37 results on '"Messori L"'
Search Results
2. The effects of two gold-N-heterocyclic carbene (NHC) complexes in ovarian cancer cells: a redox proteomic study.
- Author
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Massai L, Messori L, Carpentieri A, Amoresano A, Melchiorre C, Fiaschi T, Modesti A, Gamberi T, and Magherini F
- Subjects
- Carcinoma, Ovarian Epithelial, Cell Line, Tumor, Female, Gold chemistry, Gold Compounds, Humans, Methane analogs & derivatives, Oxidation-Reduction, Proteomics, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Coordination Complexes chemistry, Coordination Complexes pharmacology, Ovarian Neoplasms drug therapy
- Abstract
Purpose: Ovarian cancer is the fifth leading cause of cancer-related deaths in women. Standard treatment consists of tumor debulking surgery followed by platinum and paclitaxel chemotherapy; yet, despite the initial response, about 70-75% of patients develop resistance to chemotherapy. Gold compounds represent a family of very promising anticancer drugs. Among them, we previously investigated the cytotoxic and pro-apoptotic properties of Au(NHC) and Au(NHC)
2 PF6 , i.e., a monocarbene gold(I) complex and the corresponding bis(carbene) complex. Gold compounds are known to alter the redox state of cells interacting with free cysteine and selenocysteine residues of several proteins. Herein, a redox proteomic study has been carried out to elucidate the mechanisms of cytotoxicity in A2780 human ovarian cancer cells., Methods: A biotinylated iodoacetamide labeling method coupled with mass spectrometry was used to identify oxidation-sensitive protein cysteines., Results: Gold carbene complexes cause extensive oxidation of several cellular proteins; many affected proteins belong to two major functional classes: carbohydrate metabolism, and cytoskeleton organization/cell adhesion. Among the affected proteins, Glyceraldehyde-3-phosphate dehydrogenase inhibition was proved by enzymatic assays and by ESI-MS studies. We also found that Au(NHC)2 PF6 inhibits mitochondrial respiration impairing complex I function. Concerning the oxidized cytoskeletal proteins, gold binding to the free cysteines of actin was demonstrated by ESI-MS analysis. Notably, both gold compounds affected cell migration and invasion., Conclusions: In this study, we deepened the mode of action of Au(NHC) and Au(NHC)2 PF6 , identifying common cellular targets but confirming their different influence on the mitochondrial function., (© 2022. The Author(s).)- Published
- 2022
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3. Reactions with Proteins of Three Novel Anticancer Platinum(II) Complexes Bearing N-Heterocyclic Ligands.
- Author
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Sacco F, Tarchi M, Ferraro G, Merlino A, Facchetti G, Rimoldi I, Messori L, and Massai L
- Subjects
- Animals, Antineoplastic Agents chemistry, Antineoplastic Agents metabolism, Binding Sites, Cattle, Coordination Complexes metabolism, Crystallography, X-Ray, Cytochromes c metabolism, Horses, Humans, Ligands, Models, Molecular, Muramidase metabolism, Platinum metabolism, Protein Binding, Protein Domains, Ribonuclease, Pancreatic metabolism, Spectrometry, Mass, Electrospray Ionization methods, Coordination Complexes chemistry, Cytochromes c chemistry, Muramidase chemistry, Platinum chemistry, Ribonuclease, Pancreatic chemistry
- Abstract
Three novel platinum(II) complexes bearing N-heterocyclic ligands, i.e., Pt2c, Pt-IV and Pt-VIII, were previously prepared and characterized. They manifested promising in vitro anticancer properties associated with non-conventional modes of action. To gain further mechanistic insight, we have explored here the reactions of these Pt compounds with a few model proteins, i.e., hen egg white lysozyme (HEWL), bovine pancreatic ribonuclease (RNase A), horse heart cytochrome c (Cyt-c) and human serum albumin (HSA), primarily through ESI MS analysis. Characteristic and variegate patterns of reactivity were highlighted in the various cases that appear to depend both on the nature of the Pt complex and of the interacting protein. The protein-bound Pt fragments were identified. In the case of the complex Pt2c, the adducts formed upon reaction with HEWL and RNase A were further characterized by solving the respective crystal structures: this allowed us to determine the exact location of the various Pt binding sites. The implications of the obtained results are discussed in relation to the possible mechanisms of action of these innovative anticancer Pt complexes.
- Published
- 2021
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4. Ruthenium(II) 1,4,7-trithiacyclononane complexes of curcumin and bisdemethoxycurcumin: Synthesis, characterization, and biological activity.
- Author
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Pettinari R, Marchetti F, Tombesi A, Duan F, Zhou L, Messori L, Giacomelli C, Marchetti L, Trincavelli ML, Marzo T, La Mendola D, Balducci G, and Alessio E
- Subjects
- Cell Survival, Coordination Complexes chemical synthesis, Crystallography, X-Ray, Humans, Models, Molecular, Neoplasms pathology, Tumor Cells, Cultured, Alkanes chemistry, Antineoplastic Agents chemical synthesis, Antineoplastic Agents pharmacology, Coordination Complexes pharmacology, Curcumin chemistry, Neoplasms drug therapy, Ruthenium chemistry, Sulfur Compounds chemistry
- Abstract
Two cationic ruthenium(II) 1,4,7-trithiacyclononane ([9]aneS
3 ) complexes of curcumin (curcH) and bisdemethoxycurcumin (bdcurcH), namely [Ru(curc)(dmso-S)([9]aneS3 )]Cl (1) and [Ru(bdcurc)(dmso-S)([9]aneS3 )]Cl (2) were prepared from the [RuCl2 (dmso-S)([9]-aneS3 )] precursor and structurally characterized, both in solution and in the solid state by X-ray crystallography. The corresponding PTA complexes [Ru(curc)(PTA)([9]aneS3 )]Cl (3) and [Ru(bdcurc)(PTA)([9]aneS3 )]Cl (4) have been also synthesized and characterized (PTA = 1,3,5-triaza-7-phosphaadamantane). Bioinorganic studies relying on mass spectrometry were performed on complexes 1-4 to assess their interactions with the model protein lysozyme. Overall, a rather limited reactivity with lysozyme was highlighted accompanied by a modest cytotoxic potency against three representative cancer cell lines. The moderate pharmacological activity is likely connected to the relatively high stability of these complexes., (Copyright © 2021 Elsevier Inc. All rights reserved.)- Published
- 2021
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5. The first step of arsenoplatin-1 aggregation in solution unveiled by solving the crystal structure of its protein adduct.
- Author
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Ferraro G, Cirri D, Marzo T, Pratesi A, Messori L, and Merlino A
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- Arsenic Trioxide chemistry, Cisplatin chemistry, Molecular Structure, Protein Binding, Solutions, Antineoplastic Agents chemistry, Arsenic Trioxide analogs & derivatives, Arsenites chemistry, Cisplatin analogs & derivatives, Coordination Complexes chemistry, Muramidase chemistry, Platinum chemistry
- Abstract
Arsenoplatin-1 (AP-1) is an innovative dual-action anticancer agent that contains a platinum(ii) center coordinated to an arsenous acid moiety. We found that AP-1 spontaneously aggregates in aqueous solutions generating oligomeric species of increasing length. Afterward, we succeeded in solving the crystal structure of the adduct formed between the model protein lysozyme and an early AP-1 oligomer that turned out to be a trimer. Remarkably, this crystal structure traps an early stage of AP-1 aggregation offering detailed insight into the molecular process of the oligomer's growth.
- Published
- 2021
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6. Platinum-based Anticancer Drugs: Unveiling Novel Mechanisms of Action of Conventional Metallodrugs for Improved Therapies.
- Author
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Marzo T, Messori L, and La Mendola D
- Subjects
- Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Coordination Complexes pharmacology, Coordination Complexes therapeutic use
- Published
- 2021
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7. Alkyne Functionalization of a Photoactivated Ruthenium Polypyridyl Complex for Click-Enabled Serum Albumin Interaction Studies.
- Author
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Busemann A, Araman C, Flaspohler I, Pratesi A, Zhou XQ, van Rixel VHS, Siegler MA, Messori L, van Kasteren SI, and Bonnet S
- Subjects
- Animals, Cattle, Click Chemistry, Coordination Complexes chemical synthesis, Crystallography, X-Ray, Models, Molecular, Molecular Conformation, Photosensitizing Agents chemical synthesis, Alkynes chemistry, Coordination Complexes chemistry, Photosensitizing Agents chemistry, Ruthenium chemistry, Serum Albumin, Bovine chemistry
- Abstract
Studying metal-protein interactions is key for understanding the fate of metallodrugs in biological systems. When a metal complex is not emissive and too weakly bound for mass spectrometry analysis, however, it may become challenging to study such interactions. In this work a synthetic procedure was developed for the alkyne functionalization of a photolabile ruthenium polypyridyl complex, [Ru(tpy)(bpy)(Hmte)](PF
6 )2 , where tpy = 2,2':6',2''-terpyridine, bpy = 2,2'-bipyridine, and Hmte = 2-(methylthio)ethanol. In the functionalized complex [Ru(HCC-tpy)(bpy)(Hmte)](PF6 )2 , where HCC-tpy = 4'-ethynyl-2,2':6',2''-terpyridine, the alkyne group can be used for bioorthogonal ligation to an azide-labeled fluorophore using copper-catalyzed "click" chemistry. We developed a gel-based click chemistry method to study the interaction between this ruthenium complex and bovine serum albumin (BSA). Our results demonstrate that visualization of the interaction between the metal complex and the protein is possible, even when this interaction is too weak to be studied by conventional means such as UV-vis spectroscopy or ESI mass spectrometry. In addition, the weak metal complex-protein interaction is controlled by visible light irradiation, i.e ., the complex and the protein do not interact in the dark, but they do interact via weak van der Waals interactions after light activation of the complex, which triggers photosubstitution of the Hmte ligand.- Published
- 2020
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8. Synthesis, DNA binding studies, and antiproliferative activity of novel Pt(II)-complexes with an L-alanyl-based ligand.
