Your search keyword '"metal-based drugs"' showing total 366 results

1. Applications of Biodegradable Polymers in the Encapsulation of Anticancer Metal Complexes.

Author

Redrado, Marta, Xiao, Zhimei, Upitak, Kanokon, Doan, Bich‐Thuy, Thomas, Christophe M., and Gasser, Gilles

Subjects

*CONTROLLED release drugs, *INORGANIC chemistry, *METAL complexes, *PHARMACEUTICAL chemistry, *ANTIBACTERIAL agents

Abstract

Metal complexes have recently attracted a lot of attention, particularly as anticancer and antibacterial agents, owing to their versatile mechanisms and easily tunable characteristics. However, the application of such compounds in a medical context, especially in cancer treatment, has been hampered due to their limited solubility and stability in water and aqueous solutions, as well as a lack of selectivity. To address these limitations, several approaches have been developed to improve the targeted delivery of these compounds and their solubility. The first strategy involves the physical encapsulation of these metal complexes within carriers to facilitate controlled drug release. The second strategy involves covalently linking metal complexes to polymers, creating prodrugs that can be converted to active drugs at a more controllable rate. Despite the increasing variety of polymers available, the need to develop those able to be metabolized by the body, producing non‐toxic residues, remains crucial for effective treatment, particularly in the area of diseases such as cancer. In this perspective article, an overview of recent developments in the encapsulation of metal complexes using biodegradable polymers for cancer therapy is provided. It is specifically highlighting how the formed nanoparticles (NPs) enhance the selectivity and toxicity toward cancer cells compared to the parent metal complex, while simultaneously reducing the harmful side effects of traditional chemotherapies, opening the door for using them in combination therapies (PDT, PTT). [ABSTRACT FROM AUTHOR]

Published

2024

2. Cu(bta)(1,10-phen)ClO4 copper complex modulates the carcinogenicity of carboplatin in somatic cells of Drosophila melanogaster

Author

Paula Marynella Alves Pereira Lima, Priscila Capelari Orsonlin, Nayane Moreira Machado, Rosiane Gomes Silva Oliveira, Lorena Polloni, Raquel Pereira Cruz, Janaína do Couto Almeida, Robson José de Oliveira Júnior, Wendell Guerra, and Thaise Gonçalves Araújo

Subjects

Cancer, chemotherapy, copper complexes, Drosophila melanogaster, metal-based drugs, Genetics, QH426-470

Abstract

Abstract Chemotherapy stands out as the main systemic treatment strategy against cancer and still faces problems related to multidrug resistance and severe side effects. Copper-based drugs have been widely explored in medicinal chemistry, since copper is an essential metal for physiological activities with antineoplastic effects. In this context, the present study aimed to evaluate the recombinogenic/mutagenic and anticarcinogenic potential of the complex CBP-01 - [Cu(bta)(1,10-phen)ClO4] (Hbta = 4,4,4-trifluoro-1-phenyl-1,3-butanedione and 1,10-phen =1,10-phenanthroline) - through the Somatic and Recombination test (SMART) and the Epithelial Tumor Test (ETT) in Drosophila melanogaster, compared with carboplatin (CARB) and cisplatin (CIS) effects. According to our results, CARB and CIS induced a high frequency of mutant spots, which was not verified at higher concentrations of CBP-01. In addition, CBP-01 exhibited mutagenic/recombinogenic potential only at the lowest concentration and after biometabolization. Subsequently, in the ETT test, CBP-01 did not demonstrate carcinogenic effect. Lastly, epithelial tumors were identified in flies treated with CARB and CIS, which were modulated by the CBP-01 complex. Therefore, CBP-01 modulates genotoxicity of other compounds and is a promising metal-based drug for the development of a new anticancer agent or for optimization of therapeutic regimens.

Published

2024

3. New metal-based drugs: spectral, electrochemical, DNA-binding and anticancer activity properties.

Author

Çeşme, Mustafa, Muslu, Harun, Tumer, Mehmet, Güngör, Özge, Altunbek, Mine, Culha, Mustafa, and Golcu, Aysegul

Subjects

*ANTINEOPLASTIC agents, *COORDINATION compounds, *COPPER, *CISPLATIN, *FLUORESCENCE spectroscopy

Abstract

The coordination compounds of antineoplastic chemotherapy drug of dacarbazine (DAC) with Zn(II) ([Zn(DAC)2] 3H2O; NGDCM1) and Cu(II) ([Cu(DAC)ClH2O]; NGDCM2) were synthesized and characterized using analytical and spectroscopic techniques. The electrochemical behaviors of the obtained new compounds and the starting active substance DAC were examined in detail. The interaction of all compounds with fish sperm double-stranded deoxyribonucleic acid (FSdsDNA) was investigated by measuring their binding constant (Kb) to FSdsDNA. Also, the competitive binding fluorescence spectroscopy studies with ethidium bromide (EtBr) were carried out. Furthermore, both compound's anticancer activities were investigated on human lung cancer (A549) cells, and their effects were compared to other metals possessing antineoplastic drugs, including oxaliplatin and cisplatin. [ABSTRACT FROM AUTHOR]

Published

2024

4. A computational insight on the aromatic amino acids conjugation with [Cp*Rh(H2O)3]2+ by using the meta-dynamics/FMO3 approach.

Author

Paciotti, Roberto and Marrone, Alessandro

Subjects

*AMINO acids, *CHEMICAL properties, *LIGAND exchange reactions, *SMALL molecules, *TRYPTOPHAN, *CHEMOSELECTIVITY, *PROTEIN-protein interactions, *DNA adducts, *ANTI-infective agents

Abstract

Context: Rh(III) complexes demonstrated to exert promising pharmacological effects with potential applications as anti-cancer, anti-bacterial, and antimicrobial agents. One important Rh(III)-ligand is the pentamethylcyclopentadienyl (Cp*) group forming in water the [Cp*Rh(H2O)3]2+ complex. Among of its attractive chemical properties is the ability to react specifically with Tyr amino acid side chain of G-protein–coupled receptor (GPCR) peptides by means of highly chemoselective bioconjugation reaction, at room temperature and at pH 5–6. In this computational work, in order to deepen the mechanism of this chemoselective conjugation, we study the ligand exchange reaction between [Cp*Rh(H2O)3]2+ and three small molecules, namely p-cresol, 3-methylimidazole, and toluene, selected as mimetic of aromatic side chains of tyrosine (Tyr), tryptophan (Trp) and phenylalanine (Phe), respectively. Our outcomes suggest that the high selectivity for Tyr side chain might be related to OH group able to affect both thermodynamic and kinetic of ligand exchange reaction, due to its ability to act as both H bond acceptor and donor. These mechanistic aspects can be used to design new metal drugs containing the [Cp*Rh]2+ scaffold targeting specifically Tyr residues involved in biological/pathological processes such as phosphorylation by means of Tyr-kinase enzyme and protein–protein interactions. Methods: The geometry of three encounter complexes and product adducts were optimized at the B3LYP//CPCM/ωB97X-D level of theory, adopting the 6-311+G(d,p) basis set for all non-metal atoms and the LANL2DZ pseudopotential for the Rh atom. Meta-dynamics RMSD (MTD(RMSD)) calculations at GFN2-xTB level of theory were performed in NVT conditions at 298.15 K to investigate the bioconjugation reactions (simulation time: 100 ps; integration step 2.0; implicit solvent model: GBSA). The MTD(RMSD) simulation was performed in two replicates for each encounter complex. Final representative subsets of 100 structures for each run were gained with a sampling rate of 1 ps and analyzed by performing single point calculations using the FMO3 method at RI-MP2/6-311G//PCM[1] level of theory, adopting the MCP-TZP core potential for Rh atom. [ABSTRACT FROM AUTHOR]

Published

2024

5. Improving the accuracy of the FMO binding affinity prediction of ligand-receptor complexes containing metals.

Author

Paciotti, R., Marrone, A., Coletti, C., and Re, N.

Subjects

*RECEPTOR-ligand complexes, *BINDING energy, *METAL complexes, *BIOLOGICAL systems, *ELECTRON configuration, *ELECTRIC potential, *SOLVATION, *CHARGE transfer

Abstract

Polarization and charge transfer strongly characterize the ligand-receptor interaction when metal atoms are present, as for the Au(I)-biscarbene/DNA G-quadruplex complexes. In a previous work (J Comput Aided Mol Des2022, 36, 851–866) we used the ab initio FMO2 method at the RI-MP2/6-31G* level of theory with the PCM [1] solvation approach to calculate the binding energy (ΔEFMO) of two Au(I)-biscarbene derivatives, [Au(9-methylcaffein-8-ylidene)2]+ and [Au(1,3-dimethylbenzimidazole-2-ylidene)2]+, able to interact with DNA G-quadruplex motif. We found that ΔEFMO and ligand-receptor pair interaction energies (EINT) show very large negative values making the direct comparison with experimental data difficult and related this issue to the overestimation of the embedded charge transfer energy between fragments containing metal atoms. In this work, to improve the accuracy of the FMO method for predicting the binding affinity of metal-based ligands interacting with DNA G-quadruplex (Gq), we assess the effect of the following computational features: (i) the electron correlation, considering the Hartree–Fock (HF) and a post-HF method, namely RI-MP2; (ii) the two (FMO2) and three-body (FMO3) approaches; (iii) the basis set size (polarization functions and double-ζ vs. triple-ζ) and (iv) the embedding electrostatic potential (ESP). Moreover, the partial screening method was systematically adopted to simulate the solvent screening effect for each calculation. We found that the use of the ESP computed using the screened point charges for all atoms (ESP-SPTC) has a critical impact on the accuracy of both ΔEFMO and EINT, eliminating the overestimation of charge transfer energy and leading to energy values with magnitude comparable with typical experimental binding energies. With this computational approach, EINT values describe the binding efficiency of metal-based binders to DNA Gq more accurately than ΔEFMO. Therefore, to study the binding process of metal containing systems with the FMO method, the adoption of partial screening solvent method combined with ESP-SPCT should be considered. This computational protocol is suggested for FMO calculations on biological systems containing metals, especially when the adoption of the default ESP treatment leads to questionable results. [ABSTRACT FROM AUTHOR]

Published

2023

6. The Amoebicidal Activity of Diferrocenyl Derivatives: A Significant Dependence on the Electronic Environment.

Author

Toledano-Magaña, Yanis, Néquiz, Mario, Valenzuela-Salas, Lucía Margarita, Sánchez-García, Jessica J., Galindo-Murillo, Rodrigo, García-Ramos, Juan Carlos, and Klimova, Elena I.

