Gold(III) to Ruthenium(III) Metal Exchange in Dithiocarbamato Complexes Tunes Their Biological Mode of Action for Cytotoxicity in Cancer Cells

Gold(III) to Ruthenium(III) Metal Exchange in Dithiocarbamato Complexes Tunes Their Biological Mode of Action for Cytotoxicity in Cancer Cells

Malignant tumors have affected the human being since the pharaoh period, but in the last century the incidence of this disease has increased due to a large number of risk factors, including deleterious lifestyle habits (i.e., smoking) and the higher longevity. Many efforts have been spent in the las...

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Main Authors: Maria Dalla Pozza, Christophe Orvain, Leonardo Brustolin, Nicolò Pettenuzzo, Chiara Nardon, Christian Gaiddon, Dolores Fregona
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Molecules
Subjects:
gastric cancer
metal complexes
chemotherapy
dithiocarbamates
drug mechanism of action
ER stress
Online Access:https://www.mdpi.com/1420-3049/26/13/4073
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spelling doaj-939376302eae4ffbb2670cac01a8bc132021-07-15T15:43:00ZengMDPI AGMolecules1420-30492021-07-01264073407310.3390/molecules26134073Gold(III) to Ruthenium(III) Metal Exchange in Dithiocarbamato Complexes Tunes Their Biological Mode of Action for Cytotoxicity in Cancer CellsMaria Dalla Pozza0Christophe Orvain1Leonardo Brustolin2Nicolò Pettenuzzo3Chiara Nardon4Christian Gaiddon5Dolores Fregona6Department of Chemical Sciences, University of Padova, Via F. Marzolo 1, 35131 Padova, ItalyInterface Recherche Fondamentale en Cancérologie, Université de Strasbourg, Inserm UMR_S 1113, 3 av. Molière, 67200 Strasbourg, FranceDepartment of Chemical Sciences, University of Padova, Via F. Marzolo 1, 35131 Padova, ItalyDepartment of Chemical Sciences, University of Padova, Via F. Marzolo 1, 35131 Padova, ItalyDepartment of Chemical Sciences, University of Padova, Via F. Marzolo 1, 35131 Padova, ItalyInterface Recherche Fondamentale en Cancérologie, Université de Strasbourg, Inserm UMR_S 1113, 3 av. Molière, 67200 Strasbourg, FranceDepartment of Chemical Sciences, University of Padova, Via F. Marzolo 1, 35131 Padova, ItalyMalignant tumors have affected the human being since the pharaoh period, but in the last century the incidence of this disease has increased due to a large number of risk factors, including deleterious lifestyle habits (i.e., smoking) and the higher longevity. Many efforts have been spent in the last decades on achieving an early stage diagnosis of cancer, and more effective cures, leading to a decline in age-standardized cancer mortality rates. In the last years, our research groups have developed new metal-based complexes, with the aim to obtain a better selectivity for cancer cells and less side effects than the clinically established reference drug cisplatin. This work is focused on four novel Au(III) and Ru(III) complexes that share the piperidine dithiocarbamato (pipe-DTC) as the ligand, in a different molar ratio. The compounds [AuCl<sub>2</sub>(pipeDTC)], [Au(pipeDTC)<sub>2</sub>]Cl, [Ru(pipeDTC)<sub>3</sub>] and β-[Ru<sub>2</sub>(pipeDTC)<sub>5</sub>] have been synthesized and fully characterized by several chemical analyses. We have then investigated their biological properties in two different cell lines, namely, AGS (gastric adenocarcinoma) and HCT116 (colon carcinomas), showing significant differences among the four compounds. First, the two gold-based compounds and β-[Ru<sub>2</sub>(pipeDTC)<sub>5</sub>] display IC<sub>50</sub> in the µM range, significantly lower than cisplatin. Second, we showed that [AuCl<sub>2</sub>(pipeDTC)] and β-[Ru<sub>2</sub>(pipeDTC)<sub>5</sub>]Cl drive different molecular mechanisms. The first was able to induce the protein level of the DNA damage response factor p53 and the autophagy protein p62, in contrast to the second that induced the ATF4 protein level, but repressed p62 expression. This study highlights that the biological activity of different complexes bringing the same organic ligand depends on the electronic and structural properties of the metal, which are able to fine tune the biological properties, giving us precious information that can help to design more selective anticancer drugs.https://www.mdpi.com/1420-3049/26/13/4073gastric cancermetal complexeschemotherapydithiocarbamatesdrug mechanism of actionER stress