- Author
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Riccardi C, Capasso D, Rozza GM, Platella C, Montesarchio D, Di Gaetano S, Marzo T, Pratesi A, Messori L, Roviello GN, and Musumeci D
- Subjects
- Alanine analogs & derivatives, Alanine metabolism, Antineoplastic Agents chemical synthesis, Antineoplastic Agents metabolism, Cell Line, Tumor, Coordination Complexes chemical synthesis, Coordination Complexes metabolism, DNA genetics, Drug Screening Assays, Antitumor, G-Quadruplexes, Humans, Ligands, Platinum chemistry, Alanine pharmacology, Antineoplastic Agents pharmacology, Coordination Complexes pharmacology, DNA metabolism
- Abstract
An artificial alanine-based amino acid {(S)-2-amino-3-[4-propyl-3-(thiophen-2-yl)-5-thioxo-4,5-dihydro-1H-1,2,4-triazol-1-yl]propanoic acid, here named TioxAla}, bearing a substituted triazolyl-thione group on the side chain and able to bind RNA biomedical targets, was here chosen as a valuable scaffold for the synthesis of new platinum complexes with potential dual action owing to the concomitant presence of the metal centre and the amino acid moiety. Three new platinum complexes, obtained from the reaction of TioxAla with K
2 PtCl4 , were characterized by mass spectrometry, nuclear magnetic resonance and UV-vis spectroscopy: one compound (Pt1, bis-{(S)-2-amino-3-[4-propyl-3-(thiophen-2-yl)-5-thioxo-4,5-dihydro-1H-1,2,4-triazol-1-yl]propanoate-O,S} platinum(II)) consisted of two amino acid units coordinating the Pt(II) ion; the other two, Pt2 [potassium dichloro-{(S)-2-amino-3-[4-propyl-3-(thiophen-2-yl)-5-thioxo-4,5-dihydro-1H-1,2,4-triazol-1-yl]propanoate (O,S)} platinum(II)] and Pt3 [potassium dichloro-{(S)-2-amino-3-[4-propyl-3-(thiophen-2-yl)-5-thioxo-4,5-dihydro-1H-1,2,4-triazol-1-yl]propanoate (O,N)} platinum(II)], were isomers bearing one TioxAla unit, and two chlorides as Pt-ligands. Pt coordination involved preferentially the amino, carboxylic and thione functions of TioxAla. By preliminary antiproliferative assays, a moderate cytotoxic activity on cancer cells was observed only for Pt2 and Pt3, while no anticancer activity was found for both the chloride-free complex (Pt1) and TioxAla. This cytotoxicity, however lower than that of cisplatin, well correlated with the marked ability, here found only for Pt2 and Pt3 complexes, to bind DNA sequences either in random coil or in structured forms (duplex and G-quadruplex), as verified by spectroscopic and spectrometric analysis., (Copyright © 2019. Published by Elsevier Inc.)- Published
- 2020
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9. The leading established metal-based drugs: a revisitation of their relevant physico-chemical data.
- Author
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Cirri D, Fabbrini MG, Pratesi A, Ciofi L, Massai L, Marzo T, and Messori L
- Subjects
- Auranofin chemistry, Carboplatin chemistry, Cisplatin chemistry, Gold chemistry, Gold Sodium Thiomalate chemistry, Merbromin chemistry, Mercury chemistry, Oxaliplatin chemistry, Phenylmercury Compounds chemistry, Platinum chemistry, Ruthenium chemistry, Coordination Complexes chemistry
- Abstract
The study of metal-based drugs represents an important branch of modern bioinorganic chemistry. The growing importance of this field is linked to the large success in medicine of a few metal based drugs, either in clinical use or still experimental. Moreover, these metal-based drugs are frequently used as reference compounds to assess comparatively the behavior of newly synthesized metallodrugs. For the convenience of researchers working in this area we report here a compilation of the relevant analytical and spectroscopic data of ten representative metallodrugs based on Platinum, Ruthenium, Gold and Mercury. The selected compounds, namely Cisplatin, Oxaliplatin, Carboplatin, Auranofin, Sodium Aurothiomalate, NAMI-A, KP1019, Thimerosal, Merbromin and Phenylmercury Acetate, were chosen owing to their importance in the field. We believe that this compilation may turn very helpful to researchers as these data are difficult to find and generally scattered over a large number of (old) publications.
- Published
- 2019
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10. The electrochemical profiles of Auranofin and Aubipy c , two representative medicinal gold compounds: A comparative study.
- Author
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Kupiec M, Ziółkowski R, Massai L, Messori L, and Pawlak K
- Subjects
- 2,2'-Dipyridyl chemistry, Electrochemical Techniques, Oxidation-Reduction, Prodrugs chemistry, Spectrometry, Mass, Electrospray Ionization, 2,2'-Dipyridyl analogs & derivatives, Auranofin chemistry, Coordination Complexes chemistry, Gold chemistry, Organogold Compounds chemistry
- Abstract
A micro-electrochemical reaction cell was coupled to an electrospray mass spectrometer in order to track redox transformations for two representative medicinal gold compounds - i.e. [(2,3,4,6-tetra-O-acetyl-1-thio-β-D-glucopyranosato-S)(triethylphosphine)gold(I)] and [Au(bipy
dmb -H)(OH)][PF6 ] (where bipydmb -H is deprotonated 6-(1,1-dimethylbenzyl)-2,2'-bipyridine), known as Auranofin and Aubipyc respectively - in parallel to square wave voltammetry (SWV) measurements. Irreversible oxidation of thio-glucose tetraacetate was the dominant reaction for the gold(I) compound Auranofin; oxidation was accompanied by hydrolysis leading to progressive deacetylation. Two main active forms were identified for this prodrug: the triethylphosphinegold(I) cation and a gold(I) thioglucose species, with a variable number of acetyl groups. For the gold(III) complex Aubipyc irreversible reduction of the gold(III) center was highlighted, accompanied by a ligand exchange process. The free gold(I) ion is proposed to be the final species that subsequently binds transport proteins in the bloodstream. Molecule specific mass spectrometry determinations provide complementary data to square wave voltammetry helping to understand the nature of the electrochemical conversions of complex or unstable compounds. Finally, it was possible to establish that oxidizing conditions during drug preparation and administration should be avoided in the case of Auranofin; conversely, reduction conditions typical for the blood or the cytosol environment are suitable to obtain the active gold(I) species from the gold(III) complex Aubipyc ., (Copyright © 2019 Elsevier Inc. All rights reserved.)- Published
- 2019
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11. New platinum(II) and palladium(II) complexes with substituted terpyridine ligands: synthesis and characterization, cytotoxicity and reactivity towards biomolecules.
- Author
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Savić A, Marzo T, Scaletti F, Massai L, Bartoli G, Hoogenboom R, Messori L, Van Deun R, and Van Hecke K
- Subjects
- Antineoplastic Agents chemical synthesis, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Cell Line, Tumor, Cell Proliferation drug effects, Cisplatin chemistry, Cisplatin pharmacology, Coordination Complexes chemical synthesis, Coordination Complexes chemistry, Dose-Response Relationship, Drug, Drug Screening Assays, Antitumor, Humans, Molecular Structure, Palladium chemistry, Platinum chemistry, Pyridines chemistry, Structure-Activity Relationship, Coordination Complexes pharmacology, Palladium pharmacology, Palladium toxicity, Platinum pharmacology, Platinum toxicity, Pyridines pharmacology, Pyridines toxicity
- Abstract
A series of palladium(II) (1-3) and platinum(II) chloride complexes (4 and 5) with 2,2':6',2″-terpyridine (terpy) derivatives substituted at the 4' position, was synthesized and fully characterized. Single crystal X-ray diffraction analysis of complexes 2, 3 and 5 showed tridentate coordination of the 4'-substituted terpyridine (terpy) ligands to the metal center. Moreover, in vitro cytotoxic activity of these complexes toward a panel of human cancer cell lines (lung cancer A549, colorectal cancer HCT116, ovarian cancer IGROV-1) and toward normal cell line HDF (dermal fibroblast) was determined by Trypan Blue exclusion assay. Overall, the tested compounds manifested a relevant cytotoxicity for the selected cancer cell lines with complex 4 also showing a modest cytotoxicity on the normal cell lines. To better understand the mode of action of these metal complexes, their reactivity with three model proteins, i.e. hen egg white lysozyme (HEWL), cytochrome c (cyt c) and ribonuclease A (RNase A) were comparatively investigated through ESI-MS analysis. The results highlighted a different behavior between the two series of complexes being platinum compounds more reactive toward RNase and cyt c than palladium compounds. Based on the obtained results, it is proposed that in presence of RNase A and cyt c, the platinum complexes undergo activation through release of labile ligands followed by binding to the protein. In contrast, palladium complexes revealed a far lower reactivity implying the likely occurrence of a different mechanism of action.