Subjects

*REDUCTION potential, *PARASITIC diseases, *ENTAMOEBA histolytica, *AMEBIASIS, *LOW-income countries

Abstract

Amoebiasis is the second leading cause of death worldwide associated with parasitic disease and is becoming a critical health problem in low-income countries, urging new treatment alternatives. One of the most promising strategies is enhancing the redox imbalance within these susceptible parasites related to their limited antioxidant defense system. Metal-based drugs represent a perfect option due to their extraordinary capacity to stabilize different oxidation states and adopt diverse geometries, allowing their interaction with several molecular targets. This work describes the amoebicidal activity of five 2-(Z-2,3-diferrocenylvinyl)-4X-4,5-dihydrooxazole derivatives (X = H (3a), Me (3b), iPr (3c), Ph (3d), and benzyl (3e)) on Entamoeba histolytica trophozoites and the physicochemical, experimental, and theoretical properties that can be used to describe the antiproliferative activity. The growth inhibition capacity of these organometallic compounds is strongly related to a fine balance between the compounds' redox potential and hydrophilic character. The antiproliferative activity of diferrocenyl derivatives studied herein could be described either with the redox potential, the energy of electronic transitions, logP, or the calculated HOMO–LUMO values. Compound 3d presents the highest antiproliferative activity of the series with an IC50 of 23 µM. However, the results of this work provide a pipeline to improve the amoebicidal activity of these compounds through the directed modification of their electronic environment. [ABSTRACT FROM AUTHOR]

Published

2023

7. The Lung Microbiome in COPD and Lung Cancer: Exploring the Potential of Metal-Based Drugs.

Author

O'Shaughnessy, Megan, Sheils, Orla, and Baird, Anne-Marie

Subjects

*LUNG cancer, *LUNGS, *CHRONIC obstructive pulmonary disease, *RESPIRATORY diseases

Abstract

Chronic obstructive pulmonary disease (COPD) and lung cancer 17 are two of the most prevalent and debilitating respiratory diseases worldwide, both associated with high morbidity and mortality rates. As major global health concerns, they impose a substantial burden on patients, healthcare systems, and society at large. Despite their distinct aetiologies, lung cancer and COPD share common risk factors, clinical features, and pathological pathways, which have spurred increasing research interest in their co-occurrence. One area of particular interest is the role of the lung microbiome in the development and progression of these diseases, including the transition from COPD to lung cancer. Exploring novel therapeutic strategies, such as metal-based drugs, offers a potential avenue for targeting the microbiome in these diseases to improve patient outcomes. This review aims to provide an overview of the current understanding of the lung microbiome, with a particular emphasis on COPD and lung cancer, and to discuss the potential of metal-based drugs as a therapeutic strategy for these conditions, specifically concerning targeting the microbiome. [ABSTRACT FROM AUTHOR]

Published

2023

8. Anticancer Tungstenocenes with a Diverse Set of (O,O –), (O , S –) and (O , N –) Chelates—A Detailed Biological Study Using an Improved Evaluation via 3D Spheroid Models.

Author

Cseh, Klaudia, Berasaluce, Iker, Fuchs, Valentin, Banc, Alexandra, Schweikert, Andreas, Prado-Roller, Alexander, Hejl, Michaela, Wernitznig, Debora, Koellensperger, Gunda, Jakupec, Michael A., Kandioller, Wolfgang, Malarek, Michael S., and Keppler, Bernhard K.

Subjects

*CHELATES, *CANCER cells, *X-ray spectroscopy, *CYCLIC voltammetry, *CELL lines

Abstract

The synthesis, characterization and biological activity of tungstenocenes with varying biologically active (O,O–), (S,O–) and (N,O–) chelates are described. Complexes were characterized by 1H and 13C NMR, elemental analysis, ESI-mass spectrometry, FT-IR spectroscopy and X-ray diffraction analysis. The aqueous stability was studied by UV/Vis spectroscopy and the WIV to WV process by cyclic voltammetry. The cytotoxicity was determined by the MTT assay in A549, CH1/PA-1 and SW480 cancer cells as well as in IMR-90 human fibroblasts. Extensive biological evaluation was performed in three other human cancer cell lines (HCT116, HT29 and MCF-7) in monolayer and multicellular tumor spheroid cultures to better understand the mode of action. Lead compounds showed promising in vitro anticancer activity in all cancer cell lines. Further studies yielded important insights into apoptosis induction, ROS generation, different patterns in metal distribution (detected by LA-ICP-TOF-MS), changes in KI67 (proliferation marker) expression and DNA interactions. The results based on qualitative and quantitative research designs show that complexes containing (S,O–) chelates are more active than their (O,O–) and (N,O–) counterparts. The most striking results in spheroid models are the high antiproliferative capacity and the different distribution pattern of two complexes differing only in a W–S or W–O bond. [ABSTRACT FROM AUTHOR]

Published

2023

9. Combined Treatment of Cancer Cells Using Allyl Palladium Complexes Bearing Purine-Based NHC Ligands and Molecules Targeting MicroRNAs miR-221-3p and miR-222-3p: Synergistic Effects on Apoptosis.

Author

Tupini, Chiara, Zurlo, Matteo, Gasparello, Jessica, Lodi, Irene, Finotti, Alessia, Scattolin, Thomas, Visentin, Fabiano, Gambari, Roberto, and Lampronti, Ilaria

Subjects

*PALLADIUM compounds, *PEPTIDE nucleic acids, *CANCER cells, *CANCER treatment, *LIGANDS (Biochemistry), *COLON cancer, *MICRORNA

Abstract

Combined treatments employing lower concentrations of different drugs are used and studied to develop new and more effective anticancer therapeutic approaches. The combination therapy could be of great interest in the controlling of cancer. Regarding this, our research group has recently shown that peptide nucleic acids (PNAs) that target miR-221 are very effective and functional in inducing apoptosis of many tumor cells, including glioblastoma and colon cancer cells. Moreover, in a recent paper, we described a series of new palladium allyl complexes showing a strong antiproliferative activity on different tumor cell lines. The present study was aimed to analyze and validate the biological effects of the most active compounds tested, in combination with antagomiRNA molecules targeting two miRNAs, miR-221-3p and miR-222-3p. The obtained results show that a "combination therapy", produced by combining the antagomiRNAs targeting miR-221-3p, miR-222-3p and the palladium allyl complex 4d, is very effective in inducing apoptosis, supporting the concept that the combination treatment of cancer cells with antagomiRNAs targeting a specific upregulated oncomiRNAs (in this study miR-221-3p and miR-222-3p) and metal-based compounds represents a promising therapeutic strategy to increase the efficacy of the antitumor protocol, reducing side effects at the same time. [ABSTRACT FROM AUTHOR]

Published

2023

10. Combining Copper and Zinc into a Biosensor for Anti-Chemoresistance and Achieving Osteosarcoma Therapeutic Efficacy.

Author

Lim, Yan Yik, Zaidi, Ahmad Mujahid Ahmad, and Miskon, Azizi

Subjects

*PLATINUM, *OSTEOSARCOMA, *ZINC, *TREATMENT effectiveness, *COPPER, *DRUG delivery systems

Abstract

Due to its built-up chemoresistance after prolonged usage, the demand for replacing platinum in metal-based drugs (MBD) is rising. The first MBD approved by the FDA for cancer therapy was cisplatin in 1978. Even after nearly four and a half decades of trials, there has been no significant improvement in osteosarcoma (OS) therapy. In fact, many MBD have been developed, but the chemoresistance problem raised by platinum remains unresolved. This motivates us to elucidate the possibilities of the copper and zinc (CuZn) combination to replace platinum in MBD. Thus, the anti-chemoresistance properties of CuZn and their physiological functions for OS therapy are highlighted. Herein, we summarise their chelators, main organic solvents, and ligand functions in their structures that are involved in anti-chemoresistance properties. Through this review, it is rational to discuss their ligands' roles as biosensors in drug delivery systems. Hereafter, an in-depth understanding of their redox and photoactive function relationships is provided. The disadvantage is that the other functions of biosensors cannot be elaborated on here. As a result, this review is being developed, which is expected to intensify OS drugs with higher cure rates. Nonetheless, this advancement intends to solve the major chemoresistance obstacle towards clinical efficacy. [ABSTRACT FROM AUTHOR]

Published

2023

11. New 4,5-Diarylimidazol-2-ylidene–iodidogold(I) Complexes with High Activity against Esophageal Adenocarcinoma Cells.

Author

Schleser, Sebastian W., Ghosh, Hindole, Hörner, Gerald, Seib, Jonathan, Bhattacharyya, Sangita, Weber, Birgit, Schobert, Rainer, Dandawate, Prasad, and Biersack, Bernhard

Subjects

*ADENOCARCINOMA, *MASS spectrometry, *GOLD compounds, *NUCLEAR magnetic resonance spectroscopy, *DIMETHYL sulfide, *X-ray diffraction

Abstract

Inspired by the vascular-disrupting agent combretastatin A-4 and recently published anticancer active N-heterocyclic carbene (NHC) complexes of Au(I), a series of new iodidogold(I)–NHC complexes was synthesized and characterized. The iodidogold(I) complexes were synthesized by a route involving van Leusen imidazole formation and N-alkylation, followed by complexation with Ag2O, transmetalation with chloro(dimethylsulfide)gold(I) [Au(DMS)Cl], and anion exchange with KI. The target complexes were characterized by IR spectroscopy, 1H and 13C NMR spectroscopy, and mass spectrometry. The structure of 6c was validated via single-crystal X-ray diffraction. A preliminary anticancer screening of the complexes using two esophageal adenocarcinoma cell lines showed promising nanomolar activities for certain iodidogold(I) complexes accompanied with apoptosis induction, as well as c-Myc and cyclin D1 suppression in esophageal adenocarcinoma cells treated with the most promising derivative 6b. [ABSTRACT FROM AUTHOR]

Published

2023

12. Silver(I) 1,10-Phenanthroline Complexes Are Active against Fonsecaea pedrosoi Viability and Negatively Modulate Its Potential Virulence Attributes.

Author

Sousa, Ingrid S., Vieira, Tatiana D. P., Menna-Barreto, Rubem F. S., Guimarães, Allan J., McCarron, Pauraic, McCann, Malachy, Devereux, Michael, Santos, André L. S., and Kneipp, Lucimar F.

Subjects

*ITRACONAZOLE, *MELANINS, *SILVER, *COPPER, *REACTIVE oxygen species, *MYCOSES

Abstract

The genus Fonsecaea is one of the etiological agents of chromoblastomycosis (CBM), a chronic subcutaneous disease that is difficult to treat. This work aimed to evaluate the effects of copper(II), manganese(II) and silver(I) complexes coordinated with 1,10-phenanthroline (phen)/1,10- phenanthroline-5,6-dione (phendione) on Fonsecaea spp. Our results revealed that most of these complexes were able to inhibit F. pedrosoi, F. monophora and F. nubica conidial viability with minimum inhibitory concentration (MIC) values ranging from 0.6 to 100 µM. The most effective complexes against F. pedrosoi planktonic conidial cells, the main etiologic agent of CBM, were [Ag(phen)2]ClO4 and [Ag2(3,6,9-tdda)(phen)4].EtOH, (tdda: 3,6,9-trioxaundecanedioate), displaying MIC values equal to 1.2 and 0.6 µM, respectively. These complexes were effective in reducing the viability of F. pedrosoi biofilm formation and maturation. Silver(I)-tdda-phen, combined with itraconazole, reduced the viability and extracellular matrix during F. pedrosoi biofilm development. Moreover, both silver(I) complexes inhibited either metallo- or aspartic-type peptidase activities of F. pedrosoi as well as its conidia into mycelia transformation and melanin production. In addition, the complexes induced the production of intracellular reactive oxygen species in F. pedrosoi. Taken together, our data corroborate the antifungal action of metal-phen complexes, showing they represent a therapeutic option for fungal infections, including CBM. [ABSTRACT FROM AUTHOR]

Published

2023

13. Chemical Modification of Auranofin Yields a New Family of Anticancer Drug Candidates: The Gold(I) Phosphite Analogues.

