Ligand substitutions between ruthenium–cymene compounds can control protein versus DNA targeting and anticancer activity

Adhireksan, Zenita; Davey, Gabriela E.; Campomanes, Pablo; Groessl, Michael; Clavel, Catherine M.; Yu, Haojie; Nazarov, Alexey A.; Yeo, Charmian Hui Fang; Ang, Wee Han; Dröge, Peter; Röthlisberger, Ursula; Dyson, Paul J.; Davey, C.A.

doi:10.1038/ncomms4462

Cited by 278 publications

(260 citation statements)

References 59 publications

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“…29 While oxaliplatin was shown to preferentially interact with the oligonucleotide in this model system, 29 the organometallic ruthenium(arenes) turned out to be tuneable with respect to this property, depending on the inert ligands. 30 In the same setup, the drug candidate [chlorido(Z 6 -p-cymene)(N-(4-fluorophenyl)-2-pyridinecarbothioamide)ruthenium-(II)]chloride (plecstatin-1, Scheme 1A) was shown to exclusively coordinate to histidines 79 and 106 of histone 2B. 24 Then, an MS-based shotgun proteomics method was developed to identify potential protein targets of plecstatin-1 by a combination of affinity purification of cell lysates and in vitro treatment of cell cultures.…”

Section: Resultsmentioning

confidence: 99%

Time-dependent shotgun proteomics revealed distinct effects of an organoruthenium prodrug and its activation product on colon carcinoma cells

et al. 2019

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Time-dependent shotgun proteomics revealed distinct effects of an organoruthenium prodrug and its activation product on colon carcinoma cellsThe unravelling of target interactions in cancer cells is a crucial process for identifying promising metal-based anticancer agents. Therefore, target profiles were analysed in a time-dependent manner using proteomics techniques by accounting for the hydrolysis kinetics of plecstatin, an organometallic ruthenium(arene) derivative. While the intact prodrug provoked a cytoprotective integrated stress response, which was further verified by gene expression studies, the activated species was responsible for the target engagement with plectin, the previously validated protein target. As featured in:ISSN 1756-591X Activation kinetics of metallo-prodrugs control the types of possible interactions with biomolecules. The intact metallo-prodrug is able to engage with potential targets by purely non-covalent bonding, while the activated metallodrug can form additional coordination bonds. It is hypothesized that the additional coordinative bonding might be favourable with respect to the target selectivity of activated metallodrugs. Thus, a time-dependent shotgun proteomics study was conducted in HCT116 colon carcinoma cells with plecstatins, which are organoruthenium anticancer drug candidates. First, the target selectivity was evaluated in a time-dependent fashion, which accounted for their hydrolysis kinetics. The binding selectivity increased from 50-to 160-fold and the average specificity from 0.72 to 0.86, respectively, from the 2 h to the 4 h target profiling experiment. Target profiling after 19 h did not reveal significant enrichments, possibly due to deactivation of the probe via arene cleavage. Up to 450 interactors were identified in the target profiling experiments. A plecstatin analogue that substituted a hydrogen bond acceptor with a hydrogen bond donor abrogated the target selectivity for plectin in HCT116 whole cell lysates, underlining the necessity of this hydrogen bond acceptor for a strong interaction between plecstatin and plectin. Second, time-dependent response profiling experiments provided evidence that plecstatin-2 induced an integrated stress response (ISR) in HCT116 cell culture. The phosphorylation of eIF2a, a key mediator of the ISR, after 3 h treatment indicated that this perturbation was initiated by the intact plecstatin-2 prodrug, while the effects of plectin-targeting are mediated by activated plecstatin-2. Significance to metallomicsCell-level investigations of metallodrugs by shotgun proteomics are still scarce despite the evident advantages of these methods. We performed time-dependent target profiling experiments with organoruthenium-based plecstatins in cell lysates of HCT116 colon carcinoma cells. The changes in target selectivity over time correlated with the activation status of the metallo-prodrug. The target engagement of the plecstatins was tested by substituting a hydrogen bond acceptor with a hydrogen bond donor, which abrogated the plect...

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Section: Resultsmentioning

confidence: 99%

Time-dependent shotgun proteomics revealed distinct effects of an organoruthenium prodrug and its activation product on colon carcinoma cells

et al. 2019

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“…1A, right panel) is higher than that of paddlewheel diruthenium species (Barral et al 2007(Barral et al , 2008, we decided to test the reactivity of the compound [Ru 2 Cl 2 (µ-DPhF) 3 (DMSO)] (designated OPW-Ru) (DPhF = N,N ′ -diphenylformamidinate) toward RNA. Numerous ruthenium compounds have been designed to interact with nucleic acid such as mononuclear ruthenium complexes with labile ligands (Busto et al 2013;Wu et al 2013;Adhireksan et al 2014) or tris(chelate)ruthenium(II) compounds (Song et al 2012;Li et al 2015). The existence of labile ligands in the first type of compounds allows establishing direct ruthenium-nucleic acid bonds; the coordination mode implies bond angles of 90°.…”

Section: Introductionmentioning

confidence: 99%

Fingerprinting the junctions of RNA structure by an open-paddlewheel diruthenium compound

Lozano

Jiménez‐Aparicio

Herrero

et al. 2016

RNA

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RNA function is determined by its structural organization. The RNA structure consists of the combination of distinct secondary structure motifs connected by junctions that play an essential role in RNA folding. Selective 2 ′ -hydroxyl acylation analyzed by primer extension (SHAPE) probing is an established methodology to analyze the secondary structure of long RNA molecules in solution, which provides accurate data about unpaired nucleotides. However, the residues located at the junctions of RNA structures usually remain undetected. Here we report an RNA probing method based on the use of a novel open-paddlewheel diruthenium (OPW-Ru) compound [Ru 2 Cl 2 (µ-DPhF) 3 (DMSO)] (DPhF = N,N ′ -diphenylformamidinate). This compound has four potential coordination sites in a singular disposition to establish covalent bonds with substrates. As a proof of concept, we have analyzed the reactivity of OPW-Ru toward RNA using two viral internal ribosome entry site (IRES) elements whose function depends on the structural organization of the molecule. Our study suggests that the compound OPW-Ru preferentially attacks at positions located one or two nucleotides away from junctions or bulges of the RNA structure. The OPW-Ru fingerprinting data differ from that obtained by other chemical reagents and provides new information about RNA structure features.

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“…However, studies [242][243][244] with a series of ruthenium anticancer compounds revealed that DNA is not always the primary target and that these species were actually binding more strongly to proteins than to DNA. These findings clearly indicated the occurrence of significantly different modes of action, depending on the type of ruthenium complexes.…”

Section: Cancermentioning

confidence: 96%

The versatile ruthenium(II/III) tetraazamacrocycle complexes and their nitrosyl derivatives

Doro

Ferreira

Rocha

et al. 2016

Coordination Chemistry Reviews

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Ligand substitutions between ruthenium–cymene compounds can control protein versus DNA targeting and anticancer activity

Cited by 278 publications

References 59 publications

Time-dependent shotgun proteomics revealed distinct effects of an organoruthenium prodrug and its activation product on colon carcinoma cells

Time-dependent shotgun proteomics revealed distinct effects of an organoruthenium prodrug and its activation product on colon carcinoma cells

Fingerprinting the junctions of RNA structure by an open-paddlewheel diruthenium compound

The versatile ruthenium(II/III) tetraazamacrocycle complexes and their nitrosyl derivatives

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