- Published
- 2019
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12. Reaction with Proteins of a Five-Coordinate Platinum(II) Compound.
- Author
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Ferraro G, Marzo T, Cucciolito ME, Ruffo F, Messori L, and Merlino A
- Subjects
- Animals, Binding Sites, Cattle, Coordination Complexes chemistry, Crystallography, X-Ray, Mass Spectrometry, Models, Molecular, Muramidase chemistry, Protein Binding, Protein Conformation, Ribonuclease, Pancreatic chemistry, Coordination Complexes metabolism, Muramidase metabolism, Platinum chemistry, Ribonuclease, Pancreatic metabolism
- Abstract
Stable five-coordinate Pt(II) complexes have been highlighted as a promising and original platform for the development of new cytotoxic drugs. Their interaction with proteins has been scarcely studied. Here, the reactivity of the five-coordinate Pt(II) compound [Pt(I)(Me) (dmphen)(olefin)] (Me = methyl, dmphen = 2,9-dimethyl-1,10-phenanthroline, olefin = dimethylfumarate) with the model proteins hen egg white lysozyme (HEWL) and bovine pancreatic ribonuclease (RNase A) has been investigated by X-ray crystallography and electrospray ionization mass spectrometry. The X-ray structures of the adducts of RNase A and HEWL with [Pt(I)(Me)(dmphen)(olefin)] are not of very high quality, but overall data indicate that, upon reaction with RNase A, the compound coordinates the side chain of His105 upon releasing the iodide ligand, but retains the pentacoordination. On the contrary, upon reaction with HEWL, the trigonal bi-pyramidal Pt geometry is lost, the iodide and the olefin ligands are released, and the metal center coordinates the side chain of His15 probably adopting a nearly square-planar geometry. This work underlines the importance of the combined use of crystallographic and mass spectrometry techniques to characterize, in detail, the protein⁻metallodrug recognition process. Our findings also suggest that five-coordinate Pt(II) complexes can act either retaining their uncommon structure or functioning as prodrugs, i.e., releasing square-planar platinum complexes as bioactive species.
- Published
- 2019
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13. Auranofin and its Analogues Show Potent Antimicrobial Activity against Multidrug-Resistant Pathogens: Structure-Activity Relationships.
- Author
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Marzo T, Cirri D, Pollini S, Prato M, Fallani S, Cassetta MI, Novelli A, Rossolini GM, and Messori L
- Subjects
- Anti-Bacterial Agents chemical synthesis, Anti-Bacterial Agents chemistry, Antifungal Agents chemical synthesis, Antifungal Agents chemistry, Auranofin chemical synthesis, Auranofin chemistry, Candida albicans drug effects, Coordination Complexes chemical synthesis, Coordination Complexes chemistry, Drug Resistance, Multiple, Bacterial drug effects, Gold chemistry, Gram-Negative Bacteria drug effects, Gram-Positive Bacteria drug effects, Microbial Sensitivity Tests, Molecular Structure, Silver chemistry, Structure-Activity Relationship, Anti-Bacterial Agents pharmacology, Antifungal Agents pharmacology, Auranofin pharmacology, Coordination Complexes pharmacology
- Abstract
Due to the so-called "antibiotic resistance crisis" new antibacterial agents are urgently sought to treat multidrug-resistant pathogens. A group of gold- or silver-based complexes, of general formula [M(PEt
3 )X] (with M=Au or Ag, and X=Cl, Br or I), alongside with three complexes bearing a positive or negative charge-[Au(PEt3 )2 ]Cl, K[Au(CN)2 ] and [Ag(PEt3 )2 ]NO3 -were prepared and comparatively tested with auranofin on a representative panel of pathogens including Gram-positive, Gram-negative and Candida strains. Interestingly, all the gold and silver complexes tested were active on Gram-positive strains, with the gold complexes having greater efficacy. The effects of the gold compounds were potentiated to a larger extent than silver compounds when tested in combination with a permeabilizing agent. A number of relevant structure-activity relationships emerged from the comparative analysis of the observed antibacterial profiles, shedding new light on the underlying molecular mechanisms of the action of these compounds., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)- Published
- 2018
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14. Synthesis, characterization and DNA interactions of [Pt 3 (TPymT)Cl 3 ], the trinuclear platinum(II) complex of the TPymT ligand.
- Author
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Marzo T, Cirri D, Ciofi L, Gabbiani C, Feis A, Di Pasquale N, Stefanini M, Biver T, and Messori L
- Subjects
- Magnetic Resonance Spectroscopy, Mass Spectrometry, Antineoplastic Agents chemistry, Coordination Complexes chemistry, Organoplatinum Compounds chemistry, Platinum chemistry
- Abstract
The triplatinum complex of the 2,4,6-Tris(2-pyrimidyl)-1,3,5-triazine ligand, Pt
3 TPymT hereafter, has been prepared and characterized for the first time. NMR studies point out that the three platinum(II) centers possess an identical coordination environment. The interactions of Pt3 TPymT with DNA were explored in comparison to the free ligand. Specifically, fluorescence, mass spectrometry, viscometry and melting measurements were carried out. In contrast to expectations, the obtained data reveal that no intercalative binding takes place; we propose that binding of Pt3 TPymT to DNA mainly occurs through external/groove binding., (Copyright © 2018 Elsevier Inc. All rights reserved.)- Published
- 2018
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15. [Au(9-methylcaffein-8-ylidene) 2 ] + /DNA Tel23 System: Solution, Computational, and Biological Studies.
- Author
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Papi F, Bazzicalupi C, Ferraroni M, Massai L, Bertrand B, Gratteri P, Colangelo D, and Messori L
- Subjects
- Base Sequence, Binding Sites, Circular Dichroism, Coordination Complexes chemistry, DNA Adducts chemistry, Humans, Molecular Dynamics Simulation, Nucleic Acid Conformation, Telomerase antagonists & inhibitors, Telomerase metabolism, Telomere chemistry, Coordination Complexes metabolism, Gold chemistry, Telomere metabolism
- Abstract
Physicochemical methods have been used to investigate interactions occurring in solution between the dicarbene gold(I) complex [Au(9-methylcaffein-8-ylidene)
2 ]BF4 (AuNHC) and a human telomeric DNA sequence, namely Tel23. Circular dichroism measurements allow identification of the conformational changes experienced by Tel23 upon interaction with AuNHC, and the respective binding stoichiometries and constants were determined. Computational studies provide a good link between previous crystallographic results of the same system and the present solution data, offering an exhaustive description of the inherent noncovalent metallodrug-DNA interactions. Remarkably, we found that a preformed AuNHC/Tel23 adduct is capable of producing strong and selective inhibition of the enzyme telomerase. The latter feature is mechanistically relevant and might account for the conspicuous in vitro anticancer properties of the investigated dicarbene gold(I) complex., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)- Published
- 2017
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16. Water-soluble Ru(II)- and Ru(III)-halide-PTA complexes (PTA=1,3,5-triaza-7-phosphaadamantane): Chemical and biological properties.
