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Literature DB >> 20463003

p53-based cancer therapy.

David P Lane¹, Chit Fang Cheok, Sonia Lain.

Abstract

Inactivation of p53 functions is an almost universal feature of human cancer cells. This has spurred a tremendous effort to develop p53 based cancer therapies. Gene therapy using wild-type p53, delivered by adenovirus vectors, is now in widespread use in China. Other biologic approaches include the development of oncolytic viruses designed to replicate and kill only p53 defective cells and also the development of siRNA and antisense RNA's that activate p53 by inhibiting the function of the negative regulators Mdm2, MdmX, and HPV E6. The altered processing of p53 that occurs in tumor cells can elicit T-cell and B-cell responses to p53 that could be effective in eliminating cancer cells and p53 based vaccines are now in clinical trial. A number of small molecules that directly or indirectly activate the p53 response have also reached the clinic, of which the most advanced are the p53 mdm2 interaction inhibitors. Increased understanding of the p53 response is also allowing the development of powerful drug combinations that may increase the selectivity and safety of chemotherapy, by selective protection of normal cells and tissues.

Entities: Disease Gene Species

Mesh：

Substances：

Year: 2010 PMID： 20463003 PMCID： PMC2926755 DOI： 10.1101/cshperspect.a001222

Source DB: PubMed Journal: Cold Spring Harb Perspect Biol ISSN： 1943-0264 Impact factor: 10.005

168 in total

1. Structure-based design of spiro-oxindoles as potent, specific small-molecule inhibitors of the MDM2-p53 interaction.

Authors: Ke Ding; Yipin Lu; Zaneta Nikolovska-Coleska; Guoping Wang; Su Qiu; Sanjeev Shangary; Wei Gao; Dongguang Qin; Jeanne Stuckey; Krzysztof Krajewski; Peter P Roller; Shaomeng Wang
Journal: J Med Chem Date: 2006-06-15 Impact factor: 7.446

2. Small-molecule modulators of p53 family signaling and antitumor effects in p53-deficient human colon tumor xenografts.

Authors: Wenge Wang; Seok-Hyun Kim; Wafik S El-Deiry
Journal: Proc Natl Acad Sci U S A Date: 2006-07-11 Impact factor: 11.205

3. Antitumor activity of a small-molecule inhibitor of human silent information regulator 2 enzymes.

Authors: Birgit Heltweg; Tonibelle Gatbonton; Aaron D Schuler; Jeff Posakony; Hongzhe Li; Sondra Goehle; Ramya Kollipara; Ronald A Depinho; Yansong Gu; Julian A Simon; Antonio Bedalov
Journal: Cancer Res Date: 2006-04-15 Impact factor: 12.701

4. Function of the SIRT1 protein deacetylase in cancer.

Authors: Walter Stünkel; Bee Keow Peh; Yong Cheng Tan; Vasantha M Nayagam; Xukun Wang; Manuel Salto-Tellez; BinHui Ni; Michael Entzeroth; Jeanette Wood
Journal: Biotechnol J Date: 2007-11 Impact factor: 4.677

5. R-Roscovitine simultaneously targets both the p53 and NF-kappaB pathways and causes potentiation of apoptosis: implications in cancer therapy.

Authors: A Dey; E T Wong; C F Cheok; V Tergaonkar; D P Lane
Journal: Cell Death Differ Date: 2007-11-02 Impact factor: 15.828

6. Comprehensive biomarker and genomic analysis identifies p53 status as the major determinant of response to MDM2 inhibitors in chronic lymphocytic leukemia.

Authors: Chris Saddler; Peter Ouillette; Lisa Kujawski; Sanjeev Shangary; Moshe Talpaz; Mark Kaminski; Harry Erba; Kerby Shedden; Shaomeng Wang; Sami N Malek
Journal: Blood Date: 2007-10-30 Impact factor: 22.113

7. Cyclin-dependent kinase inhibitors sensitize tumor cells to nutlin-induced apoptosis: a potent drug combination.

Authors: Chit Fang Cheok; Anwesha Dey; David P Lane
Journal: Mol Cancer Res Date: 2007-11 Impact factor: 5.852

8. Targeting mutant p53 shows promise for sunscreens and skin cancer.

Authors: Wafik S El-Deiry
Journal: J Clin Invest Date: 2007-12 Impact factor: 14.808

9. Sirt1 modulates premature senescence-like phenotype in human endothelial cells.

Authors: Hidetaka Ota; Masahiro Akishita; Masato Eto; Katsuya Iijima; Masao Kaneki; Yasuyoshi Ouchi
Journal: J Mol Cell Cardiol Date: 2007-08-22 Impact factor: 5.000

10. Structural basis for understanding oncogenic p53 mutations and designing rescue drugs.

Authors: Andreas C Joerger; Hwee Ching Ang; Alan R Fersht
Journal: Proc Natl Acad Sci U S A Date: 2006-10-02 Impact factor: 11.205

89 in total

1. CP-31398 prevents the growth of p53-mutated colorectal cancer cells in vitro and in vivo.

Authors: Xingxing He; Xinjuan Kong; Junwei Yan; Jingjun Yan; Yunan Zhang; Qian Wu; Ying Chang; Haitao Shang; Qian Dou; Yuhu Song; Fang Liu
Journal: Tumour Biol Date: 2015-02-08

Review 2. Translating p53 into the clinic.

Authors: Chit Fang Cheok; Chandra S Verma; José Baselga; David P Lane
Journal: Nat Rev Clin Oncol Date: 2010-10-26 Impact factor: 66.675

3. Interplay between p53 and VEGF: how to prevent the guardian from becoming a villain.

Authors: S Haupt; C Gamell; K Wolyniec; Y Haupt
Journal: Cell Death Differ Date: 2013-07 Impact factor: 15.828

Review 4. Platelet-derived growth factor (PDGF) signalling in cancer: rapidly emerging signalling landscape.

Authors: Ammad Ahmad Farooqi; Zahid H Siddik
Journal: Cell Biochem Funct Date: 2015-07-07 Impact factor: 3.685

5. Negative regulation of p53 by Ras superfamily protein RBEL1A.

Authors: Ki Lui; Jie An; Joanne Montalbano; Jingxue Shi; Chad Corcoran; Qin He; Hong Sun; M Saeed Sheikh; Ying Huang
Journal: J Cell Sci Date: 2013-04-09 Impact factor: 5.285

6. PCAF ubiquitin ligase activity inhibits Hedgehog/Gli1 signaling in p53-dependent response to genotoxic stress.

Authors: D Mazzà; P Infante; V Colicchia; A Greco; R Alfonsi; M Siler; L Antonucci; A Po; E De Smaele; E Ferretti; C Capalbo; D Bellavia; G Canettieri; G Giannini; I Screpanti; A Gulino; L Di Marcotullio
Journal: Cell Death Differ Date: 2013-09-06 Impact factor: 15.828