Your search keyword '"Corinti D"' showing total 42 results

1. Protonated Forms of Naringenin and Naringenin Chalcone: Proteiform Bioactive Species Elucidated by IRMPD Spectroscopy, IMS, CID-MS, and Computational Approaches

Author

Corinti, D., Rotari, Lucretia, Crestoni, M.E., Fornarini, Simonetta, Oomens, J., Berden, G., Tintaru, Aura, Chiavarino, Barbara, Corinti, D., Rotari, Lucretia, Crestoni, M.E., Fornarini, Simonetta, Oomens, J., Berden, G., Tintaru, Aura, and Chiavarino, Barbara

Abstract

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Published

2023

2. Binding Modes of a Cytotoxic Dinuclear Copper(II) Complex with Phosphate Ligands Probed by Vibrational Photodissociation Ion Spectroscopy

Author

Giampa, Marco, Corinti, D., Maccelli, Alessandro, Fornarini, Simonetta, Berden, G., Oomens, J., Glaser, Thorsten, Crestoni, M.E., Giampa, Marco, Corinti, D., Maccelli, Alessandro, Fornarini, Simonetta, Berden, G., Oomens, J., Glaser, Thorsten, and Crestoni, M.E.

Abstract

Item does not contain fulltext

Published

2023

3. Amino Acids as Chelating Ligands for Platinum: Enhanced Stability in an Aqueous Environment Promoted by Biocompatible Molecules

Author

Cucchiaro, A., Scherfler, A., Corinti, D., Berden, G., Oomens, J., Wurst, K., Gust, R., Crestoni, M.E., Kircher, B., Cziferszky, M., Cucchiaro, A., Scherfler, A., Corinti, D., Berden, G., Oomens, J., Wurst, K., Gust, R., Crestoni, M.E., Kircher, B., and Cziferszky, M.

Abstract

Item does not contain fulltext, 13 p.

Published

2023

4. Reactivity of Indolylmethylacetates with N, O, and S Soft Nucleophiles: Evidence of 2-Alkylideneindolenines and 3-Alkylideneindoleninium Generation by ESI-MS and IRMPD Spectroscopy

Author

Arcadi, A., Berden, G., Ciogli, A., Corinti, D., Crestoni, M.E., Angelis, M. Hrabe de, Fabrizi, G., Goggiamani, A., Iazzetti, A., Marrone, F., Marsicano, V., Oomens, J., Serraiocco, A., Arcadi, A., Berden, G., Ciogli, A., Corinti, D., Crestoni, M.E., Angelis, M. Hrabe de, Fabrizi, G., Goggiamani, A., Iazzetti, A., Marrone, F., Marsicano, V., Oomens, J., and Serraiocco, A.

Abstract

Contains fulltext : 284404.pdf (Publisher’s version ) (Closed access)

Published

2022

5. Reactivity of Indolylmethylacetates with N, O, and S Soft Nucleophiles: Evidence of 2-Alkylideneindolenines and 3-Alkylideneindoleninium Generation by ESI-MS and IRMPD Spectroscopy

Author

Arcadi, A, Berden, G, Ciogli, A, Corinti, D, Crestoni, Me, De Angelis, M, Fabrizi, G, Goggiamani, A, Iazzetti, Antonia, Marrone, F, Marsicano, V, Oomens, J, Serraiocco, A, Iazzetti, A (ORCID:0000-0002-7792-774X), Arcadi, A, Berden, G, Ciogli, A, Corinti, D, Crestoni, Me, De Angelis, M, Fabrizi, G, Goggiamani, A, Iazzetti, Antonia, Marrone, F, Marsicano, V, Oomens, J, Serraiocco, A, and Iazzetti, A (ORCID:0000-0002-7792-774X)

Abstract

The synthesis of (aminomethyl), (tosylmethyl), and (aryloxymethyl) indoles starting from indolylmethylacetates and N, O, and S soft nucleophiles has been developed. ESI-MS and IR multiple-photon dissociation (IRMPD) spectroscopy analyses confirm the reaction proceeds through a conjugate addition of the nucleophile to 2-alkylideneindolenines and 3-alkylideneindoleninium.

Published

2022

6. IRMPD action spectroscopy of bare deprotonated genistein, a natural antioxidant isoflavone

Author

Paciotti, R., Chiavarino, B., Coletti, C., Scuderi, D., Re, N., Corinti, D., Rotari, L., Fornarini, S., and Crestoni, M. E.

Published

2022

7. Design and Synthesis of Piperazine-Based Compounds Conjugated to Humanized Ferritin as Delivery System of siRNA in Cancer Cells

Author

Pediconi, N., Ghirga, F., Del Plato, C., Peruzzi, G., Athanassopoulos, C. M., Mori, M., Crestoni, M. E., Corinti, D., Ugozzoli, F., Massera, C., Arcovito, Alessandro, Botta, B., Boffi, A., Quaglio, D., Baiocco, P., Arcovito A. (ORCID:0000-0002-8384-4844), Pediconi, N., Ghirga, F., Del Plato, C., Peruzzi, G., Athanassopoulos, C. M., Mori, M., Crestoni, M. E., Corinti, D., Ugozzoli, F., Massera, C., Arcovito, Alessandro, Botta, B., Boffi, A., Quaglio, D., Baiocco, P., and Arcovito A. (ORCID:0000-0002-8384-4844)

Abstract

Gene expression regulation by small interfering RNA (siRNA) holds promise in treating a wide range of diseases through selective gene silencing. However, successful clinical application of nucleic acid-based therapy requires novel delivery options. Herein, to achieve efficient delivery of negatively charged siRNA duplexes, the internal cavity of "humanized"chimeric Archaeal ferritin (HumAfFt) was specifically decorated with novel cationic piperazine-based compounds (PAs). By coupling these rigid-rod-like amines with thiol-reactive reagents, chemoselective conjugation was efficiently afforded on topologically selected cysteine residues properly located inside HumAfFt. The capability of PAs-HumAfFt to host and deliver siRNA molecules through human transferrin receptor (TfR1), overexpressed in many cancer cells, was explored. These systems allowed siRNA delivery into HeLa, HepG2, and MCF-7 cancer cells with improved silencing effect on glyceraldehyde-3-phosphate dehydrogenase (GAPDH) gene expression with respect to traditional transfection methodologies and provided a promising TfR1-targeting system for multifunctional siRNA delivery to therapeutic applications.

Published

2021

8. Lentisk ( Pistacia lentiscus ) Oil Nanoemulsions Loaded with Levofloxacin: Phytochemical Profiles and Antibiofilm Activity against Staphylococcus spp.

Author

Maurizi L, Lasalvia A, Fabiano MG, D'Intino E, Del Cioppo F, Fraschetti C, Filippi A, Ammendolia MG, Conte AL, Forte J, Corinti D, Crestoni ME, Carafa M, Marianecci C, Rinaldi F, and Longhi C

Abstract

Most clinical isolates of both Staphylococcus aureus and Staphylococcus epidermidis show the capacity to adhere to abiotic surfaces and to develop biofilms resulting in a contribution to chronic human skin infections. Antibiotic resistance and poor biofilm penetration are the main causes of ineffective therapeutic treatment in killing bacteria within biofilms. A possible strategy could be represented by drug delivery systems, such as nanoemulsions (composed of bioactive oil, surfactant and water phase), which are useful for enhancing the drug permeation of a loaded drug inside the biofilm and its activity. Phytochemical characterization of Pistacia lentiscus oil (LO) by direct infusion Fourier-transform ion cyclotron resonance mass spectrometry (FT-ICR MS) allowed the identification of bioactive compounds with antimicrobial properties, including fatty acids and phenolic compounds. Several monoterpenes and sesquiterpenes have been also detected and confirmed by gas chromatography-mass spectrometric (GC-MS) analysis, together providing a complete metabolomic profiling of LO. In the present study, a nanoemulsion composed of LO has been employed for improving Levofloxacin water solubility. A deep physical-chemical characterization of the nanoemulsion including hydrodynamic diameter, ζ-potential, morphology, entrapment efficiency, stability release and permeation studies was performed. Additionally, the antimicrobial/antibiofilm activity of these preparations was evaluated against reference and clinical Staphylococcus spp. strains. In comparison to the free-form antibiotic, the loaded NE nanocarriers exhibited enhanced antimicrobial activity against the sessile forms of Staphylococcus spp. strains.

