathan D Oliner; Tao Osgood; Jay P Powers; Anne Y Saiki; Steve Schneider; Paul Shaffer; Shou-Hua Xiao; Peter Yakowec; Xuelei Yan; Qiuping Ye; Dongyin Yu; Xiaoning Zhao; Jing Zhou; Julio C Medina; Steven H Olson
Journal: J Med Chem Date: 2013-05-06 Impact factor: 7.446

Review 8. Structure-function-rescue: the diverse nature of common p53 cancer mutants.

Authors: A C Joerger; A R Fersht
Journal: Oncogene Date: 2007-04-02 Impact factor: 9.867

9. A p53-independent role for the MDM2 antagonist Nutlin-3 in DNA damage response initiation.

Authors: Jane M Valentine; Sonia Kumar; Abdeladim Moumen
Journal: BMC Cancer Date: 2011-02-21 Impact factor: 4.430

10. PRIMA-1MET inhibits growth of mouse tumors carrying mutant p53.

Authors: Nicole Zache; Jeremy M R Lambert; Klas G Wiman; Vladimir J N Bykov
Journal: Cell Oncol Date: 2008 Impact factor: 6.730

327 in total

1. A stapled peptide antagonist of MDM2 carried by polymeric micelles sensitizes glioblastoma to temozolomide treatment through p53 activation.

Authors: Xishan Chen; Lingyu Tai; Jie Gao; Jianchang Qian; Mingfei Zhang; Beibei Li; Cao Xie; Linwei Lu; Wuyuan Lu; Weiyue Lu
Journal: J Control Release Date: 2015-09-30 Impact factor: 9.776

Review 2. The DNA damage-induced cell death response: a roadmap to kill cancer cells.

Authors: Sonja Matt; Thomas G Hofmann
Journal: Cell Mol Life Sci Date: 2016-01-20 Impact factor: 9.261

Review 3. Drugging Ras GTPase: a comprehensive mechanistic and signaling structural view.

Authors: Shaoyong Lu; Hyunbum Jang; Shuo Gu; Jian Zhang; Ruth Nussinov
Journal: Chem Soc Rev Date: 2016-07-11 Impact factor: 54.564

4. p53 gain-of-function mutations promote metastasis via ENTPD5 upregulation and enhanced N-glycoprotein folding.

Authors: Oleg Timofeev; Thorsten Stiewe
Journal: Mol Cell Oncol Date: 2017-02-03

5. Elevated miR-182-5p Associates with Renal Cancer Cell Mitotic Arrest through Diminished MALAT-1 Expression.

Authors: Priyanka Kulkarni; Pritha Dasgupta; Nadeem S Bhat; Varahram Shahryari; Marisa Shiina; Yutaka Hashimoto; Shahana Majid; Guoren Deng; Sharanjot Saini; Z Laura Tabatabai; Soichiro Yamamura; Yuichiro Tanaka; Rajvir Dahiya
Journal: Mol Cancer Res Date: 2018-07-23 Impact factor: 5.852

6. Protein mimetic amyloid inhibitor potently abrogates cancer-associated mutant p53 aggregation and restores tumor suppressor function.

Authors: L Palanikumar; Laura Karpauskaite; Mohamed Al-Sayegh; Ibrahim Chehade; Maheen Alam; Sarah Hassan; Debabrata Maity; Liaqat Ali; Mona Kalmouni; Yamanappa Hunashal; Jemil Ahmed; Tatiana Houhou; Shake Karapetyan; Zackary Falls; Ram Samudrala; Renu Pasricha; Gennaro Esposito; Ahmed J Afzal; Andrew D Hamilton; Sunil Kumar; Mazin Magzoub
Journal: Nat Commun Date: 2021-06-25 Impact factor: 14.919