Author

Cirri, Damiano, Geri, Andrea, Massai, Lara, Mannelli, Michele, Gamberi, Tania, Magherini, Francesca, Becatti, Matteo, Gabbiani, Chiara, Pratesi, Alessandro, and Messori, Luigi

Subjects

*AURANOFIN, *ANTINEOPLASTIC agents, *GOLD compounds, *GOLD, *PROTEIN models

Abstract

A panel of four novel gold(I) complexes, inspired by the clinically established gold drug auranofin (1-Thio-β-D-glucopyranosatotriethylphosphine gold-2,3,4,6-tetraacetate), was prepared and characterized. All these compounds feature the replacement of the triethylphosphine ligand of the parent compound auranofin with a trimethylphosphite ligand. The linear coordination around the gold(I) center is completed by Cl−, Br−, I− or by the thioglucose tetraacetate ligand (SAtg). The in-solution behavior of these gold compounds as well as their interactions with some representative model proteins were comparatively analyzed through 31PNMR and ESI-MS measurements. Notably, all panel compounds turned out to be stable in aqueous media, but significant differences with respect to auranofin were disclosed in their interactions with a few leading proteins. In addition, the cytotoxic effects produced by the panel compounds toward A2780, A2780R and SKOV-3 ovarian cancer cells were quantitated and found to be in the low micromolar range, since the IC50 of all compounds was found to be between 1 μM and 10 μM. Notably, these novel gold complexes showed large and similar inhibition capabilities towards the key enzyme thioredoxin reductase, again comparable to those of auranofin. The implications of these results for the discovery of new and effective gold-based anticancer agents are discussed. [ABSTRACT FROM AUTHOR]

Published

2023

14. Synthesis, Characterization and Photoactivation Studies on the Novel Pt(IV)-Based [Pt(OCOCH 3) 3 (phterpy)] Complex.

Author

Canil, Giovanni, Gurruchaga-Pereda, Juan, Braccini, Simona, Marchetti, Lorella, Funaioli, Tiziana, Marchetti, Fabio, Pratesi, Alessandro, Salassa, Luca, and Gabbiani, Chiara

Subjects

*PLATINUM, *PHOTOACTIVATION, *VISIBLE spectra, *MASS spectrometry, *DRUG target, *SERUM albumin, *NAD (Coenzyme)

Abstract

Photoactivatable Pt(IV) prodrugs represent nowadays an intriguing class of potential metal-based drugs, endowed with more chemical inertness in their oxidized form and better selectivity for the target with respect to the clinically established Pt(II) compounds. In fact, they have the possibility to be reduced by light irradiation directly at the site of interest. For this reason, we synthesized a new Pt(IV) complex, [Pt(OCOCH3)3(4′-phenyl-2,2′:6′,2′′-terpyridine)][CF3SO3] (1), that is well soluble in aqueous medium and totally unreactive towards selected model biomolecules until its reduction. The highlight of this work is the rapid and efficient photoreduction of 1 with visible light (460 nm), which leads to its reactive Pt(II) analogue. This behavior was made possible by taking advantage of an efficient catalytic system based on flavin and NADH, which is naturally present in the cellular environment. As a comparison, the reduction of 1 was also studied with simple UV irradiation, but both UV-Vis spectrophotometry and 1H-NMR spectrometry showed that the flavin-catalyzed reduction with visible light was faster. Lastly, the reactivity against two representative biological targets, i.e., human serum albumin and one monofilament oligonucleotide fragment, was evaluated by high-resolution mass spectrometry. The results clearly pointed out that the prodrug 1 did not interact with these targets until its photoreduction to the Pt(II) analogue. [ABSTRACT FROM AUTHOR]

Published

2023

15. Highlights of New Strategies to Increase the Efficacy of Transition Metal Complexes for Cancer Treatments.

Author

Giorgi, Ester, Binacchi, Francesca, Marotta, Carlo, Cirri, Damiano, Gabbiani, Chiara, and Pratesi, Alessandro

Subjects

*TRANSITION metal complexes, *HETEROBIMETALLIC complexes, *CANCER treatment, *PLATINUM group, *ORGANELLES, *TRANSITION metal oxides

Abstract

Although important progress has been made, cancer still remains a complex disease to treat. Serious side effects, the insurgence of resistance and poor selectivity are some of the problems associated with the classical metal-based anti-cancer therapies currently in clinical use. New treatment approaches are still needed to increase cancer patient survival without cancer recurrence. Herein, we reviewed two promising—at least in our opinion—new strategies to increase the efficacy of transition metal-based complexes. First, we considered the possibility of assembling two biologically active fragments containing different metal centres into the same molecule, thus obtaining a heterobimetallic complex. A critical comparison with the monometallic counterparts was done. The reviewed literature has been divided into two groups: the case of platinum; the case of gold. Secondly, the conjugation of metal-based complexes to a targeting moiety was discussed. Particularly, we highlighted some interesting examples of compounds targeting cancer cell organelles according to a third-order targeting approach, and complexes targeting the whole cancer cell, according to a second-order targeting strategy. [ABSTRACT FROM AUTHOR]

Published

2023

16. Antiparasitic activities of bimetallic N‐heterocyclic carbene gold(I) complexes with ferrocene ligands: Relevance of chlorido and phosphino ligands.

Author

Al Nasr, Ibrahim S., Weise, Markus, Koko, Waleed S., Khan, Tariq A., Schobert, Rainer, and Biersack, Bernhard

Subjects

*LIGANDS (Chemistry), *FERROCENE, *GOLD, *LEISHMANIA major, *TOXOPLASMA gondii, *AMASTIGOTES

Abstract

Gold(I) complexes carrying imidazole‐2‐ylidene ligands and ferrocene substituents were prepared. Their activities against protozoal Leishmania major and Toxoplasma gondii parasites were analyzed. Certain gold(I) complexes with chlorido and 1,1′‐bis(triphenylphosphino)ferrocene ligands revealed promising antiparasitic effects. The new chlorido complexes 5b and 5c showed high activities against T. gondii tachyzoites and L. major promastigotes while the new ferrocene‐bridged bis‐gold(I) complexes 8a and 8b were particularly active against L. major amastigotes and considerably selective as to toxicity results from Vero cells and macrophages. [ABSTRACT FROM AUTHOR]

Published

2023

17. The FMO2 analysis of the ligand-receptor binding energy: the Biscarbene-Gold(I)/DNA G-Quadruplex case study.

Author

Paciotti, Roberto, Coletti, Cecilia, Marrone, Alessandro, and Re, Nazzareno

Subjects

*BINDING energy, *DNA structure, *RECEPTOR-ligand complexes, *MOLECULAR orbitals, *AB-initio calculations

Abstract

In this work, the ab initio fragment molecular orbital (FMO) method was applied to calculate and analyze the binding energy of two biscarbene-Au(I) derivatives, [Au(9-methylcaffein-8-ylidene)2]+ and [Au(1,3-dimethylbenzimidazol-2-ylidene)2]+, to the DNA G-Quadruplex structure. The FMO2 binding energy considers the ligand-receptor complex as well as the isolated forms of energy-minimum state of ligand and receptor, providing a better description of ligand-receptor affinity compared with simple pair interaction energies (PIE). Our results highlight important features of the binding process of biscarbene-Au(I) derivatives to DNA G-Quadruplex, indicating that the total deformation-polarization energy and desolvation penalty of the ligands are the main terms destabilizing the binding. The pair interaction energy decomposition analysis (PIEDA) between ligand and nucleobases suggest that the main interaction terms are electrostatic and charge-transfer energies supporting the hypothesis that Au(I) ion can be involved in π-cation interactions further stabilizing the ligand-receptor complex. Moreover, the presence of polar groups on the carbene ring, as C = O, can improve the charge-transfer interaction with K+ ion. These findings can be employed to design new powerful biscarbene-Au(I) DNA-G quadruplex binders as promising anticancer drugs. The procedure described in this work can be applied to investigate any ligand-receptor system and is particularly useful when the binding process is strongly characterized by polarization, charge-transfer and dispersion interactions, properly evaluated by ab initio methods. [ABSTRACT FROM AUTHOR]

Published

2022

18. Synthesis and anti-tumor activities of three newly designed organotin(IV) carboxylates complexes.

Author

He, Jing, Wang, Yuqing, Su, Chang, Hu, Yuqing, Hu, Weihua, Hu, Lei, and Wang, Hui

Subjects

*ANTINEOPLASTIC agents, *CYTOTOXINS, *REACTIVE oxygen species, *MEMBRANE potential, *MITOCHONDRIAL membranes, *CARBOXYLATE derivatives, *CARBOXYLATES

Abstract

Three distinctive end group-containing organotin (IV) carboxylates complexes (YDCOOSn , CLCOOSn and BZCOOSn) were designed and synthesized. Together with theoretical calculations, a thorough examination was carried out to investigate the photophysical properties of these compounds. The cytotoxicity of the synthesized compounds was tested using normal cell line GES-1 and was assessed against four cancer cell lines (A549, Hela, H1299 and HepG2). The outcomes of the experiments demonstrated that these complexes had superior selectivity than cisplatin towards cancerous cells, particularly in the A549 cell line. BZCOOSn was selected as a candidate compound for additional research because it exhibited the lowest IC 50 value and the most impressive inducing effect on cell death and G2/M phase arrest. Increased caspase-3 and -9 enzyme activity, a decline in mitochondrial membrane potential (MMP), characteristic nuclear apoptotic morphology, and an accumulation of intracellular reactive oxygen species (ROS) were seen in A549 exposed to BZCOOSn. These findings demonstrated that BZCOOSn exhibited strong cytotoxicity by triggering cell death in A549 via the mitochondrial route. Furthermore, using the scratch wound healing assay, it was discovered that BZCOOSn reduced the migration of A549 cancerous cells. These data all pointed to BZCOOSn as a possible candidate for more research and development as a chemotherapeutic drug. A549 exposed to BZCOOSn displayed a decrease in mitochondrial membrane potential, a characteristic nuclear apoptotic morphology, an increase in intracellular reactive oxygen species and enhanced activation of the caspase-3 and -9. These results demonstrated that BZCOOSn exhibited strong cytotoxicity by triggering mitochondrial-mediated cell apoptosis in A549. [Display omitted] • Three novel organotin carboxylates complexes were synthesized and fully characterized. • BZCOOSn was chosen as the greatest remarkable candidate. • BZCOOSn triggered apoptosis in A549 cells through the mitochondrial route. • BZCOOSn also prevented A549 cells from migrating. [ABSTRACT FROM AUTHOR]

Published

2024

19. Pincer Complexes Derived from Tridentate Schiff Bases for Their Use as Antimicrobial Metallopharmaceuticals.

Author

Aragón-Muriel, Alberto, Reyes-Márquez, Viviana, Cañavera-Buelvas, Farrah, Parra-Unda, Jesús R., Cuenú-Cabezas, Fernando, Polo-Cerón, Dorian, Colorado-Peralta, Raúl, Suárez-Moreno, Galdina V., Aguilar-Castillo, Bethsy Adriana, and Morales-Morales, David

Subjects

*SCHIFF bases, *CONDENSATION reactions, *BIOACTIVE compounds, *LIGANDS (Chemistry), *PHARMACEUTICAL chemistry, *METAL complexes, *ANTI-infective agents

Abstract

Within the current challenges in medicinal chemistry, the development of new and better therapeutic agents effective against infectious diseases produced by bacteria, fungi, viruses, and parasites stands out. With chemotherapy as one of the main strategies against these diseases focusing on the administration of organic and inorganic drugs, the latter is generally based on the synergistic effect produced by the formation of metal complexes with biologically active organic compounds. In this sense, Schiff bases (SBs) represent and ideal ligand scaffold since they have demonstrated a broad spectrum of antitumor, antiviral, antimicrobial, and anti-inflammatory activities, among others. In addition, SBs are synthesized in an easy manner from one-step condensation reactions, being thus suitable for facile structural modifications, having the imine group as a coordination point found in most of their metal complexes, and promoting chelation when other donor atoms are three, four, or five bonds apart. However, despite the wide variety of metal complexes found in the literature using this type of ligands, only a handful of them include on their structures tridentate SBs ligands and their biological evaluation has been explored. Hence, this review summarizes the most important antimicrobial activity results reported this far for pincer-type complexes (main group and d-block) derived from SBs tridentate ligands. [ABSTRACT FROM AUTHOR]

Published

2022

20. A computational insight on the aromatic amino acids conjugation with [Cp*Rh(H2O)3]2+ by using the meta-dynamics/FMO3 approach

Author

Paciotti, Roberto and Marrone, Alessandro

Published

2024

21. A Dual Action Platinum(IV) Complex with Self-assembly Property Inhibits Prostate Cancer through Mitochondrial Stress Pathway.