- Author
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Battistin F, Scaletti F, Balducci G, Pillozzi S, Arcangeli A, Messori L, and Alessio E
- Subjects
- Adamantane chemistry, Antineoplastic Agents chemical synthesis, Bromides chemistry, Cell Line, Tumor, Cell Survival drug effects, Chlorides chemistry, Coordination Complexes chemical synthesis, Cytochromes c chemistry, Filaggrin Proteins, HCT116 Cells, Humans, Hydrogen-Ion Concentration, Imidazoles chemistry, Indazoles chemistry, Inhibitory Concentration 50, Ligands, Oligonucleotides chemistry, Organometallic Compounds chemical synthesis, Ribonuclease, Pancreatic chemistry, Solubility, Structure-Activity Relationship, Water chemistry, Adamantane analogs & derivatives, Antineoplastic Agents pharmacology, Coordination Complexes pharmacology, Organometallic Compounds pharmacology, Organophosphorus Compounds chemistry, Protons, Ruthenium chemistry
- Abstract
Four structurally related Ru(II)-halide-PTA complexes, of general formula trans- or cis-[Ru(PTA)4X2] (PTA=1,3,5-triaza-7-phosphaadamantane, X=Cl (1, 2), Br (3, 4), were prepared and characterized. Whereas compounds 1 and 2 are known, the corresponding bromo derivatives 3 and 4 are new. The Ru(III)-PTA compound trans-[RuCl4(PTAH)2]Cl (5, PTAH=PTA protonated at one N atom), structurally similar to the well-known Ru(III) anticancer drug candidates (Na)trans-[RuCl4(ind)2] (NKP-1339, ind=indazole) and (Him)trans-[RuCl4(dmso-S)(im)] (NAMI-A, im=imidazole), was also prepared and similarly investigated. Notably, the presence of PTA confers to all complexes an appreciable solubility in aqueous solutions at physiological pH. The chemical behavior of compounds 1-5 in water and in physiological buffer, their interactions with two model proteins - cytochrome c and ribonuclease A - as well as with a single strand oligonucleotide (5'-CGCGCG-3'), and their in vitro cytotoxicity against a human colon cancer cell line (HCT-116) and a myeloid leukemia (FLG 29.1) were investigated. Upon dissolution in the buffer, sequential halide replacement by water molecules was observed for complexes 1-4, with relatively slow kinetics, whereas the Ru(III) complex 5 is more inert. All tested compounds manifested moderate antiproliferative properties, the cis compounds 2 and 4 being slightly more active than the trans ones (1 and 3). Mass spectrometry experiments evidenced that all complexes exhibit a far higher reactivity towards the reference oligonucleotide than towards model proteins. The chemical and biological profiles of compounds 1-5 are compared to those of established ruthenium drug candidates in clinical development., (Copyright © 2016 Elsevier Inc. All rights reserved.)
- Published
- 2016
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17. Elucidating the reactivity of Pt(II) complexes with (O,S) bidentate ligands towards DNA model systems.
- Author
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Mügge C, Musumeci D, Michelucci E, Porru F, Marzo T, Massai L, Messori L, Weigand W, and Montesarchio D
- Subjects
- Antineoplastic Agents chemical synthesis, Binding Sites, Guanine chemistry, Ligands, Models, Chemical, Organoplatinum Compounds chemical synthesis, Spectrometry, Mass, Electrospray Ionization, Coordination Complexes chemical synthesis, G-Quadruplexes, Guanine analogs & derivatives, Oligodeoxyribonucleotides chemistry, Organoplatinum Compounds chemistry, Platinum chemistry
- Abstract
In the search for novel platinum-based anticancer therapeutic agents, we have recently established a structural motif of (O,S) bidentate ligands bound to a Pt(II) metal center which is effective against various cancer cell lines. Aiming at further enhancing the cytotoxicity of metal-based drugs, the identification of potential biological targets and elucidation of the mode of action of selected lead compounds is of utmost importance. Here we report our studies on the DNA interaction of three representative Pt(II) complexes of the investigated series, using various model systems and analytical techniques. In detail, CD spectroscopy as well as ESI-MS and MS(2) techniques were applied to gain an overall picture of the binding properties of this class of (O,S) bidentate Pt(II) compounds with defined oligonucleotide sequences in single strand, duplex or G-quadruplex form, as well as with the nucleobase 9-methylguanine. On the whole, it was demonstrated that the tested compounds interact with DNA and produce conformational changes of different extents depending on the sequence and structure of the examined oligonucleotide. Guanine was established as the preferential target within the DNA sequence, but in the absence or unavailability of guanines, alternative binding sites can be addressed. The implications of these results are thoroughly discussed., (Copyright © 2016 Elsevier Inc. All rights reserved.)
- Published
- 2016
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18. A first-in-class and a fished out anticancer platinum compound: cis-[PtCl2(NH3)2] and cis-[PtI2(NH3)2] compared for their reactivity towards DNA model systems.
- Author
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Musumeci D, Platella C, Riccardi C, Merlino A, Marzo T, Massai L, Messori L, and Montesarchio D
- Subjects
- Antineoplastic Agents chemistry, Cell Line, Tumor, Circular Dichroism, Cisplatin chemistry, Coordination Complexes chemistry, DNA chemistry, Humans, Isomerism, Spectrometry, Mass, Electrospray Ionization, Spectrophotometry, Ultraviolet, Transition Temperature, Antineoplastic Agents metabolism, Coordination Complexes metabolism, DNA metabolism, Platinum chemistry
- Abstract
Contrary to what was believed for many years, cis-PtI2(NH3)2, the diiodido analogue of cisplatin, displays high in vitro antiproliferative activity toward a set of tumour cell lines, overcoming resistance to cisplatin in a platinum-resistant cancer cell line. In the context of a general reappraisal of iodinated Pt(ii) derivatives, aiming at a more systematic evaluation of their chemical and biological profiles, here we report on the reactivity of cis-PtI2(NH3)2 with selected DNA model systems, in single, double strand or G-quadruplex form, using cisplatin as a control. A combined approach has been exploited in this study, including circular dichroism (CD), UV-visible spectroscopy and electrospray mass spectrometry (ESI-MS) analyses. The data reveal that cis-PtI2(NH3)2 shows an overall reactivity towards the investigated oligonucleotides significantly higher than cisplatin.
- Published
- 2016
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19. Cytotoxic properties of a new organometallic platinum(II) complex and its gold(I) heterobimetallic derivatives.
- Author
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Serratrice M, Maiore L, Zucca A, Stoccoro S, Landini I, Mini E, Massai L, Ferraro G, Merlino A, Messori L, and Cinellu MA
- Subjects
- Antineoplastic Agents chemical synthesis, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Binding Sites, Catalytic Domain, Cell Line, Tumor, Cell Proliferation drug effects, Cell Survival drug effects, Coordination Complexes chemical synthesis, Coordination Complexes pharmacology, Crystallography, X-Ray, Eosinophil Cationic Protein chemistry, Eosinophil Cationic Protein metabolism, Humans, Inhibitory Concentration 50, Molecular Dynamics Simulation, Spectrometry, Mass, Electrospray Ionization, Spectrophotometry, Ultraviolet, Coordination Complexes chemistry, Gold chemistry, Platinum chemistry
- Abstract
A novel platinum(ii) organometallic complex, [Pt(pbi)(Me)(DMSO)], bearing the 2-(2'-pyridyl)-benzimidazole (pbiH) ligand, was synthesized and fully characterized. Interestingly, the reaction of this organometallic platinum(ii) complex with two distinct gold(i) phosphane compounds afforded the corresponding heterobimetallic derivatives with the pbi ligand bridging the two metal centers. The antiproliferative properties in vitro of [Pt(pbi)(Me)(DMSO)] and its gold(i) derivatives as well as those of the known coordination platinum(ii) and palladium(ii) complexes with the same ligand, of the general formula [MCl2(pbiH)], were comparatively evaluated against A2780 cancer cells, either sensitive or resistant to cisplatin. A superior biological activity of the organometallic compound clearly emerged compared to the corresponding platinum(ii) complex; the antiproliferative effects are further enhanced upon attaching the gold(i) triphenylphosphine moiety to the organometallic Pt compound. Remarkably, these novel metal species are able to overcome nearly complete resistance to cisplatin. Significant mechanistic insight into the study compounds was gained after investigating their reactions with a few representative biomolecules by electrospray mass spectrometry and X-ray crystallography. The obtained results are comprehensively discussed.
- Published
- 2016
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20. Interaction of anticancer Ru(III) complexes with single stranded and duplex DNA model systems.
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Musumeci D, Rozza L, Merlino A, Paduano L, Marzo T, Massai L, Messori L, and Montesarchio D
- Subjects
- Base Sequence, DNA, Single-Stranded genetics, Oligodeoxyribonucleotides chemistry, Oligodeoxyribonucleotides genetics, Antineoplastic Agents chemistry, Coordination Complexes chemistry, DNA, Single-Stranded chemistry, Ruthenium chemistry
- Abstract
The interaction of the anticancer Ru(iii) complex AziRu - in comparison with its analogue NAMI-A, currently in advanced clinical trials as an antimetastatic agent - with DNA model systems, both single stranded and duplex oligonucleotides, was investigated using a combined approach, including absorption UV-vis spectroscopy, circular dichroism (CD) and electrospray mass spectrometry (ESI-MS) techniques. UV-vis absorption spectra of the Ru complexes were recorded at different times in a pseudo-physiological solution, to monitor the ligand exchange processes in the absence and in the presence of the examined oligonucleotides. CD experiments provided information on the overall conformational changes of the DNA model systems induced by these metal complexes. UV- and CD-monitored thermal denaturation studies were performed to analyse the effects of AziRu and NAMI-A on the stability of the duplex structures. ESI-MS experiments, carried out on the oligonucleotide/metal complex mixtures under investigation, allowed us to detect the formation of stable adducts between the guanine-containing oligomers and the ruthenium complexes. These data unambiguously demonstrate that both AziRu and NAMI-A can interact with the DNA model systems. Although very similar in their structures, the two metal compounds manifest a markedly different reactivity with the examined sequences, respectively, with either a naked Ru(3+) ion or a Ru(Im)(3+) (Im = imidazole) fragment being incorporated into the oligonucleotide structure via stable linkages.
