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Literature DB >> 21087899

Death by releasing the breaks: CHK1 inhibitors as cancer therapeutics.

Cynthia X Ma¹, James W Janetka, Helen Piwnica-Worms.

Abstract

Defects in p53 function, which occur frequently in human cancers due to mutations in TP53 or disruptions in the p53 regulatory pathway, render cells dependent on CHK1 (Checkpoint Kinase 1) to activate cell cycle checkpoints. In the presence of DNA damage or replication stress, inhibition of CHK1 leads to "mitotic catastrophe" and cell death in p53-deficient tumors while sparing p53-proficient cells. CHK1 inhibitors sensitize tumors to a variety of DNA-damaging agents or antimetabolites in preclinical models and are being evaluated in early phase clinical trials. In this review, we summarize recent advances and controversies in the development and application of CHK1 inhibitors as cancer therapeutics.

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Year: 2010 PMID： 21087899 PMCID： PMC6905465 DOI： 10.1016/j.molmed.2010.10.009

Source DB: PubMed Journal: Trends Mol Med ISSN： 1471-4914 Impact factor: 11.951

89 in total

1. AZD7762, a novel checkpoint kinase inhibitor, drives checkpoint abrogation and potentiates DNA-targeted therapies.

Authors: Sonya D Zabludoff; Chun Deng; Michael R Grondine; Adam M Sheehy; Susan Ashwell; Benjamin L Caleb; Stephen Green; Heather R Haye; Candice L Horn; James W Janetka; Dongfang Liu; Elizabeth Mouchet; Shannon Ready; Judith L Rosenthal; Christophe Queva; Gary K Schwartz; Karen J Taylor; Archie N Tse; Graeme E Walker; Anne M White
Journal: Mol Cancer Ther Date: 2008-09 Impact factor: 6.261

Review 2. ATR: an essential regulator of genome integrity.

Authors: Karlene A Cimprich; David Cortez
Journal: Nat Rev Mol Cell Biol Date: 2008-07-02 Impact factor: 94.444

3. Glioma stem cells promote radioresistance by preferential activation of the DNA damage response.

Authors: Shideng Bao; Qiulian Wu; Roger E McLendon; Yueling Hao; Qing Shi; Anita B Hjelmeland; Mark W Dewhirst; Darell D Bigner; Jeremy N Rich
Journal: Nature Date: 2006-10-18 Impact factor: 49.962

4. Chk1, but not Chk2, is involved in the cellular response to DNA damaging agents: differential activity in cells expressing or not p53.

Authors: Laura Carrassa; Massimo Broggini; Eugenio Erba; Giovanna Damia
Journal: Cell Cycle Date: 2004-09-13 Impact factor: 4.534

5. Chk1 is haploinsufficient for multiple functions critical to tumor suppression.

Authors: Michael H Lam; Qinghua Liu; Stephen J Elledge; Jeffrey M Rosen
Journal: Cancer Cell Date: 2004-07 Impact factor: 31.743

Review 6. Taking the time to make important decisions: the checkpoint effector kinases Chk1 and Chk2 and the DNA damage response.

Authors: Travis H Stracker; Takehiko Usui; John H J Petrini
Journal: DNA Repair (Amst) Date: 2009-05-26

Review 7. How the fanconi anemia pathway guards the genome.

Authors: George-Lucian Moldovan; Alan D D'Andrea
Journal: Annu Rev Genet Date: 2009 Impact factor: 16.830

8. Identification of novel kinase targets for the treatment of estrogen receptor-negative breast cancer.

Authors: Corey Speers; Anna Tsimelzon; Krystal Sexton; Ashley M Herrick; Carolina Gutierrez; Aedin Culhane; John Quackenbush; Susan Hilsenbeck; Jenny Chang; Powel Brown
Journal: Clin Cancer Res Date: 2009-10-06 Impact factor: 12.531

9. ATR-Chk1 pathway inhibition promotes apoptosis after UV treatment in primary human keratinocytes: potential basis for the UV protective effects of caffeine.

Authors: Timothy P Heffernan; Masaoki Kawasumi; Alessandra Blasina; Kenna Anderes; Allan H Conney; Paul Nghiem
Journal: J Invest Dermatol Date: 2009-02-26 Impact factor: 8.551

10. Gene products of chromosome 11q and their association with CCND1 gene amplification and tamoxifen resistance in premenopausal breast cancer.

Authors: Katja Lundgren; Karolina Holm; Bo Nordenskjöld; Ake Borg; Göran Landberg
Journal: Breast Cancer Res Date: 2008-09-29 Impact factor: 6.466

135 in total

1. Enhancing CHK1 inhibitor lethality in glioblastoma.

Authors: Yong Tang; Yun Dai; Steven Grant; Paul Dent
Journal: Cancer Biol Ther Date: 2012-04-01 Impact factor: 4.742

2. Re-purposing clinical kinase inhibitors to enhance chemosensitivity by overriding checkpoints.

Authors: Neil Beeharry; Eugenia Banina; James Hittle; Natalia Skobeleva; Vladimir Khazak; Sean Deacon; Mark Andrake; Brian L Egleston; Jeffrey R Peterson; Igor Astsaturov; Timothy J Yen
Journal: Cell Cycle Date: 2014-06-23 Impact factor: 4.534

Review 3. Mitotic catastrophe: a mechanism for avoiding genomic instability.

Authors: Ilio Vitale; Lorenzo Galluzzi; Maria Castedo; Guido Kroemer
Journal: Nat Rev Mol Cell Biol Date: 2011-04-29 Impact factor: 94.444

4. Chk'ing p53-deficient breast cancers.

Authors: David W Schoppy; Eric J Brown
Journal: J Clin Invest Date: 2012-03-26 Impact factor: 14.808

5. Targeting Chk1 in p53-deficient triple-negative breast cancer is therapeutically beneficial in human-in-mouse tumor models.

Authors: Cynthia X Ma; Shirong Cai; Shunqiang Li; Christine E Ryan; Zhanfang Guo; W Timothy Schaiff; Li Lin; Jeremy Hoog; Reece J Goiffon; Aleix Prat; Rebecca L Aft; Matthew J Ellis; Helen Piwnica-Worms
Journal: J Clin Invest Date: 2012-03-26 Impact factor: 14.808