Author

Nafees M, Hanif M, Muhammad Asif Khan R, Faiz F, and Yang P

Abstract

Platinum(IV) prodrugs are highly promising anticancer agents because they can selectively target tumors and minimize the adverse effects associated with their Pt II congeners. In this study, we synthesized dual action Pt IV complexes by linking oxoplatin with lithocholic acid. The synthesized compounds, designated as PL-I, PL-II, and PL-III, can spontaneously self-assemble in water, resulting in the formation of spherical shape nanoparticles. Among the developed complexes, PL-III appeared to be the most potent compound against all the tested cancer cell lines, with 10 fold higher cytotoxicity compared to cisplatin in PC3 cells. The complex arrests the cell cycle in the S and G2 phases and induces DNA damage. Additional mechanistic investigations demonstrate that PL-III predominantly localizes within the mitochondria and cytoplasm. Consequently, PL-III disrupts mitochondrial membrane potential, increases ROS production, and perturbs mitochondrial bioenergetics in PC3 cells. The complex induces apoptosis through the mitochondrial pathway by upregulating pro-apoptotic protein expression and downregulating anti-apoptotic protein expression from the BCl-2 protein family. These results demonstrate that higher cellular uptake and reduction of PL-III by biological reductants in PC3 cells resulted in a synergistic effect of lithocholic acid and cisplatin, which can be easily observed due to its unique cytotoxic mechanism. This further underscores the significance of dual-action Pt IV complexes in enhancing the efficacy of cancer therapy., (© 2024 The Authors. ChemMedChem published by Wiley-VCH GmbH.)

Published

2024

22. The Amoebicidal Activity of Diferrocenyl Derivatives: A Significant Dependence on the Electronic Environment

Author

Yanis Toledano-Magaña, Mario Néquiz, Lucía Margarita Valenzuela-Salas, Jessica J. Sánchez-García, Rodrigo Galindo-Murillo, Juan Carlos García-Ramos, and Elena I. Klimova

Subjects

amoebiasis, antiproliferative activity, metal-based drugs, diferrocenyl derivatives, electronic properties, Organic chemistry, QD241-441

Abstract

Amoebiasis is the second leading cause of death worldwide associated with parasitic disease and is becoming a critical health problem in low-income countries, urging new treatment alternatives. One of the most promising strategies is enhancing the redox imbalance within these susceptible parasites related to their limited antioxidant defense system. Metal-based drugs represent a perfect option due to their extraordinary capacity to stabilize different oxidation states and adopt diverse geometries, allowing their interaction with several molecular targets. This work describes the amoebicidal activity of five 2-(Z-2,3-diferrocenylvinyl)-4X-4,5-dihydrooxazole derivatives (X = H (3a), Me (3b), iPr (3c), Ph (3d), and benzyl (3e)) on Entamoeba histolytica trophozoites and the physicochemical, experimental, and theoretical properties that can be used to describe the antiproliferative activity. The growth inhibition capacity of these organometallic compounds is strongly related to a fine balance between the compounds’ redox potential and hydrophilic character. The antiproliferative activity of diferrocenyl derivatives studied herein could be described either with the redox potential, the energy of electronic transitions, logP, or the calculated HOMO–LUMO values. Compound 3d presents the highest antiproliferative activity of the series with an IC50 of 23 µM. However, the results of this work provide a pipeline to improve the amoebicidal activity of these compounds through the directed modification of their electronic environment.

Published

2023

23. The Lung Microbiome in COPD and Lung Cancer: Exploring the Potential of Metal-Based Drugs

Author

Megan O’Shaughnessy, Orla Sheils, and Anne-Marie Baird

Subjects

lung microbiome, chronic obstructive pulmonary disease, lung cancer, metal-based drugs, phenanthroline, metal-phen complexes, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Chronic obstructive pulmonary disease (COPD) and lung cancer 17 are two of the most prevalent and debilitating respiratory diseases worldwide, both associated with high morbidity and mortality rates. As major global health concerns, they impose a substantial burden on patients, healthcare systems, and society at large. Despite their distinct aetiologies, lung cancer and COPD share common risk factors, clinical features, and pathological pathways, which have spurred increasing research interest in their co-occurrence. One area of particular interest is the role of the lung microbiome in the development and progression of these diseases, including the transition from COPD to lung cancer. Exploring novel therapeutic strategies, such as metal-based drugs, offers a potential avenue for targeting the microbiome in these diseases to improve patient outcomes. This review aims to provide an overview of the current understanding of the lung microbiome, with a particular emphasis on COPD and lung cancer, and to discuss the potential of metal-based drugs as a therapeutic strategy for these conditions, specifically concerning targeting the microbiome.

Published

2023

24. Anticancer Tungstenocenes with a Diverse Set of (O,O–), (O,S–) and (O,N–) Chelates—A Detailed Biological Study Using an Improved Evaluation via 3D Spheroid Models

Author

Klaudia Cseh, Iker Berasaluce, Valentin Fuchs, Alexandra Banc, Andreas Schweikert, Alexander Prado-Roller, Michaela Hejl, Debora Wernitznig, Gunda Koellensperger, Michael A. Jakupec, Wolfgang Kandioller, Michael S. Malarek, and Bernhard K. Keppler

Subjects

metal-based drugs, tungstenocenes, anticancer, 3D cell culture, multicellular tumor spheroids, Pharmacy and materia medica, RS1-441

Abstract

The synthesis, characterization and biological activity of tungstenocenes with varying biologically active (O,O–), (S,O–) and (N,O–) chelates are described. Complexes were characterized by 1H and 13C NMR, elemental analysis, ESI-mass spectrometry, FT-IR spectroscopy and X-ray diffraction analysis. The aqueous stability was studied by UV/Vis spectroscopy and the WIV to WV process by cyclic voltammetry. The cytotoxicity was determined by the MTT assay in A549, CH1/PA-1 and SW480 cancer cells as well as in IMR-90 human fibroblasts. Extensive biological evaluation was performed in three other human cancer cell lines (HCT116, HT29 and MCF-7) in monolayer and multicellular tumor spheroid cultures to better understand the mode of action. Lead compounds showed promising in vitro anticancer activity in all cancer cell lines. Further studies yielded important insights into apoptosis induction, ROS generation, different patterns in metal distribution (detected by LA-ICP-TOF-MS), changes in KI67 (proliferation marker) expression and DNA interactions. The results based on qualitative and quantitative research designs show that complexes containing (S,O–) chelates are more active than their (O,O–) and (N,O–) counterparts. The most striking results in spheroid models are the high antiproliferative capacity and the different distribution pattern of two complexes differing only in a W–S or W–O bond.

Published

2023

25. Design, Synthesis, and Characterization of Novel Coordination Compounds of Benzimidazole Derivatives with Cadmium.

Author

Raducka, Anita, Świątkowski, Marcin, Korona-Głowniak, Izabela, Kaproń, Barbara, Plech, Tomasz, Szczesio, Małgorzata, Gobis, Katarzyna, and Czylkowska, Agnieszka

Subjects

*COORDINATION compounds, *BENZIMIDAZOLES, *BENZIMIDAZOLE derivatives, *ANALYTICAL chemistry, *CADMIUM, *BIOACTIVE compounds, *ERLOTINIB

Abstract

Four complexes of Cd(II) with benzimidazole derivatives were synthesized and named C1, C2, C3, and C4. All coordination compounds were characterized through elemental analysis (EA), flame atomic absorption spectrometry (FAAS), Fourier-transform infrared spectroscopy (FTIR), thermogravimetric analysis coupled with mass spectrometry) (TG-MS), a cytotoxicity assay (MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazoliumbromide)), and computational chemical analysis for absorption, distribution, metabolism, and excretion (ADME). All of the obtained results are compatible and are consistent with the respective structures of the obtained compounds and their properties. The various techniques used allowed the determination of the composition, proposed structure of the compounds, their thermal stability and thermal properties, and the method of coordination between the metal (II) ion and the ligand. The ADME technique was also used to estimate the physicochemical and biological properties. The antitumor activity of the compounds was determined with an MTT assay on the glioblastoma (T98G), neuroblastoma (SK-N-AS), and lung adenocarcinoma (A549) cell lines, as well as normal human skin fibroblasts (CCD-1059Sk). Compound C2 was found to have potential antitumor properties and to be effective in inhibiting the growth of neuroblastoma cells. The antimicrobial activity of Cd complexes, free ligands, and reference drugs was tested against six strains of Gram-positive bacteria, five strains of Gram-negative rods, and three strains of yeasts. Compound C3 significantly increased activity against Gram-positive bacteria in comparison to the ligand. [ABSTRACT FROM AUTHOR]

Published

2022

26. Curcumin-Based β-Diketo Ligands for Ga 3+ : Thermodynamic Investigation of Potential Metal-Based Drugs.

Author

Mari, Matteo, Carrozza, Debora, Malavasi, Gianluca, Venturi, Ettore, Avino, Giulia, Capponi, Pier Cesare, Iori, Michele, Rubagotti, Sara, Belluti, Silvia, Asti, Mattia, and Ferrari, Erika

Subjects

*THERMODYNAMIC potentials, *CURCUMINOIDS, *STABILITY constants, *POLAR effects (Chemistry), *NON-Hodgkin's lymphoma, ANTINEOPLASTIC agent development

Abstract

Curcumin is known for its therapeutic properties; among these, antioxidant, anti-inflammatory and anti-cancer ones stand out. Besides, curcumin metal complexes have shown widespread application in medicine and can be exploited as lead structures for developing metal-based drugs. Unfortunately, curcumin is poorly bioavailable, mainly due to its instability in physiological conditions; this weakness is tightly connected to the presence of the β-diketo moiety undergoing tautomeric equilibrium. Stability and metal-chelating ability can be tuned by modulating the electronic effects and steric hindrance close to the β-diketo moiety; in addition, formation of a metal complex shifts the tautomeric equilibrium towards the β-keto–enol form and increases stability in biological media. Among the metals used in clinical therapy, gallium nitrate has shown to have significant antitumor activity against non-Hodgkin lymphoma and bladder cancer, thus indicating that gallium-based drugs have potential for further development as antineoplastic agents with improved therapeutic activity. Curcuminoids have demonstrated high affinity for gallium(III), allowing the formation of stable positively charged M:L 1:2 β-diketonate complexes that benefit from the therapeutic activity of both the metal and the ligand. Seven new curcumin derivatives were synthesized and completely characterized. The new derivatives retain the solvent-dependent keto–enol tautomerism, with the prevalence of the diketo form in aqueous solution. Enhanced stability in simulated physiological conditions was observed in comparison to the lead compound curcumin. The presence of Ga3+ anticipates the dissociation of the enolic proton, allowing chelate complex formation, and simultaneously it shifts the tautomeric equilibrium towards the keto–enol form. A complete 1H/13C NMR and UV–Vis study was performed to define the metal-to-ligand stoichiometry ratio and the overall stability constants. In addition, we demonstrated that some of the derivatives have increased antiproliferative activity on colon cancer cells compared to curcumin and antioxidant properties. On the whole, the synthesized curcumin-based molecules may act as new gallium(III) chelators with improved stability with respect to curcumin and could open interesting perspectives for the development of novel therapeutic agents for cancer. [ABSTRACT FROM AUTHOR]

Published

2022

27. Unique enantiopure camphor-based neutral arene–ruthenium(II) complexes: DNA/BSA binding, kinetic and cytotoxic studies.