- Published
- 2015
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21. Design, synthesis and characterisation of new chimeric ruthenium(II)-gold(I) complexes as improved cytotoxic agents.
- Author
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Massai L, Fernández-Gallardo J, Guerri A, Arcangeli A, Pillozzi S, Contel M, and Messori L
- Subjects
- Antineoplastic Agents pharmacology, Cathepsin B antagonists & inhibitors, Cathepsin B metabolism, Cell Survival drug effects, Coordination Complexes pharmacology, Crystallography, X-Ray, Cymenes, DNA metabolism, Gold pharmacology, Humans, Models, Molecular, Monoterpenes pharmacology, Neoplasms metabolism, Ruthenium pharmacology, Antineoplastic Agents chemistry, Coordination Complexes chemistry, Gold chemistry, Monoterpenes chemistry, Neoplasms drug therapy, Ruthenium chemistry
- Abstract
Two heterobimetallic complexes, i.e. [RuCl2(p-cymene)(μ-dppm)AuC] (1) and [RuCl2(p-cymene)(μ-dppm)Au(S-thiazoline)] (3), based on known cytotoxic [Ru(p-cymene)Cl2(PR3)] and [AuX(PR3)] (X = Cl, SR) molecular scaffolds, with the diphosphane linker 1,1-bis(diphenylphosphino)methane, dppm, were conveniently prepared and characterised. Remarkably, the new compounds manifested a more favourable in vitro pharmacological profile toward cancer cells than individual ruthenium and gold species being either more cytotoxic or more selective. The interactions of the studied compounds with (pBR322) DNA and their inhibitory effects on cathepsin B were also assessed. In addition, their reactivity toward suitable models of protein targets was explored and clear evidence gained for disruption of the bimetallic motif and for protein binding of monometallic fragments. Overall, the data reported here strongly support the concept of multifunctional heterometallic compounds as "improved" candidate agents for cancer treatment. The mechanistic and pharmacological implications of the present findings are discussed.
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- 2015
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22. Reactions of cytotoxic metallodrugs with lysozyme in pure DMSO explored through UV-Vis absorption spectroscopy and ESI MS.
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Marzo T, Savić A, Massai L, Michelucci E, Sabo TJ, Grguric-Šipka S, and Messori L
- Subjects
- Gold chemistry, Platinum chemistry, Ruthenium chemistry, Solutions, Solvents chemistry, Spectrometry, Mass, Electrospray Ionization, Spectrophotometry, Ultraviolet, Coordination Complexes chemistry, Dimethyl Sulfoxide chemistry, Muramidase chemistry
- Abstract
The reactions of four representative metallodrugs with the model protein HEWL were investigated within a non-aqueous environment-i.e. in pure DMSO- through UV-Vis absorption spectroscopy and ESI MS analysis. Notably, formation of a variety of metallodrug-protein adducts was clearly documented. This is the first example for this kind of protein metalation reactions carried out within a pure organic solvent. It is shown that the applied solution conditions greatly affect the nature of the formed adducts, this being well accounted for by the fact that the overall protein conformation is greatly perturbed within pure DMSO; in addition, the activation profiles of the studied metallodrugs are also highly dependent on the nature of the solvent. The implications of these results are discussed.
- Published
- 2015
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23. Interactions of selected gold(III) complexes with DNA G quadruplexes.
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Gratteri P, Massai L, Michelucci E, Rigo R, Messori L, Cinellu MA, Musetti C, Sissi C, and Bazzicalupi C
- Subjects
- Circular Dichroism, Coordination Complexes chemical synthesis, Humans, Nucleic Acid Conformation, Spectrometry, Mass, Electrospray Ionization, Surface Plasmon Resonance, Coordination Complexes chemistry, G-Quadruplexes, Gold chemistry
- Abstract
The interactions of three representative gold(III) complexes with human telomeric DNA sequences were analysed using a variety of biophysical methods, including DNA melting, circular dichroism, SPR and ESI MS; remarkable interactions were highlighted for all tested complexes, although they were associated to significantly different binding profiles. The most interesting compound was Auoxo6, a dinuclear gold(III) complex, which beyond manifesting a conspicuous binding affinity for the G-quadruplex conformation, turned out to be very effective in inducing a non-canonical secondary structure. These findings may clear the way for novel biological and pharmacological applications of this class of metal compounds.
- Published
- 2015
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24. Cytotoxic activity and protein binding through an unusual oxidative mechanism by an iridium(I)-NHC complex.
- Author
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Gothe Y, Marzo T, Messori L, and Metzler-Nolte N
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- Cell Proliferation drug effects, Cell Survival drug effects, Coordination Complexes pharmacology, Cytochromes c chemistry, HEK293 Cells, HT29 Cells, Heterocyclic Compounds pharmacology, Humans, Iridium pharmacology, MCF-7 Cells, Methane chemistry, Methane pharmacology, Muramidase chemistry, Oxidation-Reduction, Coordination Complexes chemistry, Heterocyclic Compounds chemistry, Iridium chemistry, Methane analogs & derivatives
- Abstract
A new NHC iridium(I) complex (1) showing significant antiproliferative properties in vitro is described here. Its crystal structure, solution behaviour and interactions with the model proteins cytochrome c (cyt c) and lysozyme were investigated. High resolution ESI-MS measurements suggest that this iridium(i) complex acts as a prodrug and binds cyt c tightly through an unusual "oxidative" mechanism. Eventually, an iridium(III)-NHC fragment is found associated to the protein.
- Published
- 2015
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25. Selected cytotoxic gold compounds cause significant inhibition of 20S proteasome catalytic activities.
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Micale N, Schirmeister T, Ettari R, Cinellu MA, Maiore L, Serratrice M, Gabbiani C, Massai L, and Messori L
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- Antineoplastic Agents chemical synthesis, Auranofin chemistry, Biocatalysis, Coordination Complexes chemical synthesis, Cytotoxins chemical synthesis, Humans, Inhibitory Concentration 50, Organogold Compounds chemical synthesis, Proteasome Inhibitors chemical synthesis, Structure-Activity Relationship, Antineoplastic Agents chemistry, Coordination Complexes chemistry, Cytotoxins chemistry, Organogold Compounds chemistry, Proteasome Endopeptidase Complex metabolism, Proteasome Inhibitors chemistry
- Abstract
Six structurally diverse cytotoxic gold compounds are reported to cause profound and differential inhibition of the three main catalytic activities of purified 20S proteasome whilst auranofin, an established gold(I) drug in clinical use, is nearly ineffective. In particular, the gold(I) complex [(pbiH)Au(PPh3)]PF6, turns out to be the most potent inhibitor of all three enzyme activities with sub-micromolar IC50 values. The present results further support the view that proteasome inhibition may play a major--yet not exclusive--role in the cytotoxic actions of gold based anticancer agents., (Copyright © 2014 Elsevier Inc. All rights reserved.)
- Published
- 2014
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26. Anticancer ruthenium(III) complex KP1019 interferes with ATP-dependent Ca2+ translocation by sarco-endoplasmic reticulum Ca2+-ATPase (SERCA).
- Author
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Sadafi FZ, Massai L, Bartolommei G, Moncelli MR, Messori L, and Tadini-Buoninsegni F
- Subjects
- Adenosine Triphosphate chemistry, Adenosine Triphosphate metabolism, Antineoplastic Agents metabolism, Calcium chemistry, Cisplatin chemistry, Cisplatin metabolism, Coordination Complexes metabolism, Cymenes, Dimethyl Sulfoxide analogs & derivatives, Dimethyl Sulfoxide chemistry, Dimethyl Sulfoxide metabolism, Indazoles metabolism, Organometallic Compounds metabolism, Protein Binding, Ruthenium Compounds, Sarcoplasmic Reticulum Calcium-Transporting ATPases metabolism, Antineoplastic Agents chemistry, Calcium metabolism, Coordination Complexes chemistry, Indazoles chemistry, Organometallic Compounds chemistry, Sarcoplasmic Reticulum Calcium-Transporting ATPases antagonists & inhibitors
- Abstract
Sarco-endoplasmic reticulum Ca2+-ATPase (SERCA), a P-type ATPase that sustains Ca2+ transport and plays a major role in intracellular Ca2+ homeostasis, represents a therapeutic target for cancer therapy. Here, we investigated whether ruthenium-based anticancer drugs, namely KP1019 (indazolium [trans-tetrachlorobis(1H-indazole)ruthenate(III)]), NAMI-A (imidazolium [trans-tetrachloro(1H-imidazole)(S-dimethylsulfoxide)ruthenate(III)]) and RAPTA-C ([Ru(η6-p-cymene)dichloro(1,3,5-triaza-7-phosphaadamantane)]), and cisplatin (cis-diammineplatinum(II) dichloride) might act as inhibitors of SERCA. Charge displacement by SERCA adsorbed on a solid-supported membrane was measured after ATP or Ca2+ concentration jumps. Our results show that KP1019, in contrast to the other metal compounds, is able to interfere with ATP-dependent translocation of Ca2+ ions. An IC50 value of 1 μM was determined for inhibition of calcium translocation by KP1019. Conversely, it appears that KP1019 does not significantly affect Ca2+ binding to the ATPase from the cytoplasmic side. Inhibition of SERCA at pharmacologically relevant concentrations may represent a crucial aspect in the overall pharmacological and toxicological profile of KP1019., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)
- Published
- 2014
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27. Insights on the mechanism of thioredoxin reductase inhibition by gold N-heterocyclic carbene compounds using the synthetic linear selenocysteine containing C-terminal peptide hTrxR(488-499): an ESI-MS investigation.
