Samuel M. Meier scite author profile

A novel series of organometallic antitumour agents based on Ru II and Os II complexes containing N-substituted 2-pyridinecarbothioamides (PCAs) has been synthesized and characterized. To the best of our knowledge, this is the first report of organometallic anticancer compounds with an S,N-bidentate ligand system. While the ligands showed activity as gastric mucosal protectants and low acute toxicity in vivo (J. Med. Chem., 1990, 33, 327-336), coordination leads to highly antiproliferative metallodrugs, depending on lipophilicity and steric demand, in colon carcinoma and non-small lung cancer cell lines with intrinsic chemoresistances. The most lipophilic and smallest congeners are the most effective with IC 50 values in the low micromolar range. This new family of potential metallodrugs features exceptional stability in hydrochloric acid (60 mM), characterized by complete suppression of hydrolysis and low reactivity towards biological nucleophiles. Therefore, their unexpected aqueous chemistry renders this family of antiproliferative agents suitable for oral administration. An unprecedented feature is their ability to form transient thioketone-bridged dimers in aqueous solution upon hydrolysis, which is believed to minimize deactivation by biological nucleophiles. However, the biological effect seems to be caused by the monomer as observed with crystallographic studies of the nucleosome core particle (NCP), which revealed that [chlorido(h 6 -p-cymene)(N-phenyl-2-pyridinecarbothioamide)osmium(II)] chloride and [chlorido(h 6 -p-cymene)(N-fluorophenyl-2-pyridinecarbothioamide)osmium(II)] chloride react at two types of binding sites on the histone proteins. The adducts form at histidine side chains located on the nucleosome surface and the inner cleft of the nucleosome in the midst of an extensive histonehistone interface, suggesting interference with chromatin activity as a possible mode of action of these compounds. Additionally, ligand-based S / O exchange allows for a potential dual-mode of action by targeting DNA (J. Med. Chem., 2009, 52, 7753-7764). The quantitative estimates of drug-likeness (QED) for this family of compounds revealed a similar drug-likeness compared to erlotinib, tamoxifen, imatinib and sorafenib.

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An Organoruthenium Anticancer Agent Shows Unexpected Target Selectivity For Plectin

Meier

et al. 2017

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Organometallic metal(arene) anticancer agents require ligand exchange for their anticancer activity and this is generally believed to confer low selectivity for potential cellular targets. However, using an integrated proteomics-based target-response profiling approach as a potent hypothesis-generating procedure, we found an unexpected target selectivity of a ruthenium(arene) pyridinecarbothioamide (plecstatin) for plectin, a scaffold protein and cytolinker, which was validated in a plectin knock-out model in vitro. Plectin targeting shows potential as a strategy to inhibit tumor invasiveness as shown in cultured tumor spheroids while oral administration of plecstatin-1 to mice reduces tumor growth more efficiently in the invasive B16 melanoma than in the CT26 colon tumor model.

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Application of mass spectrometric techniques to delineate the modes-of-action of anticancer metallodrugs

et al. 2013

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Mass spectrometry (MS) has emerged as an important tool for studying anticancer metallodrugs in complex biological samples and for characterising their interactions with biomolecules and potential targets on a molecular level. The exact modes-of-action of these coordination compounds and especially of next generation drug candidates have not been fully elucidated. Due to the fact that DNA is considered a crucial target for platinum chemotherapeutics, metallodrug-DNA binding studies dominated the field for a long time. However, more recently, alternative targets were considered, including enzymes and proteins that may play a role in the overall pharmacological and toxicological profile of metallodrugs. This review focuses on MS-based techniques for studying anticancer metallodrugs in vivo, in vitro and in situ to delineate their modes-of-action.

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Organometallic anticancer complexes of lapachol: metal centre-dependent formation of reactive oxygen species and correlation with cytotoxicity

et al. 2013

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Is the Reactivity of M(II)−Arene Complexes of 3-Hydroxy-2(1H)-pyridones to Biomolecules the Anticancer Activity Determining Parameter?

et al. 2010

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Hydroxypyr(id)ones are versatile ligands for the synthesis of organometallic anticancer agents, equipping them with fine-tunable pharmacological properties. Herein, we report on the preparation, mode of action, and in vitro anticancer activity of Ru(II)- and Os(II)-arene complexes with alkoxycarbonylmethyl-3-hydroxy-2-pyridone ligands. The hydrolysis and binding to amino acids proceed quickly, as characterized by NMR spectroscopy and ESI mass spectrometry. However, the reaction with amino acids causes cleavage of the pyridone ligands from the metal center because the amino acids act as multidentate ligands. A similar behavior was also observed during the reactions with the model proteins ubiquitin and cytochrome c, yielding mainly [protein + M(eta(6)-p-cymene)] adducts (M = Ru, Os). Notably the ligand cleavage of the Os derivative was significantly slower than of its Ru analogue, which could explain its higher activity in in vitro anticancer assays. Furthermore, the reaction of the compounds to 5'-GMP was characterized and coordination to the N7 of the guanine moiety was demonstrated by (1)H NMR spectroscopy and X-ray diffraction analysis. CDK2/Cyclin A protein kinase inhibition studies revealed potent activity of the Ru and Os complexes.

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Samuel M. Meier

Novel metal(ii) arene 2-pyridinecarbothioamides: a rationale to orally active organometallic anticancer agents

An Organoruthenium Anticancer Agent Shows Unexpected Target Selectivity For Plectin

Application of mass spectrometric techniques to delineate the modes-of-action of anticancer metallodrugs

Organometallic anticancer complexes of lapachol: metal centre-dependent formation of reactive oxygen species and correlation with cytotoxicity

Is the Reactivity of M(II)−Arene Complexes of 3-Hydroxy-2(1H)-pyridones to Biomolecules the Anticancer Activity Determining Parameter?

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