Author

Milutinović, Milan M., Caković, Angelina Z., Ćoćić, Dušan, Rais, Eduard, Schoch, Roland, Marković, Bojana Simović, Arsenijević, Nebojša, Volarević, Vladislav, Jovanović-Stević, Snezana, Bogojeski, Jovana V., and Wilhelm, René

Subjects

*MESENCHYMAL stem cells, *X-ray crystallography, *DNA, *CELL lines, *DACARBAZINE, *SERUM albumin, *METHYLGUANINE

Abstract

Two neutral enantiopure arene-ruthenium(II) complexes, [(arene)RuII(κ2(1S,3R)-Ar)Cl2] (1, 2), arene = p-cymene, Ar = o-tolyl or mesityl, derived from the reaction of arene-ruthenium(II) dimers and 1,3-diamino camphor based derivatives, were synthesized. The N1-mesityl-2,2,3-trimethylcyclopentane-1,3-diamine ligand and complex 2 are characterized via X-ray crystallography. Single crystal X-ray structure analysis revealed that 2 crystallizes in monoclinic space group P21 with Z = 4, a = 7.7724(14), b = 14.262(3), c = 14.433(3) Å. Reactivity measurements using UV-Vis of the RuII-arene complexes with guanosine-5′-monophosphate (5′-GMP), 9-methylguanine (9MeG), and L-methionine (L-Met) showed a high affinity towards these nucleophiles. Also, DFT calculations with 2 showed that the reaction with a guanine derivative is thermodynamically favored. Furthermore, the RuII-arene complexes were found to interact with CT-DNA and HT-DNA, and protein BSA. The cytotoxicities of 1 and 2 have been evaluated against human breast cancer cell line (MDA-MB), human cancer colon cell line (HCT-116), human lung carcinoma epithelial cell line (A549), mouse melanoma cell line (B16F10), and mesenchymal stem cells (MSCs) and compared to cisplatin as standard analog. The complexes display relevant activities against all cancer cell lines. [ABSTRACT FROM AUTHOR]

Published

2022

28. A review on the recent advances of interaction studies of anticancer metal-based drugs with therapeutic targets, DNA and RNAs.

Author

Khan, Huzaifa Yasir, Ansari, Mohammad Fawad, Tabassum, Sartaj, and Arjmand, Farukh

Subjects

*ANTINEOPLASTIC agents, *DRUG target, *DNA, *STRUCTURAL dynamics, *RNA, *NUCLEIC acids

Abstract

• Metal-based drugs show promise in cancer treatment due to unique cellular interactions. • This comprehensive approach provides valuable insights into their precise modes of action and efficacy. • This review illuminates metal-based drug mechanisms, vital for optimizing cancer treatments. • Studying the specificity and affinity of metal complexes for alternative nucleic acid structures may reveal new cancer treatment avenues. Metal-based drugs hold promise as potent anticancer agents owing to their unique interactions with cellular targets. This review discusses recent advances in our understanding of the intricate molecular interactions of metal-based anticancer compounds with specific therapeutic targets in cancer cells. Advanced computational and experimental methodologies delineate the binding mechanisms, structural dynamics and functional outcomes of these interactions. In addition, the review sheds light on the precise modes of action of these drugs, their efficacy and the potential avenues for further optimization in cancer-treatment strategies and the development of targeted and effective metal-based therapies for combating various forms of cancer. [ABSTRACT FROM AUTHOR]

Published

2024

29. Evaluation of indole-based organometallics as transfer hydrogenation catalysts with anticancer activity.

Author

Rafols, Laia, Azmanova, Maria, Perrigault, Nathan, Cooper, Patricia A., Shnyder, Steven D., Martin, William H.C., and Pitto-Barry, Anaïs

Subjects

*TRANSFER hydrogenation, *ANTINEOPLASTIC agents, *STRUCTURE-activity relationships, *RUTHENIUM catalysts, *NAD (Coenzyme), *CATALYTIC activity, *TRANSITION metal complexes, *CATALYSTS

Abstract

• Neutral metal complexes with a S∩N indole ligand have been synthesised. • The metal ion (Ru, Os, Rh, Ir) influences the catalytic activity for NAD+ reduction. • In vivo studies reveal Rh complex exhibits the more selectivity. • The mechanism of action is based on ROS production. Half-sandwich complexes containing transition metals offer a wide range of applications owing to their interactions with a variety of targets/molecules that are not accessible for some organic scaffolds. The use of such complexes is therefore a way to provide new mechanisms of drug action. Here, we report a series of neutral metal complexes of the type [(arene)M(O-cyclohexyl-1 H -indole-2-carbothiolate)Cl] that have the ability to reduce the coenzyme NAD+ at physiological conditions in the presence of sodium formate as an hydride donor. The influence of the metal ion (Ru, Os, Rh, Ir) is studied to establish some structure-activity relationships. The [(η6- p -cym)Ru(O-cyclohexyl- 1H -indole-2-carbothioate)Cl] is the most active catalyst of this family of complexes with a turnover frequency (TOF) of 14.79 h-1 for the transfer hydrogenation reaction of NAD+ to give 1,4-NADH in the presence of formate. Further in vitro studies were carried out to determine a relationship between catalytic activity and potency as an anticancer drug, with the rhodium complex promisingly showing 7x more selectivity towards cancer cells (A2780) than normal cells (PNT2). Preliminary in vivo studies demonstrated the importance of co-treatment with formate to enhance activity. This work gives insights into the mechanism of action of this family of indole-based organometallic complexes. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

30. Combining Copper and Zinc into a Biosensor for Anti-Chemoresistance and Achieving Osteosarcoma Therapeutic Efficacy

Author

Yan Yik Lim, Ahmad Mujahid Ahmad Zaidi, and Azizi Miskon

Subjects

metal-based drugs, CuZn, anti-chemoresistance, Osteosarcoma Therapy, ligand biosensors, Organic chemistry, QD241-441

Abstract

Due to its built-up chemoresistance after prolonged usage, the demand for replacing platinum in metal-based drugs (MBD) is rising. The first MBD approved by the FDA for cancer therapy was cisplatin in 1978. Even after nearly four and a half decades of trials, there has been no significant improvement in osteosarcoma (OS) therapy. In fact, many MBD have been developed, but the chemoresistance problem raised by platinum remains unresolved. This motivates us to elucidate the possibilities of the copper and zinc (CuZn) combination to replace platinum in MBD. Thus, the anti-chemoresistance properties of CuZn and their physiological functions for OS therapy are highlighted. Herein, we summarise their chelators, main organic solvents, and ligand functions in their structures that are involved in anti-chemoresistance properties. Through this review, it is rational to discuss their ligands’ roles as biosensors in drug delivery systems. Hereafter, an in-depth understanding of their redox and photoactive function relationships is provided. The disadvantage is that the other functions of biosensors cannot be elaborated on here. As a result, this review is being developed, which is expected to intensify OS drugs with higher cure rates. Nonetheless, this advancement intends to solve the major chemoresistance obstacle towards clinical efficacy.

Published

2023

31. New 4,5-Diarylimidazol-2-ylidene–iodidogold(I) Complexes with High Activity against Esophageal Adenocarcinoma Cells

Author

Sebastian W. Schleser, Hindole Ghosh, Gerald Hörner, Jonathan Seib, Sangita Bhattacharyya, Birgit Weber, Rainer Schobert, Prasad Dandawate, and Bernhard Biersack

Subjects

gold, carbene ligands, metal-based drugs, anticancer agents, esophageal cancer, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Inspired by the vascular-disrupting agent combretastatin A-4 and recently published anticancer active N-heterocyclic carbene (NHC) complexes of Au(I), a series of new iodidogold(I)–NHC complexes was synthesized and characterized. The iodidogold(I) complexes were synthesized by a route involving van Leusen imidazole formation and N-alkylation, followed by complexation with Ag2O, transmetalation with chloro(dimethylsulfide)gold(I) [Au(DMS)Cl], and anion exchange with KI. The target complexes were characterized by IR spectroscopy, 1H and 13C NMR spectroscopy, and mass spectrometry. The structure of 6c was validated via single-crystal X-ray diffraction. A preliminary anticancer screening of the complexes using two esophageal adenocarcinoma cell lines showed promising nanomolar activities for certain iodidogold(I) complexes accompanied with apoptosis induction, as well as c-Myc and cyclin D1 suppression in esophageal adenocarcinoma cells treated with the most promising derivative 6b.

Published

2023

32. Silver(I) 1,10-Phenanthroline Complexes Are Active against Fonsecaea pedrosoi Viability and Negatively Modulate Its Potential Virulence Attributes

Author

Ingrid S. Sousa, Tatiana D. P. Vieira, Rubem F. S. Menna-Barreto, Allan J. Guimarães, Pauraic McCarron, Malachy McCann, Michael Devereux, André L. S. Santos, and Lucimar F. Kneipp

Subjects

chromoblastomycosis, metal-based drugs, antifungal activity, virulence factors, Biology (General), QH301-705.5

Abstract

The genus Fonsecaea is one of the etiological agents of chromoblastomycosis (CBM), a chronic subcutaneous disease that is difficult to treat. This work aimed to evaluate the effects of copper(II), manganese(II) and silver(I) complexes coordinated with 1,10-phenanthroline (phen)/1,10-phenanthroline-5,6-dione (phendione) on Fonsecaea spp. Our results revealed that most of these complexes were able to inhibit F. pedrosoi, F. monophora and F. nubica conidial viability with minimum inhibitory concentration (MIC) values ranging from 0.6 to 100 µM. The most effective complexes against F. pedrosoi planktonic conidial cells, the main etiologic agent of CBM, were [Ag(phen)2]ClO4 and [Ag2(3,6,9-tdda)(phen)4].EtOH, (tdda: 3,6,9-trioxaundecanedioate), displaying MIC values equal to 1.2 and 0.6 µM, respectively. These complexes were effective in reducing the viability of F. pedrosoi biofilm formation and maturation. Silver(I)-tdda-phen, combined with itraconazole, reduced the viability and extracellular matrix during F. pedrosoi biofilm development. Moreover, both silver(I) complexes inhibited either metallo- or aspartic-type peptidase activities of F. pedrosoi as well as its conidia into mycelia transformation and melanin production. In addition, the complexes induced the production of intracellular reactive oxygen species in F. pedrosoi. Taken together, our data corroborate the antifungal action of metal-phen complexes, showing they represent a therapeutic option for fungal infections, including CBM.