Published

2024

9. Amino Acids as Chelating Ligands for Platinum: Enhanced Stability in an Aqueous Environment Promoted by Biocompatible Molecules.

Author

Cucchiaro A, Scherfler A, Corinti D, Berden G, Oomens J, Wurst K, Gust R, Crestoni ME, Kircher B, and Cziferszky M

Subjects

Amino Acids, Chelating Agents pharmacology, Aspirin pharmacology, Aspirin chemistry, Ligands, Platinum chemistry, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry

Abstract

Platinum-based chemotherapeutics are a cornerstone in the treatment of many malignancies. However, their dose-limiting side effects have rooted efforts to develop new drug candidates with higher selectivity for tumor tissues and less problematic side effects. Here, we developed a cytotoxic platinum(II) complex based on Zeise's salt, containing the nonsteroidal anti-inflammatory drug acetylsalicylic acid and alanine as ligands ( 4 ). The previously developed complex ( 5 ) displayed high reactivity against sulfur-containing biomolecules; therefore, we put the focus on the optimization of the structure regarding its stability. Different amino acids were used as biocompatible chelating ligands to achieve this aim. Differences in the coordination sphere caused pronounced changes in the stability of Zeise-type precursors 1-3 . Coordination with l-Ala through N in the trans position to ethylene showed the most promising results and was employed to stabilize 5 . As a result, complex 4 showed improved stability and cytotoxicity, outperforming both 5 and 1 .

Published

2023

10. IRMPD spectroscopy and quantum-chemical simulations of the reaction products of cisplatin with the dipeptide CysGly.

Author

Corinti D, Paciotti R, Coletti C, Re N, Chiavarino B, Frison G, Crestoni ME, and Fornarini S

Subjects

Humans, Spectrophotometry, Infrared, Dipeptides, Glutathione, Cisplatin chemistry, Antineoplastic Agents chemistry

Abstract

The inorganic antineoplastic drug cisplatin was made to react in solution with the dipeptide cysteinylglycine (CysGly), chosen as a functional model of glutathione, and the reaction products were analyzed using electrospray ionization mass spectrometry (ESI-MS). Selected complexes, i.e., the primary substitution product cis-[PtCl(NH 3 ) 2 (CysGly)] + and the chelate cis-[PtCl(NH 3 )(CysGly)] + , were submitted to IR multiple photon dissociation (IRMPD) spectroscopy obtaining their vibrational features. The experimental IR ion spectra were compared with the calculated IR absorptions of different plausible isomeric families, finding CysGly to bind preferentially platinum(II) via its deprotonated thiolic group in the monovalent complex, cis-[PtCl(NH 3 ) 2 (CysGly)] + , and to evolve in the S,N-bound chelate structure cis-[PtCl(NH 3 )(CysGly)] + through the SH and NH 2 functionality of the cysteine residue. Moreover, our findings indicate that the platination reaction does not affect the CysGly peptide bond, which remains in its trans configuration. These results provide additional insights into the reactivity of Pt(II)-complexes with glutathione which is involved in cellular cisplatin resistance., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

11. Binding Motifs of Carboplatin and Oxaliplatin with Guanine: A Combined MS/MS, IRMPD, and Theoretical Study.

Author

Chiavarino B, Rotari L, Crestoni ME, Corinti D, Fornarini S, Scuderi D, and Salpin JY

Subjects

Carboplatin, Oxaliplatin, Spectrophotometry, Infrared, Platinum, Guanine, Tandem Mass Spectrometry

Abstract

Complexes generated in the gas phase involving the purine nucleobase guanine bound to second and third generation platinum drugs, namely, carboplatin (CarboPt) and oxaliplatin (OxaliPt), were investigated by combining tandem mass spectrometry, collision-induced dissociation (CID), infrared multiple photon dissociation spectroscopy (IRMPD), and density functional theory (DFT) calculations. As the first step, a spectroscopic characterization of the protonated platinum drugs was accomplished. Protonation of both CarboPt and OxaliPt in the gas phase occurs on one of the two carbonyl groups of the cyclobutanedicarboxylate and oxalate ligand, respectively. Such protonation has been postulated by several theoretical studies as a key preliminary step in the hydrolysis of Pt drugs under acidic conditions. Subsequently, the protonated drugs react with guanine in solution to generate a complex of general formula [Pt drug + H + guanine] + , which was then mass-selected. CID experiments provided evidence of the presence of strong binding between guanine and platinum-based drugs within the complexes. The structures of the two complexes have also been examined by comparing the experimental IRMPD spectra recorded in two spectral regions with DFT-computed IR spectra. For each system, the IRMPD spectra agree with the vibrational spectra calculated for the global minimum structures, which present a monodentate complexation of Pt at the N7 position of canonical guanine. This binding scheme is therefore akin to that observed for cisplatin, while other coordination sites yield substantially less stable species. Interestingly, in the case of oxaliplatin, the IRMPD spectra are consistent with the presence of two isomeric forms very close in energy.

Published

2023

12. Protonated Forms of Naringenin and Naringenin Chalcone: Proteiform Bioactive Species Elucidated by IRMPD Spectroscopy, IMS, CID-MS, and Computational Approaches.

Author

Corinti D, Rotari L, Crestoni ME, Fornarini S, Oomens J, Berden G, Tintaru A, and Chiavarino B

Subjects

Ion Mobility Spectrometry, Spectrophotometry, Infrared, Chalcones

Abstract

Naringenin (Nar) and its structural isomer, naringenin chalcone (ChNar), are two natural phytophenols with beneficial health effects belonging to the flavonoids family. A direct discrimination and structural characterization of the protonated forms of Nar and ChNar, delivered into the gas phase by electrospray ionization (ESI), was performed by mass spectrometry-based methods. In this study, we exploit a combination of electrospray ionization coupled to (high-resolution) mass spectrometry (HR-MS), collision-induced dissociation (CID) measurements, IR multiple-photon dissociation (IRMPD) action spectroscopy, density functional theory (DFT) calculations, and ion mobility-mass spectrometry (IMS). While IMS and variable collision-energy CID experiments hardly differentiate the two isomers, IRMPD spectroscopy appears to be an efficient method to distinguish naringenin from its related chalcone. In particular, the spectral range between 1400 and 1700 cm -1 is highly specific in discriminating between the two protonated isomers. Selected vibrational signatures in the IRMPD spectra have allowed us to identify the nature of the metabolite present in methanolic extracts of commercial tomatoes and grapefruits. Furthermore, comparisons between experimental IRMPD and calculated IR spectra have clarified the geometries adopted by the two protonated isomers, allowing a conformational analysis of the probed species.

Published

2023

13. Novel pyridine-containing histone deacetylase inhibitors strongly arrest proliferation, induce apoptosis and modulate miRNAs in cancer cells.

