Literature DB >> 21737609

Synthetic lethality-based targets for discovery of new cancer therapeutics.

Ulrich H Weidle1, Daniela Maisel, Dirk Eick.   

Abstract

Synthetic lethality is based on the incompatibility of cell survival with the loss of function of two or more genes, not with loss of function of a single gene. If targets of synthetic lethality are deregulated or mutated in cancer cells, the strategy of synthetic lethality can result in significant increase of therapeutic efficacy and a favourable therapeutic window. In this review, we discuss synthetic lethality based on deficient DNA repair mechanisms, activating mutations of RAS, loss of function mutations of the tumor suppressor genes p53, Rb and von Hippel-Lindau, and disruption of interactive protein kinase networks in the context of development of new anticancer agents.

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Year:  2011        PMID: 21737609

Source DB:  PubMed          Journal:  Cancer Genomics Proteomics        ISSN: 1109-6535            Impact factor:   4.069


  20 in total

1.  An emerging toolkit for targeted cancer therapies.

Authors:  Gordon B Mills
Journal:  Genome Res       Date:  2012-02       Impact factor: 9.043

2.  Collateral Lethality: A new therapeutic strategy in oncology.

Authors:  Florian L Muller; Elisa A Aquilanti; Ronald A DePinho
Journal:  Trends Cancer       Date:  2015-11-01

Review 3.  Systems genetics in "-omics" era: current and future development.

Authors:  Hong Li
Journal:  Theory Biosci       Date:  2012-11-09       Impact factor: 1.919

Review 4.  TP53 in bone and soft tissue sarcomas.

Authors:  Elizabeth Thoenen; Amanda Curl; Tomoo Iwakuma
Journal:  Pharmacol Ther       Date:  2019-07-02       Impact factor: 12.310

Review 5.  Molecularly targeted therapies for p53-mutant cancers.

Authors:  Dekuang Zhao; William M Tahaney; Abhijit Mazumdar; Michelle I Savage; Powel H Brown
Journal:  Cell Mol Life Sci       Date:  2017-06-22       Impact factor: 9.261

6.  Selective inhibition of pancreatic ductal adenocarcinoma cell growth by the mitotic MPS1 kinase inhibitor NMS-P715.

Authors:  Roger B Slee; Brenda R Grimes; Ruchi Bansal; Jesse Gore; Corinne Blackburn; Lyndsey Brown; Rachel Gasaway; Jaesik Jeong; Jose Victorino; Keith L March; Riccardo Colombo; Brittney-Shea Herbert; Murray Korc
Journal:  Mol Cancer Ther       Date:  2013-11-26       Impact factor: 6.261

7.  Oncogenic KRAS sensitizes premalignant, but not malignant cells, to Noxa-dependent apoptosis through the activation of the MEK/ERK pathway.

Authors:  Annalisa Conti; Maria Teresa Majorini; Richard Elliott; Alan Ashworth; Christopher J Lord; Carlotta Cancelliere; Alberto Bardelli; Pierfausto Seneci; Henning Walczak; Domenico Delia; Daniele Lecis
Journal:  Oncotarget       Date:  2015-05-10

8.  Genome evolution predicts genetic interactions in protein complexes and reveals cancer drug targets.

Authors:  Xiaowen Lu; Philip R Kensche; Martijn A Huynen; Richard A Notebaart
Journal:  Nat Commun       Date:  2013       Impact factor: 14.919

9.  Passenger deletions generate therapeutic vulnerabilities in cancer.

Authors:  Florian L Muller; Simona Colla; Elisa Aquilanti; Veronica E Manzo; Giannicola Genovese; Jaclyn Lee; Daniel Eisenson; Rujuta Narurkar; Pingna Deng; Luigi Nezi; Michelle A Lee; Baoli Hu; Jian Hu; Ergun Sahin; Derrick Ong; Eliot Fletcher-Sananikone; Dennis Ho; Lawrence Kwong; Cameron Brennan; Y Alan Wang; Lynda Chin; Ronald A DePinho
Journal:  Nature       Date:  2012-08-16       Impact factor: 49.962

Review 10.  Mutations and deregulation of Ras/Raf/MEK/ERK and PI3K/PTEN/Akt/mTOR cascades which alter therapy response.

Authors:  James A McCubrey; Linda S Steelman; William H Chappell; Stephen L Abrams; Giuseppe Montalto; Melchiorre Cervello; Ferdinando Nicoletti; Paolo Fagone; Grazia Malaponte; Maria C Mazzarino; Saverio Candido; Massimo Libra; Jörg Bäsecke; Sanja Mijatovic; Danijela Maksimovic-Ivanic; Michele Milella; Agostino Tafuri; Lucio Cocco; Camilla Evangelisti; Francesca Chiarini; Alberto M Martelli
Journal:  Oncotarget       Date:  2012-09
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