Published

2023

33. Anti-Staphylococcal Activity of the Auranofin Analogue Bearing Acetylcysteine in Place of the Thiosugar: An Experimental and Theoretical Investigation.

Author

Chiaverini, Lorenzo, Pratesi, Alessandro, Cirri, Damiano, Nardinocchi, Arianna, Tolbatov, Iogann, Marrone, Alessandro, Di Luca, Mariagrazia, Marzo, Tiziano, and La Mendola, Diego

Subjects

*AURANOFIN, *ACETYLCYSTEINE, *STAPHYLOCOCCUS epidermidis, *CHEMICAL structure, *LIPOPHILICITY, *STAPHYLOCOCCUS aureus

Abstract

Auranofin (AF, hereafter) is an orally administered chrysotherapeutic agent approved for the treatment of rheumatoid arthritis that is being repurposed for various indications including bacterial infections. Its likely mode of action involves the impairment of the TrxR system through the binding of the pharmacophoric cation [AuPEt3]+. Accordingly, a reliable strategy to expand the medicinal profile of AF is the replacement of the thiosugar moiety with different ligands. Herein, we aimed to prepare the AF analogue bearing the acetylcysteine ligand (AF-AcCys, hereafter) and characterize its anti-staphylococcal activity. Biological studies revealed that AF-AcCys retains an antibacterial effect superimposable with that of AF against Staphylococcus aureus, whereas it is about 20 times less effective against Staphylococcus epidermidis. Bioinorganic studies confirmed that upon incubation with human serum albumin, AF-AcCys, similarly to AF, induced protein metalation through the [AuPEt3]+ fragment. Additionally, AF-AcCys appeared capable of binding the dodecapeptide Ac-SGGDILQSGCUG-NH2, corresponding to the tryptic C-terminal fragment (488–499) of hTrxR. To shed light on the pharmacological differences between AF and AF-AcCys, we carried out a comparative experimental stability study and a theoretical estimation of bond dissociation energies, unveiling the higher strength of the Au–S bond in AF-AcCys. From the results, it emerged that the lower lipophilicity of AF-AcCys with respect to AF could be a key feature for its different antibacterial activity. The differences and similarities between AF and AF-AcCys are discussed, alongside the opportunities and consequences that chemical structure modifications imply. [ABSTRACT FROM AUTHOR]

Published

2022

34. Current and emerging mass spectrometry methods for the preclinical development of metal-based drugs: a critical appraisal.

Author

Jarosz, Maciej, Keppler, Bernhard K., and Timerbaev, Andrei R.

Subjects

*DRUG development, *ANTINEOPLASTIC agents, *MOLECULAR weights, *EXPERIMENTAL design, *CANCER chemotherapy

Abstract

This Trends article highlights the multiple ways in which the state-of-the-art molecular mass spectrometry can support the preclinical development of novel metal-based anticancer drugs. Examples from the recent literature—beyond routine characterization applications—are presented to illustrate what analytical and experimental design challenges are to be addressed to facilitate the translation of promising drug candidates to clinical practice. [ABSTRACT FROM AUTHOR]

Published

2022

35. Chemical Modification of Auranofin Yields a New Family of Anticancer Drug Candidates: The Gold(I) Phosphite Analogues

Author

Damiano Cirri, Andrea Geri, Lara Massai, Michele Mannelli, Tania Gamberi, Francesca Magherini, Matteo Becatti, Chiara Gabbiani, Alessandro Pratesi, and Luigi Messori

Subjects

auranofin, metal-based drugs, anticancer compounds, phosphite compounds, Organic chemistry, QD241-441

Abstract

A panel of four novel gold(I) complexes, inspired by the clinically established gold drug auranofin (1-Thio-β-D-glucopyranosatotriethylphosphine gold-2,3,4,6-tetraacetate), was prepared and characterized. All these compounds feature the replacement of the triethylphosphine ligand of the parent compound auranofin with a trimethylphosphite ligand. The linear coordination around the gold(I) center is completed by Cl−, Br−, I− or by the thioglucose tetraacetate ligand (SAtg). The in-solution behavior of these gold compounds as well as their interactions with some representative model proteins were comparatively analyzed through 31PNMR and ESI-MS measurements. Notably, all panel compounds turned out to be stable in aqueous media, but significant differences with respect to auranofin were disclosed in their interactions with a few leading proteins. In addition, the cytotoxic effects produced by the panel compounds toward A2780, A2780R and SKOV-3 ovarian cancer cells were quantitated and found to be in the low micromolar range, since the IC50 of all compounds was found to be between 1 μM and 10 μM. Notably, these novel gold complexes showed large and similar inhibition capabilities towards the key enzyme thioredoxin reductase, again comparable to those of auranofin. The implications of these results for the discovery of new and effective gold-based anticancer agents are discussed.

Published

2023

36. Synthesis, Characterization and Photoactivation Studies on the Novel Pt(IV)-Based [Pt(OCOCH3)3(phterpy)] Complex

Author

Giovanni Canil, Juan Gurruchaga-Pereda, Simona Braccini, Lorella Marchetti, Tiziana Funaioli, Fabio Marchetti, Alessandro Pratesi, Luca Salassa, and Chiara Gabbiani

Subjects

Pt(IV) compounds, photoactivation, anticancer compounds, metal-based drugs, flavin-catalyzed light-activation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Photoactivatable Pt(IV) prodrugs represent nowadays an intriguing class of potential metal-based drugs, endowed with more chemical inertness in their oxidized form and better selectivity for the target with respect to the clinically established Pt(II) compounds. In fact, they have the possibility to be reduced by light irradiation directly at the site of interest. For this reason, we synthesized a new Pt(IV) complex, [Pt(OCOCH3)3(4′-phenyl-2,2′:6′,2′′-terpyridine)][CF3SO3] (1), that is well soluble in aqueous medium and totally unreactive towards selected model biomolecules until its reduction. The highlight of this work is the rapid and efficient photoreduction of 1 with visible light (460 nm), which leads to its reactive Pt(II) analogue. This behavior was made possible by taking advantage of an efficient catalytic system based on flavin and NADH, which is naturally present in the cellular environment. As a comparison, the reduction of 1 was also studied with simple UV irradiation, but both UV-Vis spectrophotometry and 1H-NMR spectrometry showed that the flavin-catalyzed reduction with visible light was faster. Lastly, the reactivity against two representative biological targets, i.e., human serum albumin and one monofilament oligonucleotide fragment, was evaluated by high-resolution mass spectrometry. The results clearly pointed out that the prodrug 1 did not interact with these targets until its photoreduction to the Pt(II) analogue.

Published

2023

37. Highlights of New Strategies to Increase the Efficacy of Transition Metal Complexes for Cancer Treatments

Author

Ester Giorgi, Francesca Binacchi, Carlo Marotta, Damiano Cirri, Chiara Gabbiani, and Alessandro Pratesi

Subjects

platinum compounds, gold compounds, metal-based drugs, heterobimetallic complexes, targeting strategies, Organic chemistry, QD241-441

Abstract

Although important progress has been made, cancer still remains a complex disease to treat. Serious side effects, the insurgence of resistance and poor selectivity are some of the problems associated with the classical metal-based anti-cancer therapies currently in clinical use. New treatment approaches are still needed to increase cancer patient survival without cancer recurrence. Herein, we reviewed two promising—at least in our opinion—new strategies to increase the efficacy of transition metal-based complexes. First, we considered the possibility of assembling two biologically active fragments containing different metal centres into the same molecule, thus obtaining a heterobimetallic complex. A critical comparison with the monometallic counterparts was done. The reviewed literature has been divided into two groups: the case of platinum; the case of gold. Secondly, the conjugation of metal-based complexes to a targeting moiety was discussed. Particularly, we highlighted some interesting examples of compounds targeting cancer cell organelles according to a third-order targeting approach, and complexes targeting the whole cancer cell, according to a second-order targeting strategy.

Published

2022

38. Antimicrobial Resistance Challenged with Platinum(II) and Palladium(II) Complexes Containing 1,10-Phenanthroline and 5-Amino-1,3,4-Thiadiazole-2(3H)-Thione in Campylobacter jejuni

Author

Meiry Leandra de Lacerda, Daise Aparecida Rossi, Eduarda Cristina Alves Lourenzatto, Micaela Guidotti Takeuchi, Wesley Almeida Souza, Raphael Tristão Cruvinel Silva, Luma Gonçalves Julio, Wendell Guerra, and Roberta Torres de Melo

Subjects

bacterial resistance, Campylobacter jejuni, metal-based drugs, platinum(II) complexes, synergism, Therapeutics. Pharmacology, RM1-950

Abstract

This work describes the synthesis and characterization of two metal complexes of the type [M(L1)2(phen)], where M = Pt2+ (complex I) or Pd2+ (complex II), L1 = 5-amino-1,3,4-thiadiazole-2(3H)-thiolate and phen = 1,10-phenanthroline. The in vitro antibacterial activity of these complexes was investigated in isolation and synergistically with ciprofloxacin (CIP) and erythromycin (ERY) in three strains of Campylobacter jejuni (MIC = 32 mg/L for CIP and ERY), selected from a bank of 235 strains representative of three poultry exporting states of the country (A, B and C), previously analyzed for epidemiology and resistance to CIP and ERY. A total of 53/235 (22.55%) strains showed co-resistance to CIP and ERY. Isolated resistance to CIP was higher than to ERY. Epidemiological analysis showed that resistance to CIP was more evident in state B (p < 0.0001), as well as a higher susceptibility to ERY in state C (p = 0.0028). Co-resistance was expressive in state A and in the spring and fall seasons. The evaluation of I alone and in synergy with CIP and ERY found values up to 0.25 mg/L not significant for ERY. Complex II did not show an antimicrobial effect on the three strains of tested C. jejuni. The effect provided by complex I represents a promising alternative for control of resistant strains of C. jejuni.