Author

Di Bello E, Sian V, Bontempi G, Zwergel C, Fioravanti R, Noce B, Castiello C, Tomassi S, Corinti D, Passeri D, Pellicciari R, Mercurio C, Varasi M, Altucci L, Tripodi M, Strippoli R, Nebbioso A, Valente S, and Mai A

Subjects

Humans, Histone Deacetylase Inhibitors pharmacology, Cell Line, Tumor, Cell Proliferation, Hydroxamic Acids pharmacology, Apoptosis, Pyridines pharmacology, Histone Deacetylase 1, MicroRNAs, Antineoplastic Agents pharmacology, Neoplasms

Abstract

After over 30 years of research, the development of HDAC inhibitors led to five FDA/Chinese FDA-approved drugs and many others under clinical or preclinical investigation to treat cancer and non-cancer diseases. Herein, based on our recent development of pyridine-based isomers as HDAC inhibitors, we report a series of novel 5-acylamino-2-pyridylacrylic- and -picolinic hydroxamates and 2'-aminoanilides 5-8 as anticancer agents. The hydroxamate 5d proved to be quite HDAC3/6-selective exhibiting IC 50 values of 80 and 11 nM, respectively, whereas the congener 5e behaved as inhibitor of HDAC1-3, -6, -8, and -10 (class I/IIb-selective inhibitor) at nanomolar level. Compound 5e provided a huge antiproliferative activity (nanomolar IC 50 values) against both haematological and solid cancer cell lines. In leukaemia U937 cells, the hydroxamate 5d and the 2'-aminoanilide 8f induced remarkable cell death after 48 h, with 76% and 100% pre-G1 phase arrest, respectively, showing a stronger effect with respect to SAHA and MS-275 used as reference compounds. In U937 cells, the highest dose- and time-dependent cytodifferentiation was obtained by the 2'-aminoanilide 8d (up to 35% of CD11c positive/propidium iodide negative cells at 5 μM for 48 h). The same 8d and the hydroxamates 5d and 5e were the most effective in inducing p21 protein expression in the same cell line. Mechanistically, 5d, 5e, 8d and 8f increased mRNA expression of p21, BAX and BAK, downregulated cyclin D1 and BCL-2 and modulated pro- and anti-apoptotic microRNAs towards apoptosis induction. Finally, 5e strongly arrested proliferation in nine different haematological cancer cell lines, with dual-digit nanomolar potency towards MV4-11, Kasumi-1, and NB4, being more potent than mocetinostat, used as reference drug., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Masson SAS. All rights reserved.)

Published

2023

14. Binding Modes of a Cytotoxic Dinuclear Copper(II) Complex with Phosphate Ligands Probed by Vibrational Photodissociation Ion Spectroscopy.

Author

Giampà M, Corinti D, Maccelli A, Fornarini S, Berden G, Oomens J, Schwarzbich S, Glaser T, and Crestoni ME

Subjects

Humans, Ligands, Phosphates, Spectrophotometry, Infrared methods, DNA chemistry, Copper chemistry, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry

Abstract

The dinuclear copper complex bearing a 2,7-disubstituted-1,8-naphthalenediol ligand, [(HtomMe){Cu(OAc)} 2 ](OAc), a potential anticancer drug able to bind to two neighboring phosphates in the DNA backbone, is endowed with stronger cytotoxic effects and inhibition ability of DNA synthesis in human cancer cells as compared to cisplatin. In this study, the intrinsic binding ability of the charged complex [(HtomMe){Cu(OAc)} 2 ] + is investigated with representative phosphate diester ligands with growing chemical complexity, ranging from simple inorganic phosphate up to mononucleotides. An integrated method based on high-resolution mass spectrometry (MS), tandem MS, and infrared multiple photon dissociation (IRMPD) spectroscopy in the 600-1800 cm -1 spectral range, backed by quantum chemical calculations, has been used to characterize complexes formed in solution and delivered as bare species by electrospray ionization. The structural features revealed by IRMPD spectroscopy have been interpreted by comparison with linear IR spectra of the lowest-energy structures, revealing diagnostic signatures of binding modes of the dinuclear copper(II) complex with phosphate groups, whereas the possible competitive interaction with the nucleobase is silenced in the gas phase. This result points to the prevailing interaction of [(HtomMe){Cu(OAc)} 2 ] + with phosphate diesters and mononucleotides as a conceivable contribution to the observed anticancer activity.

Published

2023

15. Heterocycle-containing tranylcypromine derivatives endowed with high anti-LSD1 activity.

Author

Fioravanti R, Rodriguez V, Caroli J, Chianese U, Benedetti R, Di Bello E, Noce B, Zwergel C, Corinti D, Viña D, Altucci L, Mattevi A, Valente S, and Mai A

Subjects

Antineoplastic Agents chemical synthesis, Antineoplastic Agents chemistry, Cell Proliferation drug effects, Dose-Response Relationship, Drug, Drug Screening Assays, Antitumor, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors chemistry, Heterocyclic Compounds chemical synthesis, Heterocyclic Compounds chemistry, Histone Demethylases metabolism, Humans, Molecular Structure, Monoamine Oxidase metabolism, Structure-Activity Relationship, Tranylcypromine chemical synthesis, Tranylcypromine chemistry, Tumor Cells, Cultured, Antineoplastic Agents pharmacology, Enzyme Inhibitors pharmacology, Heterocyclic Compounds pharmacology, Histone Demethylases antagonists & inhibitors, Tranylcypromine pharmacology

Abstract

As regioisomers/bioisosteres of 1a , a 4-phenylbenzamide tranylcypromine (TCP) derivative previously disclosed by us, we report here the synthesis and biological evaluation of some (hetero)arylbenzoylamino TCP derivatives 1b - 6 , in which the 4-phenyl moiety of 1a was shifted at the benzamide C3 position or replaced by 2- or 3-furyl, 2- or 3-thienyl, or 4-pyridyl group, all at the benzamide C4 or C3 position. In anti-LSD1-CoREST assay, all the meta derivatives were more effective than the para analogues, with the meta thienyl analogs 4b and 5b being the most potent (IC 50 values = 0.015 and 0.005 μM) and the most selective over MAO-B (selectivity indexes: 24.4 and 164). When tested in U937 AML and prostate cancer LNCaP cells, selected compounds 1a,b , 2b , 3b , 4b , and 5a,b displayed cell growth arrest mainly in LNCaP cells. Western blot analyses showed increased levels of H3K4me2 and/or H3K9me2 confirming the involvement of LSD1 inhibition in these assays.

Published

2022

16. Elusive intermediates in cisplatin reaction with target amino acids: Platinum(II)-cysteine complexes assayed by IR ion spectroscopy and DFT calculations.

Author

Corinti D, Paciotti R, Coletti C, Re N, Chiavarino B, Crestoni ME, and Fornarini S

Subjects

Platinum, Cysteine chemistry, Amino Acids, Density Functional Theory, Spectrum Analysis, Ions, Cisplatin chemistry, Antineoplastic Agents chemistry

Abstract

The reactivity of a widely used metal based antineoplastic drug, cisplatin, cis-PtCl 2 (NH 3 ) 2 , with L-cysteine (Cys) has been investigated using a combination of electrospray ionization mass spectrometry (ESI-MS), IRMPD gas phase ion spectroscopy and DFT calculations. The cysteine lateral chain represents one of the main platination sites in proteins, which is believed to be related to the resistance mechanisms to cisplatin. The vibrational features of the mass-selected substitution product cis-[PtCl(NH 3 ) 2 (Cys)] + and the intercepted cis-[PtCl(NH 3 ) 2 (H 2 O)(Cys)] + intermediate complex were compared to calculated IR spectra, enabling the assessment of the sampled ions structures. In cis-[PtCl(NH 3 ) 2 (Cys)] + , cysteine was found to bind platinum through the sulfur atom as a thiolate zwitterion, highlighting the enhanced acidity of the cysteine thiol group upon metal coordination. The cis-[PtCl(NH 3 ) 2 (H 2 O)(Cys)] + structure complies with the non-covalent encounter complex, formed by cis-[PtCl(NH 3 ) 2 (H 2 O)] + and neutral cysteine. This species is able to undergo the substitution process to produce cis-[PtCl(NH 3 ) 2 (Cys)] + when activated as a mass-isolated ion suggesting its participation in the reaction mechanism of cisplatin with cysteine in solution. Finally, the DFT-calculated energy profile for the substitution reaction was correlated with the peculiar gas-phase reactivity of this non-covalent complex, resulting to be 10-fold less reactive toward substitution than the corresponding methionine complex., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

17. Unusually Chemoselective Photocyclization of 2-(Hydroxyimino)aldehydes to Cyclobutanol Oximes: Synthetic, Stereochemical, and Mechanistic Aspects.