- Author
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Pratesi A, Gabbiani C, Michelucci E, Ginanneschi M, Papini AM, Rubbiani R, Ott I, and Messori L
- Subjects
- Amino Acid Sequence, Heterocyclic Compounds chemistry, Oligopeptides chemistry, Selenocysteine chemistry, Spectrometry, Mass, Electrospray Ionization, Thioredoxin-Disulfide Reductase antagonists & inhibitors, Coordination Complexes chemistry, Enzyme Inhibitors chemistry, Gold Compounds chemistry, Thioredoxin-Disulfide Reductase chemistry
- Abstract
Gold-based drugs typically behave as strong inhibitors of the enzyme thioredoxin reductase (hTrxR), possibly as the consequence of direct Gold(I) coordination to its active site selenocysteine. To gain a deeper insight into the molecular basis of enzyme inhibition and prove gold-selenocysteine coordination, the reactions of three parent Gold(I) NHC compounds with the synthetic C-terminal dodecapeptide of hTrxR containing Selenocysteine at position 498, were investigated by electrospray ionization mass spectrometry (ESI-MS). Formation of 1:1 Gold-peptide adducts, though in highly different amounts, was demonstrated in all cases. In these adducts the same [Au-NHC](+) moiety is always associated to the intact peptide. Afterward, tandem MS experiments, conducted on a specific Gold-peptide complex, pointed out that Gold is coordinated to the selenolate group. The relatively large strength of the Gold-selenolate coordinative bond well accounts for potent enzyme inhibition typically afforded by these Gold(I) compounds. In a selected case, the time course of enzyme inhibition was explored. Interestingly, enzyme inhibition turned out to show up very quickly and reached its maximum just few minutes after mixing. Overall, the present results offer some clear insight into the process of thioredoxin reductase inhibition by Gold-based compounds., (Copyright © 2014 Elsevier Inc. All rights reserved.)
- Published
- 2014
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28. Synthesis, spectroscopic and DFT structural characterization of two novel ruthenium(III) oxicam complexes. In vivo evaluation of anti-inflammatory and gastric damaging activities.
- Author
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Tamasi G, Bernini C, Corbini G, Owens NF, Messori L, Scaletti F, Massai L, Giudice PL, and Cini R
- Subjects
- Animals, Anti-Inflammatory Agents, Non-Steroidal chemical synthesis, Anti-Inflammatory Agents, Non-Steroidal chemistry, Cell Line, Tumor, Cell Survival drug effects, Coordination Complexes chemical synthesis, Coordination Complexes chemistry, Cytochromes c chemistry, Drug Stability, Hindlimb, Humans, Ligands, Male, Muramidase chemistry, Protein Binding, Quantum Theory, Rats, Rats, Wistar, Serum Albumin chemistry, Solubility, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Coordination Complexes pharmacology, Edema drug therapy, Piroxicam analogs & derivatives, Piroxicam chemistry, Ruthenium Compounds chemistry
- Abstract
The reactions of ruthenium(III) chloride trihydrate with piroxicam (H2PIR) and tenoxicam (H2TEN), two widely used non-steroidal anti-inflammatory drugs, afforded [Ru(III)Cl2(H2PIR)(HPIR)],·1, and [Ru(III)Cl2(H2TEN)(HTEN)],·2. Both compounds were obtained as pure green solids through purification via flash column chromatography. Characterizations were accomplished through UV-vis and IR spectroscopy, potentiometry and HPLC. Quantum mechanics and density functional computational methods were applied to investigate their respective molecular structures. The experimental and computational results are in agreement with a pseudo-octahedral coordination where the two chlorido ligands are in trans positions (apical) and the two trans-N,O chelating oxicam ligands occupy the equatorial sites. Both compounds revealed an acceptable solubility and stability profile upon dissolution in a standard buffer at physiological pH. Nonetheless, the addition of biologically occurring reducing agents caused spectral changes. The two complexes manifested a poor reactivity with the model proteins cytochrome c and lysozyme: no evidence for adduct formation was indeed obtained based on a standard ESI MS analysis; in contrast, some significant reactivity with serum albumin was proved spectrophotometrically. Remarkably, both study compounds revealed pronounced anti-edema effects in vivo suggesting that the pharmacological actions of the ligands are mostly retained; in addition, they were less irritating than piroxicam on the gastric mucosa when the coordination compounds and free oxicam were administered at the same overall molar concentration of the ligand. Overall, the present results point out that ruthenium coordination may represent an effective strategy to improve the pharmacological properties of oxicam drugs reducing their undesired side effects., (Copyright © 2014 Elsevier Inc. All rights reserved.)
- Published
- 2014
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29. Chemistry and biology of two novel gold(I) carbene complexes as prospective anticancer agents.
- Author
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Messori L, Marchetti L, Massai L, Scaletti F, Guerri A, Landini I, Nobili S, Perrone G, Mini E, Leoni P, Pasquali M, and Gabbiani C
- Subjects
- Antineoplastic Agents chemical synthesis, Antineoplastic Agents pharmacology, Cell Line, Tumor, Cell Proliferation drug effects, Coordination Complexes chemical synthesis, Coordination Complexes pharmacology, Female, Humans, Methane chemistry, Molecular Structure, Ovarian Neoplasms drug therapy, Antineoplastic Agents chemistry, Coordination Complexes chemistry, Gold chemistry, Methane analogs & derivatives
- Abstract
Two novel gold carbene compounds, namely, chlorido (1-butyl-3-methyl-imidazole-2-ylidene) gold(I) (1) and bis(1-butyl-3-methyl-imidazole-2-ylidene) gold(I) (2), were prepared and characterized as prospective anticancer drug candidates. These compounds consist of a gold(I) center linearly coordinated either to one N-heterocyclic carbene (NHC) and one chloride ligand (1) or to two identical NHC ligands (2). Crystal structures were solved for both compounds, the resulting structural data being in good agreement with expectations. We wondered whether the presence of two tight carbene ligands in 2 might lead to biological properties distinct from those of the monocarbene complex 1. Notably, in spite of their appreciable structural differences, these two compounds manifested similarly potent cytotoxic actions in vitro when challenged against A2780 human ovarian carcinoma cells. In addition, both were able to overcome resistance to cisplatin in the A2780R line. Solution studies revealed that these gold carbene complexes are highly stable in aqueous buffers at physiological pH. Their reactivity with proteins was explored: no adduct formation was detected even upon a long incubation with the model proteins cytochrome c and lysozyme; in contrast, both compounds were able to metalate, to a large extent, the copper chaperone Atox-1, bearing a characteristic CXXC motif. The precise nature of the resulting gold-Atox-1 adducts was elucidated through ESI-MS analysis. On the basis of these findings, it is proposed that the investigated gold(I) carbene compounds are promising antiproliferative agents warranting a wider pharmacological evaluation. Most likely these gold compounds produce their potent biological effects through selective metalation and impairment of a few crucial cellular proteins.
- Published
- 2014
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30. Novel platinum(II) compounds with O,S bidentate ligands: synthesis, characterization, antiproliferative properties and biomolecular interactions.
