Author
Listed:
- Gabriela E. Davey
(Nanyang Technological University)
- Zenita Adhireksan
(Nanyang Technological University)
- Zhujun Ma
(Nanyang Technological University)
- Tina Riedel
(Ecole Polytechnique Fédérale de Lausanne (EPFL))
- Deepti Sharma
(Nanyang Technological University)
- Sivaraman Padavattan
(Nanyang Technological University)
- Daniela Rhodes
(Nanyang Technological University
Nanyang Technological University
Nanyang Technological University)
- Alexander Ludwig
(Nanyang Technological University)
- Sara Sandin
(Nanyang Technological University
Nanyang Technological University)
- Benjamin S. Murray
(University of Hull)
- Paul J. Dyson
(Ecole Polytechnique Fédérale de Lausanne (EPFL))
- Curt A. Davey
(Nanyang Technological University
Nanyang Technological University)
Abstract
The ‘acidic patch’ is a highly electronegative cleft on the histone H2A–H2B dimer in the nucleosome. It is a fundamental motif for protein binding and chromatin dynamics, but the cellular impact of targeting this potentially therapeutic site with exogenous molecules remains unclear. Here, we characterize a family of binuclear ruthenium compounds that selectively target the nucleosome acidic patch, generating intra-nucleosomal H2A-H2B cross-links as well as inter-nucleosomal cross-links. In contrast to cisplatin or the progenitor RAPTA-C anticancer drugs, the binuclear agents neither arrest specific cell cycle phases nor elicit DNA damage response, but rather induce an irreversible, anomalous state of condensed chromatin that ultimately results in apoptosis. In vitro, the compounds induce misfolding of chromatin fibre and block the binding of the regulator of chromatin condensation 1 (RCC1) acidic patch-binding protein. This family of chromatin-modifying molecules has potential for applications in drug development and as tools for chromatin research.
Suggested Citation
Gabriela E. Davey & Zenita Adhireksan & Zhujun Ma & Tina Riedel & Deepti Sharma & Sivaraman Padavattan & Daniela Rhodes & Alexander Ludwig & Sara Sandin & Benjamin S. Murray & Paul J. Dyson & Curt A. , 2017.
"Nucleosome acidic patch-targeting binuclear ruthenium compounds induce aberrant chromatin condensation,"
Nature Communications, Nature, vol. 8(1), pages 1-13, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01680-4
DOI: 10.1038/s41467-017-01680-4
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