Published

2022

39. Arene Variation of Highly Cytotoxic Tridentate Naphthoquinone-Based Ruthenium(II) Complexes and In-Depth In Vitro Studies

Author

Klaudia Cseh, Heiko Geisler, Kristina Stanojkovska, Julia Westermayr, Philipp Brunmayr, Dominik Wenisch, Natalie Gajic, Michaela Hejl, Martin Schaier, Gunda Koellensperger, Michael A. Jakupec, Philipp Marquetand, and Wolfgang Kandioller

Subjects

metal-based drugs, ruthenium, piano-stool complexes, anticancer, Pharmacy and materia medica, RS1-441

Abstract

The main purpose of this study was to synthesize a new set of naphthoquinone-based ruthenium(II) arene complexes and to develop an understanding of their mode of action. This study systematically reviews the steps of synthesis, aiming to provide a simplified approach using microwave irradiation. The chemical structures and the physicochemical properties of this novel group of compounds were examined by 1H-NMR and 13C-NMR spectroscopy, X-ray diffractometry, HPLC-MS and supporting DFT calculations. Several aspects of the biological activity were investigated in vitro, including short- and long-term cytotoxicity tests, cellular accumulation studies, detection of reactive oxygen species generation, apoptosis induction and NAD(P)H:quinone oxidoreductase 1 (NQO1) activity as well as cell cycle analysis in A549, CH1/PA-1, and SW480 cancer cells. Furthermore, the DNA interaction ability was studied in a cell-free assay. A positive correlation was found between cytotoxicity, lipophilicity and cellular accumulation of the tested complexes, and the results offer some important insights into the effects of the arene. The most obvious finding to emerge from this study is that the usually very chemosensitive CH1/PA-1 teratocarcinoma cells showed resistance to these phthiocol-based organometallics in comparison to the usually less chemosensitive SW480 colon carcinoma cells, which pilot experiments suggest as being related to NQO1 activity.

Published

2022

40. Pincer Complexes Derived from Tridentate Schiff Bases for Their Use as Antimicrobial Metallopharmaceuticals

Author

Alberto Aragón-Muriel, Viviana Reyes-Márquez, Farrah Cañavera-Buelvas, Jesús R. Parra-Unda, Fernando Cuenú-Cabezas, Dorian Polo-Cerón, Raúl Colorado-Peralta, Galdina V. Suárez-Moreno, Bethsy Adriana Aguilar-Castillo, and David Morales-Morales

Subjects

metallopharmaceuticals, Schiff bases, tridentate ligands, pincer ligands, antimicrobial activity, metal-based drugs, Inorganic chemistry, QD146-197

Abstract

Within the current challenges in medicinal chemistry, the development of new and better therapeutic agents effective against infectious diseases produced by bacteria, fungi, viruses, and parasites stands out. With chemotherapy as one of the main strategies against these diseases focusing on the administration of organic and inorganic drugs, the latter is generally based on the synergistic effect produced by the formation of metal complexes with biologically active organic compounds. In this sense, Schiff bases (SBs) represent and ideal ligand scaffold since they have demonstrated a broad spectrum of antitumor, antiviral, antimicrobial, and anti-inflammatory activities, among others. In addition, SBs are synthesized in an easy manner from one-step condensation reactions, being thus suitable for facile structural modifications, having the imine group as a coordination point found in most of their metal complexes, and promoting chelation when other donor atoms are three, four, or five bonds apart. However, despite the wide variety of metal complexes found in the literature using this type of ligands, only a handful of them include on their structures tridentate SBs ligands and their biological evaluation has been explored. Hence, this review summarizes the most important antimicrobial activity results reported this far for pincer-type complexes (main group and d-block) derived from SBs tridentate ligands.

Published

2022

41. Anticancer activity of RAPTA-EA1 in triple-negative BRCA1 proficient breast cancer cells: single and combined treatment with the PARP inhibitor olaparib

Author

Khwanjira Hongthong, Tidarat Nhukeaw, Pornvichai Temboot, Paul J. Dyson, and Adisorn Ratanaphan

Subjects

Anti-cancer drugs, Metal-based drugs, BRCA1, RAPTA-EA1, Olaparib, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

RAPTA-EA1 is a promising glutathione transferase (GSTP-1) inhibitor that has previously been shown to inhibit the growth of various breast cancer cells. We studied the anticancer activity of RAPTA-EA1 on triple-negative BRCA1 competent breast cancer MDA-MB-231 cells. MDA-MB-231 cells are significantly more sensitive to RAPTA-EA1 than MCF-7 cells. Treatment reveals a higher degree of cytotoxicity than cisplatin against both cell lines. Ruthenium accumulation in MDA-MB-231 cells is mainly in the nuclear fraction (43%), followed by the cytoplasm (30%), and the mitochondria (27%). RAPTA-EA1 blocks cell growth at the G2/M phase, leading to nuclear condensation and cell death. The compound slightly inhibits DNA replication of the 3,426-bp fragment of the BRCA1 exon 11 of the cells, with approximately 0.6 lesion per the BRCA1 fragment. The expression of BRCA1 mRNA and its protein in the Ru-treated cells is curtailed by 50–80% compared to the untreated controls. Growth inhibition of the triple-negative BRCA1 wild-type MDA-MB-231 and the sporadic BRCA1 wild-type MCF-7 cells by olaparib (a poly [ADP-ribose] polymerase (PARP) inhibitor) is dose-dependent, with MDA-MB-231 cells being two-fold less susceptible to the drug than MCF-7 cells. Combining olaparib with RAPTA-EA1 results in a combination index (CI) of 0.78 (almost additive) in MDA-MB-231 cells and 0.24 (potent synergy) in the MCF-7 cells. The PARP inhibitor alone differently regulates the expression of BRCA1 mRNA in both cell lines, whereas the olaparib-RAPTA-EA1 combination induces overexpression of BRCA1 mRNA in these cells. However, the expression level of the BRCA1 protein is dramatically reduced after treatment with the combined inhibitors, compared with the untreated controls. This observation highlights the cellular responses of triple-negative BRCA1 proficient breast cancer MDA-MB-231 cells to RAPTA-EA1 through BRCA1 inhibition and provides insights into alternative treatments for breast cancer.

Published

2021

42. Thermoresponsive carboplatin-releasing prodrugs.

Author

McAdam, Aemilia D., Batchelor, Lucinda K., Romano-deGea, Jan, Vasilyev, Dmitry, and Dyson, Paul J.

Subjects

*CARBOPLATIN, *PRODRUGS, *NUCLEAR magnetic resonance spectroscopy, *ANTINEOPLASTIC agents, *THERMOTHERAPY, *CYTOTOXINS

Abstract

Platinum-based anticancer drugs, while potent, are associated with numerous and severe side effects. Hyperthermia therapy is an effective adjuvant in anticancer treatment, however, clinically used platinum drugs have not been optimised for combination with hyperthermia. The derivatisation of existing anticancer drugs with appropriately chosen thermoresponsive moieties results in drugs being activated only at the heated site. Perfluorinated chains of varying lengths were installed on carboplatin, a clinically approved drug, leading to the successful synthesis of a series of mono- and di- substituted platinum(IV) carboplatin prodrugs. Some of these complexes display relevant thermosensitivity on ovarian cancer cell lines, i.e., being inactive at 37 °C while having comparable activity to carboplatin under mild hyperthermia (42 °C). Nuclear magnetic resonance spectroscopy and mass spectrometry indicated that carboplatin is likely the active platinum(II) anticancer agent upon reduction and cyclic voltammetry revealed that the length of the fluorinated alkyl chain has a strong influence on the rate of carboplatin formation, regulating the subsequent cytotoxicity. In this study, the thermoresponsive behaviour of platinum(IV) prodrugs of carboplatin bearing perfluorinated axial ligands has been demonstrated under mild hyperthermia. The complexes undergo reduction to release carboplatin. One of the complexes exhibits remarkable hyperthermia-induced cytotoxicity against all tested cell lines, even showing activity against cisplatin resistant A2780cisR cells. [Display omitted] • Six platinum(IV) prodrugs of carboplatin bearing one or two perfluorinated axial ligands were synthesised and characterised. • The complexes exhibited thermoresponsive-induced cytotoxicity under mild hyperthermia (42 °C). • Thermoresponsive perfluorinated platinum drugs are potential alternatives to carboplatin in chemothermotherapy regimens. [ABSTRACT FROM AUTHOR]

Published

2024

43. Biosynthesis of ergosterol as a relevant molecular target of metal-based antiparasitic and antifungal compounds.

Author

Scalese, Gonzalo, Mosquillo, María Florencia, Pérez-Díaz, Leticia, and Gambino, Dinorah

Subjects

*ERGOSTEROL, *DRUG target, *DRUG design, *BIOSYNTHESIS, *MICROBIAL enzymes, *ANTIPARASITIC agents, *ANTIFUNGAL agents

Abstract

[Display omitted] • Developing efficient and safe drugs against fungal and parasitic NTDs is urgent. • Ergosterol pathway constitutes a promising target for drugś rational design. • Metal coordination of human approved drugs may enhance their effectiveness. • The metal derivatization of organic antiparasitic agents remains underexplored. Trypanosomatid parasites and fungi cause highly prevalent diseases. Ergosterol plays a crucial role in the structure and normal function of the membrane of these microorganisms. It is absent in mammals. Many enzymes of the ergosterol biosynthesis route have been recognized as molecular targets for drugs. Currently, a variety of organic drugs that interfere with sterol biosynthesis are employed to treat fungal infections, and some of them have been proposed as potential treatments for trypanosomiasis. Coordinating these organic drugs to metal ions may positively impact the biological performance by altering relevant physicochemical properties. Additionally, their organometallic derivatization could improve the effectiveness. This comprehensive review aims to highlight the considerable promise of metal-based compounds as inhibitors of essential pathways or key enzymes of these microorganisms, with focus on the ergosterol biosynthesis pathway. Additionally, bioactive metal compounds that have demonstrated experimental efficacy in acting on enzymes within this pathway although not designed for this purpose were included. The current state of the art demonstrates the impressive but still underexplored potential of these metal-based compounds for treating fungal and trypanosomatid infections. [ABSTRACT FROM AUTHOR]

Published

2024

44. Design, Synthesis, and Characterization of Novel Coordination Compounds of Benzimidazole Derivatives with Cadmium

Author

Anita Raducka, Marcin Świątkowski, Izabela Korona-Głowniak, Barbara Kaproń, Tomasz Plech, Małgorzata Szczesio, Katarzyna Gobis, and Agnieszka Czylkowska

Subjects

metal complexes, antitumor, antiviral, metal-based drugs, medicinal chemistry, biologically active compounds, Pharmacy and materia medica, RS1-441

Abstract

Four complexes of Cd(II) with benzimidazole derivatives were synthesized and named C1, C2, C3, and C4. All coordination compounds were characterized through elemental analysis (EA), flame atomic absorption spectrometry (FAAS), Fourier-transform infrared spectroscopy (FTIR), thermogravimetric analysis coupled with mass spectrometry) (TG-MS), a cytotoxicity assay (MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazoliumbromide)), and computational chemical analysis for absorption, distribution, metabolism, and excretion (ADME). All of the obtained results are compatible and are consistent with the respective structures of the obtained compounds and their properties. The various techniques used allowed the determination of the composition, proposed structure of the compounds, their thermal stability and thermal properties, and the method of coordination between the metal (II) ion and the ligand. The ADME technique was also used to estimate the physicochemical and biological properties. The antitumor activity of the compounds was determined with an MTT assay on the glioblastoma (T98G), neuroblastoma (SK-N-AS), and lung adenocarcinoma (A549) cell lines, as well as normal human skin fibroblasts (CCD-1059Sk). Compound C2 was found to have potential antitumor properties and to be effective in inhibiting the growth of neuroblastoma cells. The antimicrobial activity of Cd complexes, free ligands, and reference drugs was tested against six strains of Gram-positive bacteria, five strains of Gram-negative rods, and three strains of yeasts. Compound C3 significantly increased activity against Gram-positive bacteria in comparison to the ligand.