Author

Di Sabato A, D'Acunzo F, Filippini D, Vetica F, Brasiello A, Corinti D, Bodo E, Michenzi C, Panzetta E, and Gentili P

Subjects

Oximes chemistry, Ethers chemistry, Aldehydes chemistry, Cyclobutanes

Abstract

Photocyclization of carbonyl compounds (known as the Norrish-Yang reaction) to yield cyclobutanols is, in general, accompanied by fragmentation reactions. The latter are predominant in the case of aldehydes so that secondary cyclobutanols are not considered accessible via the straightforward Norrish-Yang reaction. A noteworthy exception has been reported in our laboratory, where cyclobutanols bearing a secondary alcohol function were observed upon UV light irradiation of 2-(hydroxyimino)aldehydes (HIAs). This reaction is here investigated in detail by combining synthesis, spectroscopic data, molecular dynamics, and DFT calculations. The synthetic methodology is generally applicable to a series of HIAs, affording the corresponding cyclobutanol oximes (CBOs) chemoselectively (i.e., without sizable fragmentation side-reactions), diastereoselectively (up to >99:1), and in good to excellent yields (up to 95%). CBO oxime ether derivatives can be purified and diastereomers isolated by standard column chromatography. The mechanistic and stereochemical picture of this photocyclization reaction, as well as of the postcyclization E /Z isomerization of the oxime double bond is completed.

Published

2022

18. Cation-π Interactions between a Noble Metal and a Polyfunctional Aromatic Ligand: Ag + (benzylamine).

Author

Corinti D, Maccelli A, Chiavarino B, Schütz M, Bouchet A, Dopfer O, Crestoni ME, and Fornarini S

Subjects

Cations chemistry, Ligands, Spectrophotometry, Infrared methods, Benzylamines, Silver chemistry

Abstract

The structure of an isolated Ag + (benzylamine) complex is investigated by infrared multiple photon dissociation (IRMPD) spectroscopy complemented with quantum chemical calculations of candidate geometries and their vibrational spectra, aiming to ascertain the role of competing cation-N and cation-π interactions potentially offered by the polyfunctional ligand. The IRMPD spectrum has been recorded in the 800-1800 cm -1 fingerprint range using the IR free electron laser beamline coupled with an FT-ICR mass spectrometer at the Centre Laser Infrarouge d'Orsay (CLIO). The resulting IRMPD pattern points toward a chelate coordination (N-Ag + -π) involving both the amino nitrogen atom and the aromatic π-system of the phenyl ring. The gas-phase reactivity of Ag + (benzylamine) with a neutral molecular ligand (L) possessing either an amino/aza functionality or an aryl group confirms N- and π-binding affinity and suggests an augmented silver coordination in the product adduct ion Ag + ( benzylamine ) ( L ) ., (© 2022 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2022

19. IRMPD Spectroscopy of Bare Monodeprotonated Genistein, an Antioxidant Flavonoid.

Author

Paciotti R, Chiavarino B, Coletti C, Scuderi D, Re N, Corinti D, Rotari L, Fornarini S, and Crestoni ME

Abstract

Genistein is a naturally occurring polyphenol belonging to the family of flavonoids with estrogenic properties and proven antioxidant, anti-inflammatory, and hormonal effects. Genistein and its derivatives are involved in radical scavenging activity by way of mechanisms based on sequential proton-loss electron transfer. In view of this role, a detailed structural characterization of its bare deprotonated form, [geni-H] - , generated by electrospray ionization, has been performed by tandem mass spectrometry and infrared multiple photon dissociation (IRMPD) spectroscopy in the 800-1800 cm -1 spectral range. Quantum chemical calculations at the B3LYP/6-311+G(d,p) level of theory were carried out to determine geometries, thermochemical data, and anharmonic vibrational properties of low-lying isomers, enabling to interpret the experimental spectrum. Evidence is gathered that the conjugate base of genistein exists as a single isomeric form, which is deprotonated at the most acidic site (7-OH) and benefits from a strong intramolecular H-bond interaction between 5-OH and the adjacent carbonyl oxygen in the most stable arrangement., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published

2022

20. Ligation Motifs in Zinc-Bound Sulfonamide Drugs Assayed by IR Ion Spectroscopy.

Author

Corinti D, Chiavarino B, Maitre P, Crestoni ME, and Fornarini S

Subjects

Ions, Spectrophotometry, Infrared, Sulfanilamide, Sulfonamides, Zinc chemistry

Abstract

The sulfonamide-zinc ion interaction, performing a key role in various biological contexts, is the focus of the present study, with the aim of elucidating ligation motifs in zinc complexes of sulfa drugs, namely sulfadiazine (SDZ) and sulfathiazole (STZ), in a perturbation-free environment. To this end, an approach is exploited based on mass spectrometry coupled with infrared multiple photon dissociation (IRMPD) spectroscopy backed by quantum chemical calculations. IR spectra of Zn(H 2 O+SDZ-H) + and Zn(H 2 O+STZ-H) + ions are consistent with a three-coordinate zinc complex, where ZnOH + binds to the uncharged sulfonamide via N(heterocycle) and O(sulfonyl) donor atoms. Alternative prototropic isomers Zn(OH 2 )(SDZ-H) + and Zn(OH 2 )(STZ-H) + lie 63 and 26 kJ mol -1 higher in free energy, respectively, relative to the ground state Zn(OH)(SDZ) + and Zn(OH)(STZ) + species and do not contribute to any significant extent in the sampled population.

Published

2022

21. Corrigendum: Can an Elusive Platinum(III) Oxidation State be Exposed in an Isolated Complex?

Author

Corinti D, Frison G, Chiavarino B, Gabano E, Osella D, Crestoni ME, and Fornarini S

Published

2022

22. Molecular Basis for the Remarkably Different Gas-Phase Behavior of Deprotonated Thyroid Hormones Triiodothyronine (T3) and Reverse Triiodothyronine (rT3): A Clue for Their Discrimination?

Author

Corinti D, Chiavarino B, Spano M, Tintaru A, Fornarini S, and Crestoni ME

Subjects

Chromatography, Liquid, Thyroid Hormones, Thyroxine, Triiodothyronine, Triiodothyronine, Reverse

Abstract

Thyroid hormones are biologically active small molecules responsible for growth and development regulation, basal metabolic rate, and lipid and carbohydrate metabolism. Liquid chromatography mass spectrometry (LC-MS) can be used to quantify thyroid hormones blood level with high speed and selectivity, aiming to improve the diagnosis and treatment of the severe pathological conditions in which they are implicated, i.e., hypo- and hyperthyroidism. In this work, the gas-phase behavior of the isomeric thyroid hormones triiodothyronine (T3) and reverse triiodothyronine (rT3) in their deprotonated form was studied at a molecular level using MS-based techniques. Previously reported collision-induced dissociation experiments yielded distinct spectra despite the high structural similarity of the two compounds, suggesting different charge sites to be responsible. Infrared multiple photon dissociation spectroscopy on [T3-H] - and [rT3-H] - was performed, and the results were interpreted using DFT and MP2 calculations, assessing the prevalence of T3 in the carboxylate form and rT3 as a phenolate isomer. The different deprotonation sites of the two isomers were also found to drive their ion-mobility behavior. In fact, [T3-H] - and [rT3-H] - were successfully separated. Drift times were correlated with collisional cross section values of 209 and 215 Å 2 for [T3-H] - and [rT3-H] - , respectively. Calculations suggested the charge site to be the main parameter involved in the different mobilities of the two anions. Finally, bare [T3-H] - and [rT3-H] - were made to react with neutral acetylacetone and trifluoroacetic acid, confirming rT3 to be more acidic than T3 in agreement with the calculated gas-phase acidities of T3 and rT3 equal to 1345 and 1326 kJ mol -1 , respectively.

