Emerging protein targets for anticancer metallodrugs: Inhibition of thioredoxin reductase and cathepsin B by antitumor ruthenium(II)-arene compounds

Angela Casini; Chiara Gabbiani; Francesca Sorrentino; Maria Pia Rigobello; Alberto Bindoli; Tilmann J. Geldbach; Alessandro Marrone; Nazzareno Re; Christian G. Hartinger; Paul J. Dyson; Luigi Messori

doi:10.1021/jm8006678

Emerging protein targets for anticancer metallodrugs: Inhibition of thioredoxin reductase and cathepsin B by antitumor ruthenium(II)-arene compounds

Angela Casini, Chiara Gabbiani, Francesca Sorrentino, Maria Pia Rigobello, Alberto Bindoli, Tilmann J. Geldbach, Alessandro Marrone, Nazzareno Re, Christian G. Hartinger, Paul J. Dyson, Luigi Messori

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Abstract

A series of ruthenium(II)-arene (RAPTA) compounds were evaluated for their ability to inhibit thioredoxin reductase (either cytosolic or mitochondrial) and cathepsin B, two possible targets for anticancer metallodrugs. In general, inhibition of the thioredoxin reductases was lower than that of cathepsin B, although selected compounds were excellent inhibitors of both classes of enzymes in comparison to other metal-based drugs. Some initial structure-activity relationships could be established. On the basis of the obtained data, different mechanisms of binding/inhibition appear to be operative; remarkably the selectivity of the ruthenium compounds toward solid metastatic tumors also correlates to the observed trends. Notably, docking studies of the interactions of representative RAPTA compounds with cathepsin B were performed that provided realistic structures for the resulting protein-metallodrug adducts. Good agreement was generally found between the inhibiting potency of the RAPTA compounds and the computed stability of the corresponding cat B/RAPTA adducts.

Original language	English
Pages (from-to)	6773-6781
Number of pages	9
Journal	Journal of Medicinal Chemistry
Volume	51
Issue number	21
DOIs	https://doi.org/10.1021/jm8006678
State	Published - 13 Nov 2008
Externally published	Yes

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Casini, A., Gabbiani, C., Sorrentino, F., Rigobello, M. P., Bindoli, A., Geldbach, T. J., Marrone, A., Re, N., Hartinger, C. G., Dyson, P. J., & Messori, L. (2008). Emerging protein targets for anticancer metallodrugs: Inhibition of thioredoxin reductase and cathepsin B by antitumor ruthenium(II)-arene compounds. Journal of Medicinal Chemistry, 51(21), 6773-6781. https://doi.org/10.1021/jm8006678

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title = "Emerging protein targets for anticancer metallodrugs: Inhibition of thioredoxin reductase and cathepsin B by antitumor ruthenium(II)-arene compounds",

abstract = "A series of ruthenium(II)-arene (RAPTA) compounds were evaluated for their ability to inhibit thioredoxin reductase (either cytosolic or mitochondrial) and cathepsin B, two possible targets for anticancer metallodrugs. In general, inhibition of the thioredoxin reductases was lower than that of cathepsin B, although selected compounds were excellent inhibitors of both classes of enzymes in comparison to other metal-based drugs. Some initial structure-activity relationships could be established. On the basis of the obtained data, different mechanisms of binding/inhibition appear to be operative; remarkably the selectivity of the ruthenium compounds toward solid metastatic tumors also correlates to the observed trends. Notably, docking studies of the interactions of representative RAPTA compounds with cathepsin B were performed that provided realistic structures for the resulting protein-metallodrug adducts. Good agreement was generally found between the inhibiting potency of the RAPTA compounds and the computed stability of the corresponding cat B/RAPTA adducts.",

author = "Angela Casini and Chiara Gabbiani and Francesca Sorrentino and Rigobello, \{Maria Pia\} and Alberto Bindoli and Geldbach, \{Tilmann J.\} and Alessandro Marrone and Nazzareno Re and Hartinger, \{Christian G.\} and Dyson, \{Paul J.\} and Luigi Messori",

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doi = "10.1021/jm8006678",

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Casini, A, Gabbiani, C, Sorrentino, F, Rigobello, MP, Bindoli, A, Geldbach, TJ, Marrone, A, Re, N, Hartinger, CG, Dyson, PJ & Messori, L 2008, 'Emerging protein targets for anticancer metallodrugs: Inhibition of thioredoxin reductase and cathepsin B by antitumor ruthenium(II)-arene compounds', Journal of Medicinal Chemistry, vol. 51, no. 21, pp. 6773-6781. https://doi.org/10.1021/jm8006678

TY - JOUR

T1 - Emerging protein targets for anticancer metallodrugs

T2 - Inhibition of thioredoxin reductase and cathepsin B by antitumor ruthenium(II)-arene compounds

AU - Casini, Angela

AU - Gabbiani, Chiara

AU - Sorrentino, Francesca

AU - Rigobello, Maria Pia

AU - Bindoli, Alberto

AU - Geldbach, Tilmann J.

AU - Marrone, Alessandro

AU - Re, Nazzareno

AU - Hartinger, Christian G.

AU - Dyson, Paul J.

AU - Messori, Luigi

PY - 2008/11/13

Y1 - 2008/11/13

N2 - A series of ruthenium(II)-arene (RAPTA) compounds were evaluated for their ability to inhibit thioredoxin reductase (either cytosolic or mitochondrial) and cathepsin B, two possible targets for anticancer metallodrugs. In general, inhibition of the thioredoxin reductases was lower than that of cathepsin B, although selected compounds were excellent inhibitors of both classes of enzymes in comparison to other metal-based drugs. Some initial structure-activity relationships could be established. On the basis of the obtained data, different mechanisms of binding/inhibition appear to be operative; remarkably the selectivity of the ruthenium compounds toward solid metastatic tumors also correlates to the observed trends. Notably, docking studies of the interactions of representative RAPTA compounds with cathepsin B were performed that provided realistic structures for the resulting protein-metallodrug adducts. Good agreement was generally found between the inhibiting potency of the RAPTA compounds and the computed stability of the corresponding cat B/RAPTA adducts.

AB - A series of ruthenium(II)-arene (RAPTA) compounds were evaluated for their ability to inhibit thioredoxin reductase (either cytosolic or mitochondrial) and cathepsin B, two possible targets for anticancer metallodrugs. In general, inhibition of the thioredoxin reductases was lower than that of cathepsin B, although selected compounds were excellent inhibitors of both classes of enzymes in comparison to other metal-based drugs. Some initial structure-activity relationships could be established. On the basis of the obtained data, different mechanisms of binding/inhibition appear to be operative; remarkably the selectivity of the ruthenium compounds toward solid metastatic tumors also correlates to the observed trends. Notably, docking studies of the interactions of representative RAPTA compounds with cathepsin B were performed that provided realistic structures for the resulting protein-metallodrug adducts. Good agreement was generally found between the inhibiting potency of the RAPTA compounds and the computed stability of the corresponding cat B/RAPTA adducts.

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Emerging protein targets for anticancer metallodrugs: Inhibition of thioredoxin reductase and cathepsin B by antitumor ruthenium(II)-arene compounds

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