- Author
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Mügge C, Liu R, Görls H, Gabbiani C, Michelucci E, Rüdiger N, Clement JH, Messori L, and Weigand W
- Subjects
- Antineoplastic Agents chemistry, Antineoplastic Agents toxicity, Apoptosis drug effects, Caspase 3 metabolism, Caspase 7 metabolism, Cell Line, Tumor, Coordination Complexes chemistry, Coordination Complexes toxicity, Crystallography, X-Ray, Cytochromes c chemistry, Cytochromes c metabolism, Dimethyl Sulfoxide chemistry, Humans, Ligands, Molecular Conformation, Muramidase chemistry, Muramidase metabolism, Oxygen chemistry, Serum Albumin chemistry, Serum Albumin metabolism, Structure-Activity Relationship, Sulfur chemistry, Antineoplastic Agents chemical synthesis, Coordination Complexes chemical synthesis, Platinum chemistry
- Abstract
Cisplatin and its analogues are first-line chemotherapeutic agents for the treatment of numerous human cancers. A major inconvenience in their clinical use is their strong tendency to link to sulfur compounds, especially in kidney, ultimately leading to severe nephrotoxicity. To overcome this drawback we prepared a variety of platinum complexes with sulfur ligands and analyzed their biological profiles. Here, a series of six platinum(II) compounds bearing a conserved O,S binding moiety have been synthesized and characterized as experimental anticancer agents. The six compounds differ in the nature of the O,S bidentate β-hydroxydithiocinnamic alkyl ester ligand where both the substituents on the aromatic ring and the length of the alkyl chain may be varied. The two remaining coordination positions at the square-planar platinum(II) center are occupied by a chloride ion and a DMSO molecule. These novel platinum compounds showed an acceptable solubility profile in mixed DMSO-buffer solutions and an appreciable stability at physiological pH as judged from analysis of their time-course UV-visible absorption spectra. Their anti-proliferative and pro-apoptotic activities were tested against the cisplatin-resistant lung cancer cell line A549. Assays revealed significant effects of the sample drugs at low concentrations (in the μmolar range); initial structure-activity-relationships are proposed. The activity of the apoptosis-promoting protein caspase 3/7 was determined; results proved that these novel platinum compounds, under the chosen experimental conditions, preferentially induce apoptosis over necrosis. Reactions with the model proteins cytochrome c, lysozyme and albumin were studied by ESI MS and ICP-OES to gain preliminary mechanistic information. The tested compounds turned out to metalate the mentioned proteins to a large extent. In view of the obtained results these novel platinum complexes qualify themselves as promising cytotoxic agents and merit, in our opinion, a deeper pharmacological evaluation as prospective anticancer agents.
- Published
- 2014
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31. Metal-based compounds as prospective antileishmanial agents: inhibition of trypanothione reductase by selected gold complexes.
- Author
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Colotti G, Ilari A, Fiorillo A, Baiocco P, Cinellu MA, Maiore L, Scaletti F, Gabbiani C, and Messori L
- Subjects
- Antiprotozoal Agents chemical synthesis, Antiprotozoal Agents pharmacology, Catalytic Domain, Coordination Complexes chemical synthesis, Coordination Complexes pharmacology, Crystallography, X-Ray, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors pharmacology, Kinetics, Leishmania drug effects, Leishmania enzymology, Molecular Docking Simulation, NADH, NADPH Oxidoreductases metabolism, Protein Binding, Antiprotozoal Agents chemistry, Coordination Complexes chemistry, Enzyme Inhibitors chemistry, Gold chemistry, NADH, NADPH Oxidoreductases antagonists & inhibitors
- Abstract
Picking a fight with parasites! Trypanothione reductase (TR) is a validated drug target for the development of antileishmanial agents. A group of structurally diverse gold-containing compounds was evaluated in vitro for TR inhibition. A number of compounds exhibited potent activity and deserve further pharmacological evaluation., (Copyright © 2013 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim.)
- Published
- 2013
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32. Selected gold compounds cause pronounced inhibition of Falcipain 2 and effectively block P. falciparum growth in vitro.
- Author
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Micale N, Cinellu MA, Maiore L, Sannella AR, Severini C, Schirmeister T, Gabbiani C, and Messori L
- Subjects
- Culture Techniques, Cysteine Endopeptidases chemistry, Inhibitory Concentration 50, Plasmodium falciparum drug effects, Plasmodium falciparum growth & development, Antimalarials pharmacology, Coordination Complexes pharmacology, Cysteine Endopeptidases metabolism, Cysteine Proteinase Inhibitors pharmacology, Gold, Plasmodium falciparum enzymology
- Abstract
A number of structurally diverse gold compounds were evaluated as possible inhibitors of Falcipain 2 (Fp2), a cysteine protease from P. falciparum that is a validated target for the development of novel antimalarial drugs. Remarkably, most tested compounds caused pronounced but reversible inhibition of Fp2 with K(i) values falling in the micromolar range. Enzyme inhibition is basically ascribed to gold binding to catalytic active site cysteine. The same gold compounds were then tested for their ability to inhibit P. falciparum growth in vitro; important parasite growth inhibition was indeed observed. However, careful analysis of the two sets of data failed to establish any direct correlation between enzyme inhibition and reduction of P. falciparum growth suggesting that Fp2 inhibition represents just one of the various mechanisms through which gold compounds effectively antagonize P. falciparum replication., (Copyright © 2011 Elsevier Inc. All rights reserved.)
- Published
- 2011
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33. The first step of arsenoplatin-1 aggregation in solution unveiled by solving the crystal structure of its protein adduct
- Author
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Giarita Ferraro, Alessandro Pratesi, Damiano Cirri, Luigi Messori, Antonello Merlino, Tiziano Marzo, Ferraro, G., Cirri, D., Marzo, T., Pratesi, A., Messori, L., and Merlino, A.
- Subjects
Aqueous solution ,Molecular Structure ,Arsenites ,chemistry.chemical_element ,Antineoplastic Agents ,Trimer ,Crystal structure ,Oligomer ,Adduct ,Solutions ,Inorganic Chemistry ,chemistry.chemical_compound ,Crystallography ,Arsenic Trioxide ,chemistry ,Coordination Complexes ,Moiety ,Muramidase ,Cisplatin ,Lysozyme ,Platinum ,Protein Binding - Abstract
Arsenoplatin-1 (AP-1) is an innovative dual-action anticancer agent that contains a platinum(ii) center coordinated to an arsenous acid moiety. We found that AP-1 spontaneously aggregates in aqueous solutions generating oligomeric species of increasing length. Afterward, we succeeded in solving the crystal structure of the adduct formed between the model protein lysozyme and an early AP-1 oligomer that turned out to be a trimer. Remarkably, this crystal structure traps an early stage of AP-1 aggregation offering detailed insight into the molecular process of the oligomer's growth.
- Published
- 2021
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34. The effects of two gold-N-heterocyclic carbene (NHC) complexes in ovarian cancer cells: a redox proteomic study
- Author
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Lara Massai, Luigi Messori, Andrea Carpentieri, Angela Amoresano, Chiara Melchiorre, Tania Fiaschi, Alessandra Modesti, Tania Gamberi, Francesca Magherini, Massai, L., Messori, L., Carpentieri, A., Amoresano, A., Melchiorre, C., Fiaschi, T., Modesti, A., Gamberi, T., and Magherini, F.
- Subjects
Pharmacology ,Ovarian Neoplasms ,Proteomics ,Cancer Research ,Redox proteomic ,Antineoplastic Agents ,Carbene complexe ,Carcinoma, Ovarian Epithelial ,Toxicology ,Gold Compounds ,Oncology ,Coordination Complexes ,Ovarian cancer ,Cell Line, Tumor ,Humans ,Pharmacology (medical) ,Female ,Gold ,Methane ,Oxidation-Reduction ,Gold drug - Abstract
Purpose Ovarian cancer is the fifth leading cause of cancer-related deaths in women. Standard treatment consists of tumor debulking surgery followed by platinum and paclitaxel chemotherapy; yet, despite the initial response, about 70–75% of patients develop resistance to chemotherapy. Gold compounds represent a family of very promising anticancer drugs. Among them, we previously investigated the cytotoxic and pro-apoptotic properties of Au(NHC) and Au(NHC)2PF6, i.e., a monocarbene gold(I) complex and the corresponding bis(carbene) complex. Gold compounds are known to alter the redox state of cells interacting with free cysteine and selenocysteine residues of several proteins. Herein, a redox proteomic study has been carried out to elucidate the mechanisms of cytotoxicity in A2780 human ovarian cancer cells. Methods A biotinylated iodoacetamide labeling method coupled with mass spectrometry was used to identify oxidation-sensitive protein cysteines. Results Gold carbene complexes cause extensive oxidation of several cellular proteins; many affected proteins belong to two major functional classes: carbohydrate metabolism, and cytoskeleton organization/cell adhesion. Among the affected proteins, Glyceraldehyde-3-phosphate dehydrogenase inhibition was proved by enzymatic assays and by ESI–MS studies. We also found that Au(NHC)2PF6 inhibits mitochondrial respiration impairing complex I function. Concerning the oxidized cytoskeletal proteins, gold binding to the free cysteines of actin was demonstrated by ESI–MS analysis. Notably, both gold compounds affected cell migration and invasion. Conclusions In this study, we deepened the mode of action of Au(NHC) and Au(NHC)2PF6, identifying common cellular targets but confirming their different influence on the mitochondrial function.
- Published
- 2022
35. Reactions with Proteins of Three Novel Anticancer Platinum(II) Complexes Bearing N-Heterocyclic Ligands
- Author
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Giarita Ferraro, Francesca Sacco, Antonello Merlino, Lara Massai, Giorgio Facchetti, Matteo Tarchi, Isabella Rimoldi, Luigi Messori, Sacco, F., Tarchi, M., Ferraro, G., Merlino, A., Facchetti, G., Rimoldi, I., Messori, L., and Massai, L.