Published

2021

23. From Preassociation to Chelation: A Survey of Cisplatin Interaction with Methionine at Molecular Level by IR Ion Spectroscopy and Computations.

Author

Paciotti R, Corinti D, Maitre P, Coletti C, Re N, Chiavarino B, Crestoni ME, and Fornarini S

Subjects

Ammonia chemistry, Chelating Agents chemistry, Ligands, Models, Chemical, Models, Molecular, Molecular Conformation, Platinum chemistry, Solutions, Solvents chemistry, Antineoplastic Agents chemistry, Cisplatin chemistry, Methionine chemistry, Spectrometry, Mass, Electrospray Ionization methods, Spectrophotometry, Infrared methods

Abstract

Methionine (Met) plays an important role in the metabolism of cisplatin anticancer drug. Yet, methionine platination in aqueous solution presents a highly complex pattern of interconnected paths and intermediates. This study reports on the reaction of methionine with the active aqua form of cisplatin, cis -[PtCl(NH 3 ) 2 (H 2 O)] + , isolating the encounter complex of the reactant pair, { cis -[PtCl(NH 3 ) 2 (H 2 O)] + ·Met}, by electrospray ionization. In the unsolvated state, charged intermediates are characterized for their structure and photofragmentation behavior by IR ion spectroscopy combined with quantum-chemical calculations, obtaining an outline of the cisplatin-methionine reaction at a molecular level. To summarize the major findings: (i) the { cis -[PtCl(NH 3 ) 2 (H 2 O)] + ·Met} encounter complex, lying on the reaction coordinate of the Eigen-Wilkins preassociation mechanism for ligand substitution, is delivered in the gas phase and characterized by IR ion spectroscopy; (ii) upon vibrational excitation, ligand exchange occurs within { cis -[PtCl(NH 3 ) 2 (H 2 O)] + ·Met}, releasing water and cis -[PtCl(NH 3 ) 2 (Met)] + , along the calculated energy profile; (iii) activated cis -[PtCl(NH 3 ) 2 (Met)] + ions undergo NH 3 departure, forming a chelate complex, [PtCl(NH 3 )(Met)] + , whose structure is congruent with overwhelming S-Met ligation as the primary coordination step. The latter process involving ammonia loss marks a difference with the prevailing chloride replacement in protic solvent, pointing to the effect of a low-polarity environment.

Published

2021

24. Design and Synthesis of Piperazine-Based Compounds Conjugated to Humanized Ferritin as Delivery System of siRNA in Cancer Cells.

Author

Pediconi N, Ghirga F, Del Plato C, Peruzzi G, Athanassopoulos CM, Mori M, Crestoni ME, Corinti D, Ugozzoli F, Massera C, Arcovito A, Botta B, Boffi A, Quaglio D, and Baiocco P

Subjects

Cell Line, Tumor, Chemistry Techniques, Synthetic, Humans, RNA, Small Interfering metabolism, Drug Carriers chemical synthesis, Drug Carriers chemistry, Drug Design, Ferritins chemistry, Piperazine chemistry, RNA, Small Interfering chemistry

Abstract

Gene expression regulation by small interfering RNA (siRNA) holds promise in treating a wide range of diseases through selective gene silencing. However, successful clinical application of nucleic acid-based therapy requires novel delivery options. Herein, to achieve efficient delivery of negatively charged siRNA duplexes, the internal cavity of "humanized" chimeric Archaeal ferritin (HumAfFt) was specifically decorated with novel cationic piperazine-based compounds (PAs). By coupling these rigid-rod-like amines with thiol-reactive reagents, chemoselective conjugation was efficiently afforded on topologically selected cysteine residues properly located inside HumAfFt. The capability of PAs-HumAfFt to host and deliver siRNA molecules through human transferrin receptor (TfR1), overexpressed in many cancer cells, was explored. These systems allowed siRNA delivery into HeLa, HepG2, and MCF-7 cancer cells with improved silencing effect on glyceraldehyde-3-phosphate dehydrogenase (GAPDH) gene expression with respect to traditional transfection methodologies and provided a promising TfR1-targeting system for multifunctional siRNA delivery to therapeutic applications.

Published

2021

25. Binding Motifs in the Naked Complexes of Target Amino Acids with an Excerpt of Antitumor Active Biomolecule: An Ion Vibrational Spectroscopy Assay.

Author

Chiavarino B, Sinha RK, Crestoni ME, Corinti D, Filippi A, Fraschetti C, Scuderi D, Maitre P, and Fornarini S

Subjects

Hydrogen Bonding, Photons, Protons, Vibration, Amino Acids chemistry, Antineoplastic Agents chemistry, Spectrophotometry, Infrared

Abstract

The structures of proton-bound complexes of 5,7-dimethoxy-4H-chromen-4-one (1) and basic amino acids (AAs), namely, histidine (His) and lysine (Lys), have been examined by means of mass spectrometry coupled with IR ion spectroscopy and quantum chemical calculations. This selection of systems is based on the fact that 1 represents a portion of glabrescione B, a natural small molecule of promising antitumor activity, while His and Lys are protein residues lining the cavity of the alleged receptor binding site. These species are thus a model of the bioactive adduct, although clearly the isolated state of the present study bears little resemblance to the complex biological environment. A common feature of [1+AA+H] + complexes is the presence of a protonated AA bound to neutral 1, in spite of the fact that the gas-phase basicity of 1 is comparable to those of Lys and His. The carbonyl group of 1 acts as a powerful hydrogen-bond acceptor. Within [1+AA+H] + the side-chain substituents (imidazole group for His and terminal amino group for Lys) present comparable basic properties to those of the α-amino group, taking part to a cooperative hydrogen-bond network. Structural assignment, relying on the comparative analysis of the infrared multiple photon dissociation (IRMPD) spectrum and calculated IR spectra for the candidate geometries, derives from an examination over two frequency ranges: 900-1800 and 2900-3700 cm -1 . Information gained from the latter one proved especially valuable, for example, pointing to the contribution of species characterized by an unperturbed carboxylic OH or imidazole NH stretching mode., (© 2020 Wiley-VCH GmbH.)

Published

2021

26. Molecular Properties of Bare and Microhydrated Vitamin B5-Calcium Complexes.

Author

Corinti D, Chiavarino B, Scuderi D, Fraschetti C, Filippi A, Fornarini S, and Crestoni ME

Subjects

Gases chemistry, Photons, Quantum Theory, Spectrophotometry, Infrared, Calcium chemistry, Pantothenic Acid chemistry

Abstract

Pantothenic acid, also called vitamin B5, is an essential nutrient involved in several metabolic pathways. It shows a characteristic preference for interacting with Ca(II) ions, which are abundant in the extracellular media and act as secondary mediators in the activation of numerous biological functions. The bare deprotonated form of pantothenic acid, [panto-H] - , its complex with Ca(II) ion, [Ca(panto-H)] + , and singly charged micro-hydrated calcium pantothenate [Ca(panto-H)(H 2 O)] + adduct have been obtained in the gas phase by electrospray ionization and assayed by mass spectrometry and IR multiple photon dissociation spectroscopy in the fingerprint spectral range. Quantum chemical calculations at the B3LYP(-D3) and MP2 levels of theory were performed to simulate geometries, thermochemical data, and linear absorption spectra of low-lying isomers, allowing us to assign the experimental absorptions to particular structural motifs. Pantothenate was found to exist in the gas phase as a single isomeric form showing deprotonation on the carboxylic moiety. On the contrary, free and monohydrated calcium complexes of deprotonated pantothenic acid both present at least two isomers participating in the gas-phase population, sharing the deprotonation of pantothenate on the carboxylic group and either a fourfold or fivefold coordination with calcium, thus justifying the strong affinity of pantothenate for the metal.

