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Literature DB >> 33608267

A stapled peptide mimetic of the CtIP tetramerization motif interferes with double-strand break repair and replication fork protection.

Anika Kuster¹, Nour L Mozaffari¹, Oliver J Wilkinson², Jessica L Wojtaszek³, Christina Zurfluh¹, Sara Przetocka¹, Dawid Zyla⁴, Christine von Aesch¹, Mark S Dillingham², R Scott Williams³, Alessandro A Sartori⁵.

Abstract

Cancer cells display high levels of DNA damage and replication stress, vulnerabilities that could be exploited by drugs targeting DNA repair proteins. Human CtIP promotes homology-mediated repair of DNA double-strand breaks (DSBs) and protects stalled replication forks from nucleolytic degradation, thus representing an attractive candidate for targeted cancer therapy. Here, we establish a peptide mimetic of the CtIP tetramerization motif that inhibits CtIP activity. The hydrocarbon-stapled peptide encompassing amino acid residues 18 to 28 of CtIP (SP18-28) stably binds to CtIP tetramers in vitro and facilitates their aggregation into higher-order structures. Efficient intracellular uptake of SP18-28 abrogates CtIP localization to damaged chromatin, impairs DSB repair, and triggers extensive fork degradation. Moreover, prolonged SP18-28 treatment causes hypersensitivity to DNA-damaging agents and selectively reduces the viability of BRCA1-mutated cancer cell lines. Together, our data provide a basis for the future development of CtIP-targeting compounds with the potential to treat patients with cancer.

Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY).

Entities: Chemical

Year: 2021 PMID： 33608267 PMCID： PMC7895427 DOI： 10.1126/sciadv.abc6381

Source DB: PubMed Journal: Sci Adv ISSN： 2375-2548 Impact factor: 14.136

44 in total

A stapled peptide mimetic of the CtIP tetramerization motif interferes with double-strand break repair and replication fork protection.

Review 1. Mechanisms and regulation of DNA end resection.

Review 2. Peptide-based inhibitors of protein-protein interactions.

3. Human CtIP promotes DNA end resection.

4. Phosphorylated CtIP Functions as a Co-factor of the MRE11-RAD50-NBS1 Endonuclease in DNA End Resection.

5. FANCD2 and CtIP cooperate to repair DNA interstrand crosslinks.

6. Highly Efficient Synthesis of Covalently Cross-Linked Peptide Helices by Ring-Closing Metathesis.

7. Cell Permeable Stapled Peptide Inhibitor of Wnt Signaling that Targets β-Catenin Protein-Protein Interactions.

8. When two is not enough: a CtIP tetramer is required for DNA repair by Homologous Recombination.

9. The DNA resection protein CtIP promotes mammary tumorigenesis.

10. ColonyArea: an ImageJ plugin to automatically quantify colony formation in clonogenic assays.

1. Sesquiterpene Lactones Potentiate Olaparib-Induced DNA Damage in p53 Wildtype Cancer Cells.

Review 2. Targeting Replication Stress Response Pathways to Enhance Genotoxic Chemo- and Radiotherapy.

3. Nucleases and Co-Factors in DNA Replication Stress Responses.