- Subjects
Models, Molecular ,Horse ,Crystallography, X-Ray ,Ligands ,Antineoplastic Agent ,Coordination Complexes ,Biology (General) ,Spectroscopy ,mass spectrometry ,biology ,Coordination Complexe ,Crystallography ,Mass spectrometry ,Platinum complexes ,Cytochrome c ,Cytochromes c ,General Medicine ,Human serum albumin ,Computer Science Applications ,Chemistry ,medicine.drug ,Human ,Protein Binding ,Platinum complexe ,Spectrometry, Mass, Electrospray Ionization ,RNase P ,Stereochemistry ,Protein Domain ,QH301-705.5 ,chemistry.chemical_element ,Ligand ,Antineoplastic Agents ,Bovine pancreatic ribonuclease ,Catalysis ,Article ,Adduct ,Inorganic Chemistry ,Protein Domains ,medicine ,Animals ,Humans ,Reactivity (chemistry) ,Horses ,Physical and Theoretical Chemistry ,Binding site ,crystallography ,Molecular Biology ,QD1-999 ,Platinum ,Binding Sites ,Animal ,Organic Chemistry ,Binding Site ,Ribonuclease, Pancreatic ,chemistry ,biology.protein ,Cattle ,Muramidase ,platinum complexes - Abstract
Three novel platinum(II) complexes bearing N-heterocyclic ligands, i.e., Pt2c, Pt-IV and Pt-VIII, were previously prepared and characterized. They manifested promising in vitro anticancer properties associated with non-conventional modes of action. To gain further mechanistic insight, we have explored here the reactions of these Pt compounds with a few model proteins, i.e., hen egg white lysozyme (HEWL), bovine pancreatic ribonuclease (RNase A), horse heart cytochrome c (Cyt-c) and human serum albumin (HSA), primarily through ESI MS analysis. Characteristic and variegate patterns of reactivity were highlighted in the various cases that appear to depend both on the nature of the Pt complex and of the interacting protein. The protein-bound Pt fragments were identified. In the case of the complex Pt2c, the adducts formed upon reaction with HEWL and RNase A were further characterized by solving the respective crystal structures: this allowed us to determine the exact location of the various Pt binding sites. The implications of the obtained results are discussed in relation to the possible mechanisms of action of these innovative anticancer Pt complexes.
- Published
- 2021
36. Synthesis, DNA binding studies, and antiproliferative activity of novel Pt(II)-complexes with an L-alanyl-based ligand
- Author
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Domenica Capasso, Luigi Messori, Daniela Montesarchio, Tiziano Marzo, Chiara Platella, Claudia Riccardi, Domenica Musumeci, Alessandro Pratesi, Giovanna M. Rozza, Sonia Di Gaetano, Giovanni N. Roviello, Riccardi, C., Capasso, D., Rozza, G. M., Platella, C., Montesarchio, D., Di Gaetano, S., Marzo, T., Pratesi, A., Messori, L., Roviello, G. N., and Musumeci, D.
- Subjects
Stereochemistry ,ESI-MS spectrometry ,chemistry.chemical_element ,Antineoplastic Agents ,010402 general chemistry ,Ligands ,01 natural sciences ,Biochemistry ,Inorganic Chemistry ,Metal ,chemistry.chemical_compound ,NMR spectroscopy ,Coordination Complexes ,Cell Line, Tumor ,Side chain ,Moiety ,Humans ,DNA binding ,Platinum ,chemistry.chemical_classification ,Alanine ,010405 organic chemistry ,CD spectroscopy ,Nuclear magnetic resonance spectroscopy ,DNA ,0104 chemical sciences ,Amino acid ,G-Quadruplexes ,Pt(II)-complexes ,Triazolyl-thione L-alanine ligand ,Propanoic acid ,chemistry ,visual_art ,triazolyl-thione L-alanine ligand ,visual_art.visual_art_medium ,Drug Screening Assays, Antitumor ,Pt(II)-complexe - Abstract
An artificial alanine-based amino acid {(S)-2-amino-3-[4-propyl-3-(thiophen-2-yl)-5-thioxo-4,5-dihydro-1H-1,2,4-triazol-1-yl]propanoic acid, here named TioxAla}, bearing a substituted triazolyl-thione group on the side chain and able to bind RNA biomedical targets, was here chosen as a valuable scaffold for the synthesis of new platinum complexes with potential dual action owing to the concomitant presence of the metal centre and the amino acid moiety. Three new platinum complexes, obtained from the reaction of TioxAla with K2PtCl4, were characterized by mass spectrometry, nuclear magnetic resonance and UV–vis spectroscopy: one compound (Pt1, bis-{(S)-2-amino-3-[4-propyl-3-(thiophen-2-yl)-5-thioxo-4,5-dihydro-1H-1,2,4-triazol-1-yl]propanoate-O,S} platinum(II)) consisted of two amino acid units coordinating the Pt(II) ion; the other two, Pt2 [potassium dichloro-{(S)-2-amino-3-[4-propyl-3-(thiophen-2-yl)-5-thioxo-4,5-dihydro-1H-1,2,4-triazol-1-yl]propanoate (O,S)} platinum(II)] and Pt3 [potassium dichloro-{(S)-2-amino-3-[4-propyl-3-(thiophen-2-yl)-5-thioxo-4,5-dihydro-1H-1,2,4-triazol-1-yl]propanoate (O,N)} platinum(II)], were isomers bearing one TioxAla unit, and two chlorides as Pt-ligands. Pt coordination involved preferentially the amino, carboxylic and thione functions of TioxAla. By preliminary antiproliferative assays, a moderate cytotoxic activity on cancer cells was observed only for Pt2 and Pt3, while no anticancer activity was found for both the chloride-free complex (Pt1) and TioxAla. This cytotoxicity, however lower than that of cisplatin, well correlated with the marked ability, here found only for Pt2 and Pt3 complexes, to bind DNA sequences either in random coil or in structured forms (duplex and G-quadruplex), as verified by spectroscopic and spectrometric analysis.
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- 2019
37. Water-soluble Ru(II)- and Ru(III)-halide-PTA complexes (PTA=1,3,5-triaza-7-phosphaadamantane): Chemical and biological properties
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Federica Scaletti, Enzo Alessio, Serena Pillozzi, Luigi Messori, Gianni Balducci, Federica Battistin, Annarosa Arcangeli, Battistin, Federica, Scaletti, F., Balducci, Gabriele, Pillozzi, S., Arcangeli, A., Messori, L, and Alessio, Enzo
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Ruthenium complexes ,Oligonucleotides ,Adamantane ,Filaggrin Proteins ,Ligands ,01 natural sciences ,Medicinal chemistry ,Biochemistry ,chemistry.chemical_compound ,Coordination Complexes ,Oligonucleotide interaction ,Imidazole ,Solubility ,Aqueous solution ,Chemistry ,Protein interaction ,Imidazoles ,Cytochromes c ,Hydrogen-Ion Concentration ,Ruthenium ,PTA ,Protons ,Bromides ,Indazoles ,Stereochemistry ,Cell Survival ,chemistry.chemical_element ,Protonation ,Antineoplastic Agents ,010402 general chemistry ,Inorganic Chemistry ,Inhibitory Concentration 50 ,Structure-Activity Relationship ,Organophosphorus Compounds ,Chlorides ,Cell Line, Tumor ,Organometallic Compounds ,Molecule ,Humans ,Reactivity (chemistry) ,Indazole ,010405 organic chemistry ,In vitro antiproliferative activity ,Ruthenium complexe ,Water ,Ribonuclease, Pancreatic ,HCT116 Cells ,0104 chemical sciences - Abstract
Four structurally related Ru(II)-halide-PTA complexes, of general formula trans- or cis-[Ru(PTA)4X2] (PTA = 1,3,5-triaza-7-phosphaadamantane, X = Cl (1, 2), Br (3, 4), were prepared and characterized. Whereas compounds 1 and 2 are known, the corresponding bromo derivatives 3 and 4 are new. The Ru(III)-PTA compound trans-[RuCl4(PTAH)2]Cl (5, PTAH = PTA protonated at one N atom), structurally similar to the well-known Ru(III) anticancer drug candidates (Na)trans-[RuCl4(ind)2] (NKP-1339, ind = indazole) and (Him)trans-[RuCl4(dmso-S)(im)] (NAMI-A, im = imidazole), was also prepared and similarly investigated. Notably, the presence of PTA confers to all complexes an appreciable solubility in aqueous solutions at physiological pH. The chemical behavior of compounds 1–5 in water and in physiological buffer, their interactions with two model proteins – cytochrome c and ribonuclease A – as well as with a single strand oligonucleotide (5′-CGCGCG-3′), and their in vitro cytotoxicity against a human colon cancer cell line (HCT-116) and a myeloid leukemia (FLG 29.1) were investigated. Upon dissolution in the buffer, sequential halide replacement by water molecules was observed for complexes 1–4, with relatively slow kinetics, whereas the Ru(III) complex 5 is more inert. All tested compounds manifested moderate antiproliferative properties, the cis compounds 2 and 4 being slightly more active than the trans ones (1 and 3). Mass spectrometry experiments evidenced that all complexes exhibit a far higher reactivity towards the reference oligonucleotide than towards model proteins. The chemical and biological profiles of compounds 1–5 are compared to those of established ruthenium drug candidates in clinical development.
- Published
- 2016
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