collection DOAJ
language English
format Article
sources DOAJ
author Maria Dalla Pozza
Christophe Orvain
Leonardo Brustolin
Nicolò Pettenuzzo
Chiara Nardon
Christian Gaiddon
Dolores Fregona
spellingShingle Maria Dalla Pozza
Christophe Orvain
Leonardo Brustolin
Nicolò Pettenuzzo
Chiara Nardon
Christian Gaiddon
Dolores Fregona
Gold(III) to Ruthenium(III) Metal Exchange in Dithiocarbamato Complexes Tunes Their Biological Mode of Action for Cytotoxicity in Cancer Cells
Molecules
gastric cancer
metal complexes
chemotherapy
dithiocarbamates
drug mechanism of action
ER stress
author_facet Maria Dalla Pozza
Christophe Orvain
Leonardo Brustolin
Nicolò Pettenuzzo
Chiara Nardon
Christian Gaiddon
Dolores Fregona
author_sort Maria Dalla Pozza
title Gold(III) to Ruthenium(III) Metal Exchange in Dithiocarbamato Complexes Tunes Their Biological Mode of Action for Cytotoxicity in Cancer Cells
title_short Gold(III) to Ruthenium(III) Metal Exchange in Dithiocarbamato Complexes Tunes Their Biological Mode of Action for Cytotoxicity in Cancer Cells
title_full Gold(III) to Ruthenium(III) Metal Exchange in Dithiocarbamato Complexes Tunes Their Biological Mode of Action for Cytotoxicity in Cancer Cells
title_fullStr Gold(III) to Ruthenium(III) Metal Exchange in Dithiocarbamato Complexes Tunes Their Biological Mode of Action for Cytotoxicity in Cancer Cells
title_full_unstemmed Gold(III) to Ruthenium(III) Metal Exchange in Dithiocarbamato Complexes Tunes Their Biological Mode of Action for Cytotoxicity in Cancer Cells
title_sort gold(iii) to ruthenium(iii) metal exchange in dithiocarbamato complexes tunes their biological mode of action for cytotoxicity in cancer cells
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2021-07-01
description Malignant tumors have affected the human being since the pharaoh period, but in the last century the incidence of this disease has increased due to a large number of risk factors, including deleterious lifestyle habits (i.e., smoking) and the higher longevity. Many efforts have been spent in the last decades on achieving an early stage diagnosis of cancer, and more effective cures, leading to a decline in age-standardized cancer mortality rates. In the last years, our research groups have developed new metal-based complexes, with the aim to obtain a better selectivity for cancer cells and less side effects than the clinically established reference drug cisplatin. This work is focused on four novel Au(III) and Ru(III) complexes that share the piperidine dithiocarbamato (pipe-DTC) as the ligand, in a different molar ratio. The compounds [AuCl<sub>2</sub>(pipeDTC)], [Au(pipeDTC)<sub>2</sub>]Cl, [Ru(pipeDTC)<sub>3</sub>] and β-[Ru<sub>2</sub>(pipeDTC)<sub>5</sub>] have been synthesized and fully characterized by several chemical analyses. We have then investigated their biological properties in two different cell lines, namely, AGS (gastric adenocarcinoma) and HCT116 (colon carcinomas), showing significant differences among the four compounds. First, the two gold-based compounds and β-[Ru<sub>2</sub>(pipeDTC)<sub>5</sub>] display IC<sub>50</sub> in the µM range, significantly lower than cisplatin. Second, we showed that [AuCl<sub>2</sub>(pipeDTC)] and β-[Ru<sub>2</sub>(pipeDTC)<sub>5</sub>]Cl drive different molecular mechanisms. The first was able to induce the protein level of the DNA damage response factor p53 and the autophagy protein p62, in contrast to the second that induced the ATF4 protein level, but repressed p62 expression. This study highlights that the biological activity of different complexes bringing the same organic ligand depends on the electronic and structural properties of the metal, which are able to fine tune the biological properties, giving us precious information that can help to design more selective anticancer drugs.
topic gastric cancer
metal complexes
chemotherapy
dithiocarbamates
drug mechanism of action
ER stress
url https://www.mdpi.com/1420-3049/26/13/4073
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