Published

2022

45. Curcumin-Based β-Diketo Ligands for Ga3+: Thermodynamic Investigation of Potential Metal-Based Drugs

Author

Matteo Mari, Debora Carrozza, Gianluca Malavasi, Ettore Venturi, Giulia Avino, Pier Cesare Capponi, Michele Iori, Sara Rubagotti, Silvia Belluti, Mattia Asti, and Erika Ferrari

Subjects

curcumin, keto–enol equilibrium, β-diketo ligands, gallium(III)-chelating agents, metal-based drugs, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Curcumin is known for its therapeutic properties; among these, antioxidant, anti-inflammatory and anti-cancer ones stand out. Besides, curcumin metal complexes have shown widespread application in medicine and can be exploited as lead structures for developing metal-based drugs. Unfortunately, curcumin is poorly bioavailable, mainly due to its instability in physiological conditions; this weakness is tightly connected to the presence of the β-diketo moiety undergoing tautomeric equilibrium. Stability and metal-chelating ability can be tuned by modulating the electronic effects and steric hindrance close to the β-diketo moiety; in addition, formation of a metal complex shifts the tautomeric equilibrium towards the β-keto–enol form and increases stability in biological media. Among the metals used in clinical therapy, gallium nitrate has shown to have significant antitumor activity against non-Hodgkin lymphoma and bladder cancer, thus indicating that gallium-based drugs have potential for further development as antineoplastic agents with improved therapeutic activity. Curcuminoids have demonstrated high affinity for gallium(III), allowing the formation of stable positively charged M:L 1:2 β-diketonate complexes that benefit from the therapeutic activity of both the metal and the ligand. Seven new curcumin derivatives were synthesized and completely characterized. The new derivatives retain the solvent-dependent keto–enol tautomerism, with the prevalence of the diketo form in aqueous solution. Enhanced stability in simulated physiological conditions was observed in comparison to the lead compound curcumin. The presence of Ga3+ anticipates the dissociation of the enolic proton, allowing chelate complex formation, and simultaneously it shifts the tautomeric equilibrium towards the keto–enol form. A complete 1H/13C NMR and UV–Vis study was performed to define the metal-to-ligand stoichiometry ratio and the overall stability constants. In addition, we demonstrated that some of the derivatives have increased antiproliferative activity on colon cancer cells compared to curcumin and antioxidant properties. On the whole, the synthesized curcumin-based molecules may act as new gallium(III) chelators with improved stability with respect to curcumin and could open interesting perspectives for the development of novel therapeutic agents for cancer.

Published

2022

46. Application of Metallomics and Metalloproteomics for Understanding the Molecular Mechanisms of Action of Metal-Based Drugs

Author

Wang, Yuchuan, Wang, Haibo, Li, Hongyan, Sun, Hongzhe, DeWitt, Jamie, Series editor, Blossom, Sarah, Series editor, Mudipalli, Anuradha, editor, and Zelikoff, Judith T., editor

Published

2017

47. The Cytotoxic Activity of Diiron Bis-Cyclopentadienyl Complexes with Bridging C 3 -Ligands.

Author

Braccini, Simona, Provinciali, Giacomo, Biancalana, Lorenzo, Pampaloni, Guido, Chiellini, Federica, Marchetti, Fabio, and Biesaga, Magdalena

Subjects

IRON oxidation, CELL lines, CELL culture, AQUEOUS solutions, OVARIAN cancer

Abstract

Diiron bis-cyclopentadienyl bis-carbonyl cationic complexes with a bridging vinyliminium ligand, [Fe2Cp2(CO)(μ-CO){μ-η1:η3-C3(R′)C2HC1NMe(R″)}]CF3SO3 (R = Xyl = 2,6-C6H3Me2, R′ = Ph, R″ = H, 2a; R = Xyl, R′ = R″ = Me, 2b; R = R′ = Me, R″ = H, 2c; R = Me, R′ = 2-naphthyl, R″ = H, 2d; R = Me, R′ = R″ = Ph, 2e), are easily available from commercial chemicals, robust in aqueous media and exert a variable in vitro cytotoxicity against cancer cell lines depending on the nature of the substituents on the vinyliminium ligand. The anticancer activity is, at least in part, associated to fragmentation reactions, leading to iron oxidation and active neutral and well-defined monoiron species. We report an innovative synthetic procedure for the preparation of 2a,c,d, and a facile method to access the monoiron derivative of 2a, i.e., [FeCp(CO){C1(NMeXyl)C2HC3(Ph)C(O)}] (3a). According to IC50 analyses at different times of incubation of the complexes, 3a is significantly faster in inhibiting cell viability compared to its diiron precursor 2a. The neutral complexes [Fe2Cp2(CO)(μ-CO){μ-k1N:k1C:k1C-C3(R′)C2(Se)C1(NMe2)C4(CO2Y)C5(CO2Y)}] (R′ = Y = Me, 4a; R′ = Pr, Y = tBu, 4b; R′ = Y = Et, 4c) are obtained via the two-step modification of the vinyliminium moiety and comprise a bridging selenophene-decorated alkylidene ligand. The antiproliferative activity exhibited by 4a-c is moderate but comparable on the ovarian cancer cell line A2780 and the corresponding cisplatin resistant cell line, A2780cisR. Complexes 4a-c in aqueous solutions undergo progressive release of the alkylidene ligand as a functionalized selenophene, this process being slower in cell culture medium. Since the released selenophenes SeC1{C(O)R′}C2(NMe2)C3(CO2Y)C4(CO2Y) (R′ = Y = Me, 5a; R′ = Pr, Y = tBu, 5b) are substantially not cytotoxic, it is presumable that the activity of 4a-c is largely ascribable to the {Fe2Cp2(CO)2} scaffold. [ABSTRACT FROM AUTHOR]

Published

2021

48. Protein-metallodrugs interactions: Effects on the overall protein structure and characterization of Au, Ru and Pt binding sites.

Author

Loreto, Domenico, Ferraro, Giarita, and Merlino, Antonello

Subjects

*PROTEIN structure, *BINDING sites, *METAL compounds, *INORGANIC compounds, *PROTEIN conformation, *METALATION

Abstract

The effects of metalation process by inorganic compounds containing Au, Pt and Ru on protein structure and on conformation and flexibility of the residues involved in the metal compound binding have been here investigated by analysing 204 structures of protein/metallodrug adducts and the corresponding metal-free forms. The overall structure of the proteins is not significantly affected by the metal label. 162 non-redundant protein residues involved in Au, Pt and Ru coordination have been identified. In the metal-free protein structures these residues often belong to α-helical regions and show low flexibility. They do not necessarily belong to outer layers of the protein structure. In the majority of the adducts, the side chains of these residues adopt a conformation that is similar to that observed in the metal-free protein. The metal coordination reduces their solvent accessible surface area without altering their overall flexibility. These results could be useful for the prediction of residues able to bind Au, Pt and Ru compounds. • The effect of metalation by Au-, Pt- and Ru-based drugs on protein structures was studied. • Binding of Au-, Pt- and Ru-compounds to proteins does not significantly affect its overall structure. • Conformation, accessibility and flexibility of coordinating residues were studied. • Coordinating residues often belong to α-helical regions and do not belong to outer layers of protein structure. [ABSTRACT FROM AUTHOR]

Published

2020

49. Novel selective anticancer agents based on Sn and Au complexes. Mini-review.

Author

Milaeva, Elena R., Shpakovsky, Dmitry B., Gracheva, Yulia A., Antonenko, Taisiya A., Ksenofontova, Tatyana D., Nikitin, Evgeny A., and Berseneva, Daria A.

Subjects

*ANTINEOPLASTIC agents, *DRUG side effects, *INORGANIC compounds, *INORGANIC chemistry, *ORGANOTIN compounds, *TUBULINS, *ANTINEOPLASTIC antibiotics

Abstract

Cancer is one of the most common causes of death in modern medicine. Molecular design of novel substances with pharmacological activity is one of the goals of medicinal inorganic chemistry. Platinum complexes are widely used in the treatment of cancer, despite high efficacy their use is limited by side effects, as well as primary or acquired resistance. In this regard, the search for novel metal-containing antitumor compounds is underway. Organotins and gold compounds are promising pharmacological agents with anti-cancer properties. The introduction of protective antioxidant fragments into inorganic compounds molecules is a way to reduce the side effects of anti-cancer drugs on healthy cells. 2,6-dialkylphenols belonging to vitamin E (α-tocopherol) mimetics are widely used as antioxidants and stabilizers. The properties of Ph3SnCl (Sn-I), Ph3PAuCl (Au-I) and complexes Ph3SnSR (Sn-II) and Ph3PAuSR (Au-II) based on 2,6-di-tert-butyl-4-mercaptophenol (RSH) as radical scavengers and reducing agents were studied in model reactions. For Sn-II and Au-II the comparative study of cytotoxic action was made and the IC50 values on different cancer cell lines were found to be depended on the nature of metal. In general, Sn(IV) complexes possessed higher cytotoxicity than Au(I) complexes. In order to clarify the mechanism of cytotoxic mode of action the effect of compounds on Fe3+-induced lipid peroxidation, mitochondrial potential and mitochondrial permeability, cell cycle and induction of apoptosis was studied. Organotin compounds can bind tubulin SH-groups and inhibit its polymerization by a dose-dependent mechanism, whereas gold compounds inhibit Thioredoxin reductase (TrxR). In vivo experiments on acute toxicity of Sn-II and Au-II proved their moderate toxic action that opens prospects for the further study as antitumor agents. [ABSTRACT FROM AUTHOR]

Published

2020

50. Synthesis and structural studies of 16‐ferrocenemethyl‐estra‐1,3,5(10)‐triene‐3,17β‐diol and its interaction with human serum albumin by fluorescence spectroscopy and in silico docking approaches.

Author

Carmona‐Negrón, José A., Liboy‐Lugo, José M., Santana, Alberto, and Meléndez, Enrique

Subjects

*SERUM albumin, *SOCIAL interaction, *HYDROGEN bonding interactions, *FLUORESCENCE spectroscopy, *DIHEDRAL angles, *DENSITY functional theory

Abstract

16‐Ferrocenylmethyl‐estra‐1,3,5(10)‐triene‐3,17β‐diol crystallizes in a triclinic unit cell and P1 space group. It contains four crystallographic independent molecules in the unit, representing four different conformers of the ferrocene–hormone conjugate. It provides evidence of a low rotational barrier around C19–C20 and the existence of alpha and beta conformers. The four conformers are interconnected by hydrogen bonds through hydroxyl groups of rings A and D. Density functional theory studies show the rotational barrier energy to be 4.96 Kcal/mol and the preferred conformer has a dihedral angle φ2 (defined as C16–C19–C20–C21) of 85.79°. This angle represents the conformer with the lowest steric strains. Docking studies between the subject compound and human serum albumin (HSA) showed that the most likely binding pocket of HSA is drug‐binding site 2. Quenching fluorescence spectroscopy was used to study HSA–ferrocene conjugate interaction and results showed that the complex formation was static and dominated by van der Waals and electrostatic/hydrogen bonding interactions. [ABSTRACT FROM AUTHOR]

Published

2020