Published

2021

27. Can an Elusive Platinum(III) Oxidation State be Exposed in an Isolated Complex?

Author

Corinti D, Frison G, Chiavarino B, Gabano E, Osella D, Crestoni ME, and Fornarini S

Abstract

Platinum(IV) complexes are extensively studied for their activity against cancer cells as potential substitutes for the widely used platinum(II) drugs. Pt IV complexes are kinetically inert and need to be reduced to Pt II species to play their pharmacological action, thus acting as prodrugs. The mechanism of the reduction step inside the cell is however still largely unknown. Gas-phase activation of deprotonated platinum(IV) prodrugs was found to generate products in which platinum has a formal +3 oxidation state. IR multiple photon dissociation spectroscopy is thus used to obtain structural information helping to define the nature of both the platinum atom and the ligands. In particular, comparison of calculations at DFT, MP2 and CCSD levels with experimental results demonstrates that the localization of the radical is about equally shared between the d xz orbital of platinum and the p z of nitrogen on the amino group, the latter acting as a non-innocent ligand., (© 2020 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

28. A multi-methodological inquiry of the behavior of cisplatin-based Pt(IV) derivatives in the presence of bioreductants with a focus on the isolated encounter complexes.

Author

Corinti D, Crestoni ME, Fornarini S, Dabbish E, Sicilia E, Gabano E, Perin E, and Osella D

Subjects

Antineoplastic Agents chemical synthesis, Antineoplastic Agents isolation & purification, Cisplatin chemical synthesis, Cisplatin isolation & purification, Density Functional Theory, Molecular Conformation, Organoplatinum Compounds chemical synthesis, Organoplatinum Compounds isolation & purification, Oxidation-Reduction, Stereoisomerism, Antineoplastic Agents chemistry, Cisplatin chemistry, Organoplatinum Compounds chemistry

Abstract

The study of Pt(IV) antitumor prodrugs able to circumvent some drawbacks of the conventional Pt(II) chemotherapeutics is the focus of a lot of attention. This paper reports a thorough study based on experimental methods (reduction kinetics, electrochemistry, tandem mass spectrometry and IR ion spectroscopy) and quantum-mechanical DFT calculations on the reduction mechanism of cisplatin-based Pt(IV) derivatives having two hydroxido (1), one hydroxido and one acetato (2), or two acetato ligands (3) in axial position. The biological reductants glutathione and ascorbic acid were taken into consideration. The presence of a hydroxido ligand resulted to play an important role in the chemical reduction with ascorbic acid, as verified by 15 N-NMR kinetic analysis using 15 N-enriched complexes. The reactivity trend (1 > 2 > 3) does not reflect the respective reduction peak potentials (1 < 2 < 3), an inverse relationship already documented in similar systems. Turning to a simplified environment, the Pt(IV) complexes associated with a single reductant molecule (corresponding to the encounter complex occurring along the reaction coordinate in bimolecular reactions in solution) were characterized by IR ion spectroscopy and sampled for their reactivity under collision-induced dissociation (CID) conditions. The complexes display a comparable reduction reactivity ordering as that observed in solution. DFT calculations of the free energy pathways for the observed fragmentation reactions provide theoretical support for the CID patterns and the mechanistic hypotheses on the reduction process are corroborated by the observed reaction paths. The bulk of these data offers a clue of the intricate pathways occurring in solution.Graphic abstract.

Published

2020

29. IRMPD Spectra of Protonated Hydroxybenzaldehydes: Evidence of Torsional Barriers in Carboxonium Ions.

Author

Chiavarino B, Dopfer O, Crestoni ME, Corinti D, Maître P, and Fornarini S

Abstract

Protonation at the formyl oxygen atom of benzaldehydes leading to the formation of carboxonium ions yields two distinct isomers, depending on the relative orientation of the proton either cis or trans with respect to the hydrogen atom on the adjacent carbon. In this context, the IR multiple photon dissociation (IRMPD) spectra of protonated ortho, meta, and para-hydroxybenzaldehydes (OH-BZH + ), delivered into the gas phase by electrospray ionization of hydro-alcoholic solutions, are reported in the 3200-3700 cm -1 spectral range. This range is characteristic of O-H stretching modes and thus able to differentiate cis and trans carboxonium isomers. Comparison between IRMPD spectra and DFT calculations at the B3LYP/6-311++G(2df2p) level suggests that for both p-OH-BZH + and m-OH-BZH + only cis conformers are present in the ion population analyzed. For o-OH-BZH + , IRMPD spectroscopy points to a mixture comprising one trans and more than one cis conformers. The energy barrier for cis-trans isomerization calculated for each OH-BZH + isomer is a measure of the degree of π-electron delocalization. Furthermore, IRMPD spectra of p-OH-BZH + , m-OH-BZH + and protonated phenol (this last used as reference) were recorded also in the fingerprint range. Both the observed C-O and O-H stretching vibrations appear to be a measure of π-electron delocalization in the ions., (© 2020 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

30. Applications of Infrared Multiple Photon Dissociation (IRMPD) to the Detection of Posttranslational Modifications.

Author

Maitre P, Scuderi D, Corinti D, Chiavarino B, Crestoni ME, and Fornarini S

Subjects

Animals, Humans, Peptides chemistry, Peptides metabolism, Proteins chemistry, Proteins metabolism, Spectrophotometry, Infrared methods, Tandem Mass Spectrometry, Vibration, Peptides analysis, Protein Processing, Post-Translational, Proteins analysis

Abstract

Infrared multiple photon dissociation (IRMPD) spectroscopy allows for the derivation of the vibrational fingerprint of molecular ions under tandem mass spectrometry (MS/MS) conditions. It provides insight into the nature and localization of posttranslational modifications (PTMs) affecting single amino acids and peptides. IRMPD spectroscopy, which takes advantage of the high sensitivity and resolution of MS/MS, relies on a wavelength specific fragmentation process occurring on resonance with an IR active vibrational mode of the sampled species and is well suited to reveal the presence of a PTM and its impact in the molecular environment. IRMPD spectroscopy is clearly not a proteomics tool. It is rather a valuable source of information for fixed wavelength IRMPD exploited in dissociation protocols of peptides and proteins. Indeed, from the large variety of model PTM containing amino acids and peptides which have been characterized by IRMPD spectroscopy, specific signatures of PTMs such as phosphorylation or sulfonation can be derived. High throughput workflows relying on the selective fragmentation of modified peptides within a complex mixture have thus been proposed. Sequential fragmentations can be observed upon IR activation, which do not only give rise to rich fragmentation patterns but also overcome low mass cutoff limitations in ion trap mass analyzers. Laser-based vibrational spectroscopy of mass-selected ions holding various PTMs is an increasingly expanding field both in the variety of chemical issues coped with and in the technological advancements and implementations.

Published

2020

31. Tranylcypromine-Based LSD1 Inhibitors: Structure-Activity Relationships, Antiproliferative Effects in Leukemia, and Gene Target Modulation.

