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Literature DB >> 25017190

Cancer-specific defects in DNA repair pathways as targets for personalized therapeutic approaches.

Felix Dietlein¹, Lisa Thelen², H Christian Reinhardt³.

Abstract

Defects in DNA repair pathways enable cancer cells to accumulate genomic alterations that contribute to their aggressive phenotype. However, tumors rely on residual DNA repair capacities to survive the damage induced by genotoxic stress. This dichotomy might explain why only isolated DNA repair pathways are inactivated in cancer cells. Accordingly, synergism has been observed between DNA-damaging drugs and targeted inhibitors of DNA repair. DNA repair pathways are generally thought of as mutually exclusive mechanistic units handling different types of lesions in distinct cell cycle phases. Recent preclinical studies, however, provide strong evidence that multifunctional DNA repair hubs, which are involved in multiple conventional DNA repair pathways, are frequently altered in cancer. We therefore propose that targeted anticancer therapies should not only exploit synthetic lethal interactions between two single genes but also consider alterations in DNA repair hubs. Such a network-based approach considerably increases the opportunities for targeting DNA repair-defective tumors.

Entities: Disease

Mesh：

Substances：

Year: 2014 PMID： 25017190 DOI： 10.1016/j.tig.2014.06.003

Source DB: PubMed Journal: Trends Genet ISSN： 0168-9525 Impact factor: 11.639

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Cited

101 in total

Review 1. Targeting DNA repair in cancer: current state and novel approaches.

Authors: Apostolos Klinakis; Dimitris Karagiannis; Theodoros Rampias
Journal: Cell Mol Life Sci Date: 2019-10-14 Impact factor: 9.261

2. A Preliminary Study: Human Fibroid Stro-1⁺/CD44⁺ Stem Cells Isolated From Uterine Fibroids Demonstrate Decreased DNA Repair and Genomic Integrity Compared to Adjacent Myometrial Stro-1⁺/CD44⁺ Cells.

Authors: Lauren E Prusinski Fernung; Ayman Al-Hendy; Qiwei Yang
Journal: Reprod Sci Date: 2018-06-28 Impact factor: 3.060

3. Comprehensive Profiling of DNA Repair Defects in Breast Cancer Identifies a Novel Class of Endocrine Therapy Resistance Drivers.

Authors: Meenakshi Anurag; Nindo Punturi; Jeremy Hoog; Matthew N Bainbridge; Matthew J Ellis; Svasti Haricharan
Journal: Clin Cancer Res Date: 2018-05-23 Impact factor: 12.531

4. Enhancing the activity of platinum-based drugs by improved inhibitors of ERCC1-XPF-mediated DNA repair.

Authors: Gloria Ciniero; Ahmed H Elmenoufy; Francesco Gentile; Michael Weinfeld; Marco A Deriu; Frederick G West; Jack A Tuszynski; Charles Dumontet; Emeline Cros-Perrial; Lars Petter Jordheim
Journal: Cancer Chemother Pharmacol Date: 2021-01-05 Impact factor: 3.333

Review 5. DNA double-strand break repair pathway choice - from basic biology to clinical exploitation.

Authors: Ron D Jachimowicz; Jonas Goergens; H Christian Reinhardt
Journal: Cell Cycle Date: 2019-05-22 Impact factor: 4.534

Review 6. Schlafen 11 (SLFN11), a restriction factor for replicative stress induced by DNA-targeting anti-cancer therapies.

Authors: Junko Murai; Anish Thomas; Markku Miettinen; Yves Pommier
Journal: Pharmacol Ther Date: 2019-05-23 Impact factor: 12.310

Cancer-specific defects in DNA repair pathways as targets for personalized therapeutic approaches.

Review 1. Targeting DNA repair in cancer: current state and novel approaches.

2. A Preliminary Study: Human Fibroid Stro-1⁺/CD44⁺ Stem Cells Isolated From Uterine Fibroids Demonstrate Decreased DNA Repair and Genomic Integrity Compared to Adjacent Myometrial Stro-1⁺/CD44⁺ Cells.

3. Comprehensive Profiling of DNA Repair Defects in Breast Cancer Identifies a Novel Class of Endocrine Therapy Resistance Drivers.

4. Enhancing the activity of platinum-based drugs by improved inhibitors of ERCC1-XPF-mediated DNA repair.

Review 5. DNA double-strand break repair pathway choice - from basic biology to clinical exploitation.

Review 6. Schlafen 11 (SLFN11), a restriction factor for replicative stress induced by DNA-targeting anti-cancer therapies.

7. Modulators of alternative splicing as novel therapeutics in cancer.

8. New insights into tumor dormancy: Targeting DNA repair pathways.

Review 9. Not all cancers are created equal: Tissue specificity in cancer genes and pathways.

10. Superresolution imaging of individual replication forks reveals unexpected prodrug resistance mechanism.

Cancer-specific defects in DNA repair pathways as targets for personalized therapeutic approaches.

Review 1. Targeting DNA repair in cancer: current state and novel approaches.

2. A Preliminary Study: Human Fibroid Stro-1+/CD44+ Stem Cells Isolated From Uterine Fibroids Demonstrate Decreased DNA Repair and Genomic Integrity Compared to Adjacent Myometrial Stro-1+/CD44+ Cells.

3. Comprehensive Profiling of DNA Repair Defects in Breast Cancer Identifies a Novel Class of Endocrine Therapy Resistance Drivers.

4. Enhancing the activity of platinum-based drugs by improved inhibitors of ERCC1-XPF-mediated DNA repair.

Review 5. DNA double-strand break repair pathway choice - from basic biology to clinical exploitation.

Review 6. Schlafen 11 (SLFN11), a restriction factor for replicative stress induced by DNA-targeting anti-cancer therapies.

7. Modulators of alternative splicing as novel therapeutics in cancer.

8. New insights into tumor dormancy: Targeting DNA repair pathways.

Review 9. Not all cancers are created equal: Tissue specificity in cancer genes and pathways.

10. Superresolution imaging of individual replication forks reveals unexpected prodrug resistance mechanism.

2. A Preliminary Study: Human Fibroid Stro-1⁺/CD44⁺ Stem Cells Isolated From Uterine Fibroids Demonstrate Decreased DNA Repair and Genomic Integrity Compared to Adjacent Myometrial Stro-1⁺/CD44⁺ Cells.