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Literature DB >> 18473724

Helicases as prospective targets for anti-cancer therapy.

Abstract

It has been proposed that selective inactivation of a DNA repair pathway may enhance anti-cancer therapies that eliminate cancerous cells through the cytotoxic effects of DNA damaging agents or radiation. Given the unique and critically important roles of DNA helicases in the DNA damage response, DNA repair, and maintenance of genomic stability, a number of strategies currently being explored or in use to combat cancer may be either mediated or enhanced through the modulation of helicase function. The focus of this review will be to examine the roles of helicases in DNA repair that might be suitably targeted by cancer therapeutic approaches. Treatment of cancers with anti-cancer drugs such as small molecule compounds that modulate helicase expression or function is a viable approach to selectively kill cancer cells through the inactivation of helicase-dependent DNA repair pathways, particularly those associated with DNA recombination, replication restart, and cell cycle checkpoint.

Entities: Disease Gene

Mesh：

Substances：

Year: 2008 PMID： 18473724 PMCID： PMC2564855 DOI： 10.2174/187152008784220339

Source DB: PubMed Journal: Anticancer Agents Med Chem ISSN： 1871-5206 Impact factor: 2.505

110 in total

1. Site-directed mutagenesis of motif III in PcrA helicase reveals a role in coupling ATP hydrolysis to strand separation.

Authors: M S Dillingham; P Soultanas; D B Wigley
Journal: Nucleic Acids Res Date: 1999-08-15 Impact factor: 16.971

2. Functional and physical interaction between WRN helicase and human replication protein A.

Authors: R M Brosh; D K Orren; J O Nehlin; P H Ravn; M K Kenny; A Machwe; V A Bohr
Journal: J Biol Chem Date: 1999-06-25 Impact factor: 5.157

3. Crystal structures of complexes of PcrA DNA helicase with a DNA substrate indicate an inchworm mechanism.

Authors: S S Velankar; P Soultanas; M S Dillingham; H S Subramanya; D B Wigley
Journal: Cell Date: 1999-04-02 Impact factor: 41.582

4. Site-directed mutations in motif VI of Escherichia coli DNA helicase II result in multiple biochemical defects: evidence for the involvement of motif VI in the coupling of ATPase and DNA binding activities via conformational changes.

Authors: M C Hall; A Z Ozsoy; S W Matson
Journal: J Mol Biol Date: 1998-03-27 Impact factor: 5.469

5. p53 modulates RPA-dependent and RPA-independent WRN helicase activity.

Authors: Joshua A Sommers; Sudha Sharma; Kevin M Doherty; Parimal Karmakar; Qin Yang; Mark K Kenny; Curtis C Harris; Robert M Brosh
Journal: Cancer Res Date: 2005-02-15 Impact factor: 12.701

6. The DNA helicase activity of BLM is necessary for the correction of the genomic instability of bloom syndrome cells.

Authors: N F Neff; N A Ellis; T Z Ye; J Noonan; K Huang; M Sanz; M Proytcheva
Journal: Mol Biol Cell Date: 1999-03 Impact factor: 4.138

Review 7. A mouse model of Werner Syndrome: what can it tell us about aging and cancer?

Authors: Sandy Chang
Journal: Int J Biochem Cell Biol Date: 2004-12-08 Impact factor: 5.085

8. Werner syndrome cells escape hydrogen peroxide-induced cell proliferation arrest.

Authors: Cayetano Von Kobbe; Alfred May; Carla Grandori; Vilhelm A Bohr
Journal: FASEB J Date: 2004-09-30 Impact factor: 5.191

9. Specific killing of BRCA2-deficient tumours with inhibitors of poly(ADP-ribose) polymerase.

Authors: Helen E Bryant; Niklas Schultz; Huw D Thomas; Kayan M Parker; Dan Flower; Elena Lopez; Suzanne Kyle; Mark Meuth; Nicola J Curtin; Thomas Helleday
Journal: Nature Date: 2005-04-14 Impact factor: 69.504

10. Targeting the DNA repair defect in BRCA mutant cells as a therapeutic strategy.

Authors: Hannah Farmer; Nuala McCabe; Christopher J Lord; Andrew N J Tutt; Damian A Johnson; Tobias B Richardson; Manuela Santarosa; Krystyna J Dillon; Ian Hickson; Charlotte Knights; Niall M B Martin; Stephen P Jackson; Graeme C M Smith; Alan Ashworth
Journal: Nature Date: 2005-04-14 Impact factor: 69.504

12 in total

Review 1. Molecular analyses of DNA helicases involved in the replicational stress response.

Authors: Yuliang Wu; Joshua A Sommers; Avvaru N Suhasini; Monika Aggarwal; Robert M Brosh
Journal: Methods Date: 2010-02-25 Impact factor: 3.608

2. Inhibition of helicase activity by a small molecule impairs Werner syndrome helicase (WRN) function in the cellular response to DNA damage or replication stress.

Authors: Monika Aggarwal; Joshua A Sommers; Robert H Shoemaker; Robert M Brosh
Journal: Proc Natl Acad Sci U S A Date: 2011-01-10 Impact factor: 11.205

Helicases as prospective targets for anti-cancer therapy.

1. Site-directed mutagenesis of motif III in PcrA helicase reveals a role in coupling ATP hydrolysis to strand separation.

2. Functional and physical interaction between WRN helicase and human replication protein A.

3. Crystal structures of complexes of PcrA DNA helicase with a DNA substrate indicate an inchworm mechanism.

4. Site-directed mutations in motif VI of Escherichia coli DNA helicase II result in multiple biochemical defects: evidence for the involvement of motif VI in the coupling of ATPase and DNA binding activities via conformational changes.

5. p53 modulates RPA-dependent and RPA-independent WRN helicase activity.

6. The DNA helicase activity of BLM is necessary for the correction of the genomic instability of bloom syndrome cells.

Review 7. A mouse model of Werner Syndrome: what can it tell us about aging and cancer?

8. Werner syndrome cells escape hydrogen peroxide-induced cell proliferation arrest.

9. Specific killing of BRCA2-deficient tumours with inhibitors of poly(ADP-ribose) polymerase.

10. Targeting the DNA repair defect in BRCA mutant cells as a therapeutic strategy.

Review 1. Molecular analyses of DNA helicases involved in the replicational stress response.

2. Inhibition of helicase activity by a small molecule impairs Werner syndrome helicase (WRN) function in the cellular response to DNA damage or replication stress.

Review 3. Human RECQ helicases: roles in DNA metabolism, mutagenesis and cancer biology.

4. Human nuclease/helicase DNA2 alleviates replication stress by promoting DNA end resection.

Review 5. Hitting the bull's eye: novel directed cancer therapy through helicase-targeted synthetic lethality.

Review 6. Distinct roles of RECQ1 in the maintenance of genomic stability.

Review 7. Telomeres do the (un)twist: helicase actions at chromosome termini.

Review 8. RECQL1 and WRN DNA repair helicases: potential therapeutic targets and proliferative markers against cancers.

Review 9. The Human Replicative Helicase, the CMG Complex, as a Target for Anti-cancer Therapy.

Review 10. Discovering new medicines targeting helicases: challenges and recent progress.