Author

Fioravanti R, Romanelli A, Mautone N, Di Bello E, Rovere A, Corinti D, Zwergel C, Valente S, Rotili D, Botrugno OA, Dessanti P, Vultaggio S, Vianello P, Cappa A, Binda C, Mattevi A, Minucci S, Mercurio C, Varasi M, and Mai A

Subjects

Antineoplastic Agents chemical synthesis, Antineoplastic Agents chemistry, Cell Line, Tumor, Cell Proliferation drug effects, Dose-Response Relationship, Drug, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors chemistry, Histone Demethylases genetics, Histone Demethylases metabolism, Humans, Microsomes, Liver chemistry, Microsomes, Liver metabolism, Structure-Activity Relationship, Tranylcypromine chemical synthesis, Tranylcypromine chemistry, Antineoplastic Agents pharmacology, Enzyme Inhibitors pharmacology, Histone Demethylases antagonists & inhibitors, Tranylcypromine pharmacology

Abstract

LSD1 is a lysine demethylase highly involved in initiation and development of cancer. To design highly effective covalent inhibitors, a strategy is to fill its large catalytic cleft by designing tranylcypromine (TCP) analogs decorated with long, hindered substituents. We prepared three series of TCP analogs, carrying aroyl- and arylacetylamino (1 a-h), Z-amino acylamino (2 a-o), or double-substituted benzamide (3 a-n) residues at the C4 or C3 position of the phenyl ring. Further fragments obtained by chemical manipulation applied on the TCP scaffold (compounds 4 a-i) were also prepared. When tested against LSD1, most of 1 and 3 exhibited IC 50 values in the low nanomolar range, with 1 e and 3 a,d,f,g being also the most selective respect to monoamine oxidases. In MV4-11 AML and NB4 APL cells compounds 3 were the most potent, displaying up to sub-micromolar cell growth inhibition against both cell lines (3 a) or against NB4 cells (3 c). The most potent compounds in cellular assays were also able to induce the expression of LSD1 target genes, such as GFI-1b, ITGAM, and KCTD12, as functional read-out for LSD1 inhibition. Mouse and human intrinsic clearance data highlighted the high metabolic stability of compounds 3 a, 3 d and 3 g. Further studies will be performed on the new compounds 3 a and 3 c to assess their anticancer potential in different cancer contexts., (© 2020 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

32. Insights into Cisplatin Binding to Uracil and Thiouracils from IRMPD Spectroscopy and Tandem Mass Spectrometry.

Author

Corinti D, Crestoni ME, Chiavarino B, Fornarini S, Scuderi D, and Salpin JY

Subjects

Antineoplastic Agents chemistry, Antineoplastic Agents metabolism, Binding Sites, Cisplatin chemistry, Thiouracil analogs & derivatives, Uracil chemistry, Cisplatin metabolism, Spectrophotometry, Infrared methods, Tandem Mass Spectrometry methods, Thiouracil metabolism, Uracil metabolism

Abstract

The monofunctional primary complexes cis -[PtCl(NH 3 ) 2 (L)] + , formed by the reaction of cisplatin, a major chemotherapeutic agent, with four nucleobases L, i.e., uracil (U), 2-thiouracil (2SU), 4-thiouracil (4SU), and 2,4-dithiouracil (24dSU), have been studied by a combination of infrared multiple photon dissociation (IRMPD) action spectroscopy in both the fingerprint (900-1900 cm -1 ) and the N-H/O-H stretching (3000-3800 cm -1 ) ranges, energy-resolved collision-induced dissociation (CID) mass spectrometry, and density functional calculations at the B3LYP/LACVP/6-311G** level. On the basis of the comparison across the experimental features and the linear IR spectra of conceivable structures, the cisplatin residue is found to promote a monodentate interaction preferentially with the O4(S4) atoms of the canonical forms of U, 4SU, and 24dSU and to the S2 atom of 2SU, yielding the most stable structures. Additional absorptions reveal the presence of minor, alternative tautomers in the sampled ion populations of 2SU and 24dSU, underlying the ability of cisplatin to increase the prospect of (therapeutically beneficial) nucleic acid strand disorder. Implication of these evidence may provide insights into drug mechanism and design.

Published

2020

33. Elusive Intermediates in the Breakdown Reactivity Patterns of Prodrug Platinum(IV) Complexes.

Author

Corinti D, Crestoni ME, Fornarini S, Ponte F, Russo N, Sicilia E, Gabano E, and Osella D

Abstract

Kinetically inert platinum(IV) complexes are receiving growing attention as promising candidates in the effort to develop safe and valid alternatives to classical square-planar Pt(II) complexes currently used in antineoplastic therapy. Their antiproliferative activity requires intracellular Pt(IV)-Pt(II) reduction (activation by reduction). In the present work, a set of five Pt(IV) complexes has been assayed using mass spectrometry-based techniques, i.e., collision-induced dissociation (CID), and IR multiple photon dissociation (IRMPD) spectroscopy, together with ab initio theoretical investigations. Breakdown and reduction mechanisms are observed that lead to Pt(II) species. Evidence is found for typically transient Pt(III) intermediates along the dissociation paths of isolated, negatively charged (electron-rich) Pt(IV) prodrug complexes.

Published

2019

34. l-Cysteine Modified by S-Sulfation: Consequence on Fragmentation Processes Elucidated by Tandem Mass Spectrometry and Chemical Dynamics Simulations.

Author

Macaluso V, Scuderi D, Crestoni ME, Fornarini S, Corinti D, Dalloz E, Martinez-Nunez E, Hase WL, and Spezia R

Abstract

Low-energy collision-induced dissociation (CID) of deprotonated l-cysteine S-sulfate, [cysS-SO 3 ] - , delivered in the gas phase by electrospray ionization, has been found to provide a means to form deprotonated l-cysteine sulfenic acid, which is a fleeting intermediate in biological media. The reaction mechanism underlying this process is the focus of the present contribution. At the same time, other novel species are formed, which were not observed in previous experiments. To understand fragmentation pathways of [cysS-SO 3 ] - , reactive chemical dynamics simulations coupled with a novel algorithm for automatic determination of intermediates and transition states were performed. This approach has allowed the identification of the mechanisms involved and explained the experimental fragmentation pathways. Chemical dynamics simulations have shown that a roaming-like mechanism can be at the origin of l-cysteine sulfenic acid.

Published

2019

35. Vibrational signatures of curcumin's chelation in copper(II) complexes: An appraisal by IRMPD spectroscopy.

Author

Corinti D, Maccelli A, Chiavarino B, Maitre P, Scuderi D, Bodo E, Fornarini S, and Crestoni ME

Abstract

Curcumin (Cur) is a natural polyphenol with a wide spectrum of biological activities and appealing therapeutic potential. Herein, it has been delivered by electrospray ionization as gaseous protonated species, [Cur + H] + , and as a Cu(ii) complex, [Cu(Cur - H)] + , a promising antioxidant and radical scavenger. The gas phase structures were assayed by infrared multiple photon dissociation (IRMPD) spectroscopy in both the fingerprint (800-2000 cm -1 ) and hydrogen stretching (3100-3750 cm -1 ) ranges. Comparison between the experimental features and linear IR spectra of the lowest energy structures computed at the B3LYP/6-311+G(d,p) level reveals that bare [Cu(Cur - H)] + exists in a fully planar and symmetric arrangement, where the metal interacts with the two oxygens of the syn-enolate functionality of deprotonated Cur and both OCH 3 groups are engaged in H-bonding with the ortho OH. The effect of protonation on the energetic and geometric determinants of Cur has been explored as well, revealing that bare [Cur + H] + may exist as a mixture of two close-lying isomers associated with the most stable binding motifs. The additional proton is bound to either the diketo or the keto-enol configuration of Cur, in a bent or nearly planar arrangement, respectively.

Published

2019

36. An integrated approach to study novel properties of a MALDI matrix (4-maleicanhydridoproton sponge) for MS imaging analyses.

Author

Corinti D, Crestoni ME, Fornarini S, Pieper M, Niehaus K, and Giampà M

Subjects

Atropa belladonna chemistry, Atropine analysis, Fruit chemistry, Molecular Structure, Spectrophotometry, Infrared, Aldehydes chemistry, Spectrometry, Mass, Electrospray Ionization methods, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods

Abstract

The chemical properties accounting for the operation of a valuable matrix used in matrix-assisted laser desorption ionization (MALDI) to perform mass spectrometry imaging (MSI), namely 3-(4,5-bis(dimethylamino)napthalen-1-yl)furan-2,5-dione (4-maleicanhydridoproton sponge, MAPS), have been elucidated also by comparison with the parent molecule 1,8-bis(dimethylamino) naphthalene (so-called proton sponge, PS). Both compounds present the bis(dimethylamino) groups, apt to efficiently trap a proton imparting positive charge. Only MAPS, though, owns the maleicanhydrido function acting as electrophile and yielding covalently bound adducts with a variety of analytes. In this way, MAPS performs as "carrier" for the analyte (A) of interest, at the same time minimizing the presence of useless, background ions. The covalent character of the adducts, [MAPS+H + A] + , is testified by their collision-induced dissociation pattern, quite distinct from the one displayed by [PS + H] + , while PS does not form any [PS + H + A] + , thus confirming the key role of the maleicanhydrido functionality of MAPS. Vibrational spectroscopy of [MAPS+H + A] + adducts (A = H 2 O, NH 3 ) provided further structural evidence. The presence of a mobile proton on A was found to be a requisite for adduct formation by electrospray ionization of acetonitrile solutions, pointing to a possible role of MAPS in discriminating competing analytes based on molecular features. The performance of MAPS has been verified in MALDI-MSI of Atropa belladonna berries, exploiting MAPS binding to atropine. Graphical abstract ᅟ.

