Yves Pommier scite author profile

Small molecule inhibitors of polyADP-ribose polymerase (PARP) are thought to mediate their antitumor effects as catalytic inhibitors that block repair of DNA single strand breaks. However, the mechanism of action of PARP inhibitors with regard to their effects in cancer cells is not fully understood. In this study we demonstrate that PARP inhibitors trap the PARP1 and PARP2 enzymes at damaged DNA. Trapped PARP-DNA complexes were more cytotoxic than unrepaired single-strand breaks caused by PARP inactivation, arguing that PARP inhibitors act in part as poisons that trap PARP enzyme on DNA. Moreover, the potency in trapping PARP differed markedly among inhibitors with MK-4827 > olaparib (AZD-2281) ≫ veliparib (ABT-888), a pattern not correlated with the catalytic inhibitory properties for each drug. We also analyzed repair pathways for PARP-DNA complexes using 30 genetically altered avian DT40 cell lines with pre-established deletions in specific DNA repair genes. This analysis revealed that, in addition to its function in homologous recombination, PARP also functions in post-replication repair and the Fanconi anemia pathway, and that polymerase β and FEN1 were critical for repairing trapped PARP-DNA complexes. In summary, our study provides a new mechanistic foundation for the rational application of PARP inhibitors in cancer therapy.

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Topoisomerase I inhibitors: camptothecins and beyond

Pommier

2006

Nat Rev Cancer

1,936

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Nuclear DNA topoisomerase I (TOP1) is an essential human enzyme. It is the only known target of the alkaloid camptothecin, from which the potent anticancer agents irinotecan and topotecan are derived. As camptothecins bind at the interface of the TOP1-DNA complex, they represent a paradigm for interfacial inhibitors that reversibly trap macromolecular complexes. Several camptothecin and non-camptothecin derivatives are being developed to further increase anti-tumour activity and reduce side effects. The mechanisms and molecular determinants of tumour response to TOP1 inhibitors are reviewed, and rational combinations of TOP1 inhibitors with other drugs are considered based on current knowledge of repair and checkpoint pathways that are associated with TOP1-mediated DNA damage.

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Yves Pommier

Trapping of PARP1 and PARP2 by Clinical PARP Inhibitors

Topoisomerase I inhibitors: camptothecins and beyond

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﻿Yves Pommier

Trapping of PARP1 and PARP2 by Clinical PARP Inhibitors

Topoisomerase I inhibitors: camptothecins and beyond

Contact Info

Product

Resources

About

Yves Pommier