Published

2019

37. Initial Protein Unfolding Events in Ubiquitin, Cytochrome c and Myoglobin Are Revealed with the Use of 213 nm UVPD Coupled to IM-MS.

Author

Theisen A, Black R, Corinti D, Brown JM, Bellina B, and Barran PE

Subjects

Animals, Cattle, Cytochromes c metabolism, Myoglobin metabolism, Ubiquitin metabolism, Ultraviolet Rays, Cytochromes c chemistry, Ion Mobility Spectrometry methods, Myoglobin chemistry, Protein Unfolding, Ubiquitin chemistry

Abstract

The initial stages of protein unfolding may reflect the stability of the entire fold and can also reveal which parts of a protein can be perturbed, without restructuring the rest. In this work, we couple UVPD with activated ion mobility mass spectrometry to measure how three model proteins start to unfold. Ubiquitin, cytochrome c and myoglobin ions produced via nESI from salty solutions are subjected to UV irradiation pre-mobility separation; experiments are conducted with a range of source conditions which alter the conformation of the precursor ion as shown by the drift time profiles. For all three proteins, the compact structures result in less fragmentation than more extended structures which emerge following progressive in-source activation. Cleavage sites are found to differ between conformational ensembles, for example, for the dominant charge state of cytochrome c [M + 7H] 7+ , cleavage at Phe10, Thr19 and Val20 was only observed in activating conditions whilst cleavage at Ala43 is dramatically enhanced. Mapping the photo-cleaved fragments onto crystallographic structures provides insight into the local structural changes that occur as protein unfolding progresses, which is coupled to global restructuring observed in the drift time profiles. Graphical Abstract.

Published

2019

38. Photoionization mass spectrometry of ω-phenylalkylamines: Role of radical cation-π interaction.

Author

Corinti D, Catone D, Turchini S, Rondino F, Crestoni ME, and Fornarini S

Abstract

Linear ω-phenylalkylamines of increasing alkyl chain length have been investigated employing synchrotron radiation in the photon energy range from 7 to 15 eV. These molecules have received considerable interest because they bear the skeleton of biologically relevant compounds including neurotransmitters and because of the possible interaction between the amino moiety and the phenyl ring. Recently, the contribution of this interaction has been assayed in both neutral and protonated species, pointing to a role of the polymethylene chain length. In this work, the ionization energy (IE) values of benzylamine (BA), 2-phenylethylamine (2-PEA), 3-phenylpropylamine (3-PPA), and 4-phenylbutylamine (4-PBA) were investigated in order to ascertain the impact of the different alkyl chain lengths and to verify an amino radical cation-π interaction. The IEs obtained experimentally, 8.54, 8.37, 8.29, and 8.31 eV for BA, 2-PEA, 3-PPA and 4-PBA, respectively, show a decreasing trend that is discussed employing calculations at the CBS-QB3 level. Moreover, the appearance energy values for major fragments produced by the photofragmentation process are reported.

Published

2018

39. Complexation of halide ions to tyrosine: role of non-covalent interactions evidenced by IRMPD spectroscopy.

Author

Corinti D, Gregori B, Guidoni L, Scuderi D, McMahon TB, Chiavarino B, Fornarini S, and Crestoni ME

Abstract

The binding motifs in the halide adducts with tyrosine ([Tyr + X] - , X = Cl, Br, I) have been investigated and compared with the analogues with 3-nitrotyrosine (nitroTyr), a biomarker of protein nitration, in a solvent-free environment by mass-selected infrared multiple photon dissociation (IRMPD) spectroscopy over two IR frequency ranges, namely 950-1950 and 2800-3700 cm -1 . Extensive quantum chemical calculations at B3LYP, B3LYP-D3 and MP2 levels of theory have been performed using the 6-311++G(d,p) basis set to determine the geometry, relative energy and vibrational properties of likely isomers and interpret the measured spectra. A diagnostic carbonyl stretching band at ∼1720 cm -1 from the intact carboxylic group characterizes the IRMPD spectra of both [Tyr + X] - and [nitroTyr + X] - , revealing that the canonical isomers (maintaining intact amino and carboxylic functions) are the prevalent structures. The spectroscopic evidence reveals the presence of multiple non-covalent forms. The halide complexes of tyrosine conform to a mixture of plane and phenol isomers. The contribution of phenol-bound isomers is sensitive to anion size, increasing from chloride to iodide, consistent with the decreasing basicity of the halide, with relative amounts depending on the relative energies of the respective structures. The stability of the most favorable phenol isomer with respect to the reference plane geometry is in fact 1.3, -2.1, -6.8 kJ mol -1 , for X = Cl, Br, I, respectively. The change in π-acidity by ring nitration also stabilizes anion-π interactions yielding ring isomers for [nitroTyr + X] - , where the anion is placed above the face of the aromatic ring.

Published

2018

40. Cisplatin and transplatin interaction with methionine: bonding motifs assayed by vibrational spectroscopy in the isolated ionic complexes.

Author

Paciotti R, Corinti D, De Petris A, Ciavardini A, Piccirillo S, Coletti C, Re N, Maitre P, Bellina B, Barran P, Chiavarino B, Elisa Crestoni M, and Fornarini S

Subjects

DNA chemistry, DNA Adducts, Platinum, Spectrum Analysis, Vibration, Antineoplastic Agents chemistry, Cisplatin chemistry, Methionine chemistry

Abstract

Cisplatin and transplatin (cis- and trans-[PtCl 2 (NH 3 ) 2 ]) have been allowed to react with methionine (Met) in water solution in a study aimed to characterize the monofunctional complex primarily formed. The thioether function of methionine is known to have a very high affinity for square planar platinum(ii) and sulfur-containing biomolecules have been proposed as a cisplatin drug reservoir on the way to platination at DNA. Both cisplatin and transplatin yield [PtCl(NH 3 ) 2 Met] + complexes, delivered by electrospray ionization in the gas phase and sampled as isolated species using tools based on mass spectrometry. The collision induced dissociation spectra of both cis-[PtCl(NH 3 ) 2 Met] + and trans-[PtCl(NH 3 ) 2 Met] + are quite similar and also the transport properties assayed by ion mobility mass spectrometry do not allow any appreciable discrimination. However, the vibrational spectra obtained by IR multiple photon absorption (IRMPD) spectroscopy show distinct features. Their analysis, supported by quantum chemical calculations, has revealed that while cisplatin attack is mainly directed to the sulfur atom of Met, transplatin shows a more balanced partition between sulfur and nitrogen binding. Among the vibrational signatures characterizing cis-[PtCl(NH 3 ) 2 Met] + and trans-[PtCl(NH 3 ) 2 Met] + complexes, the asymmetric NH 2 stretching of the α-amino group of the amino acid at ca. 3440 cm -1 is peculiar and diagnostic of S-platination. IRMPD kinetics evaluated at this frequency support the prevailing S-attack by cisplatin while approximately a 1 : 2 ratio of S- versus N-coordination is observed by transplatin, to be possibly related to the trans effect at the platinum center.

Published

2017

41. Cisplatin Primary Complex with l-Histidine Target Revealed by IR Multiple Photon Dissociation (IRMPD) Spectroscopy.

Author

Corinti D, De Petris A, Coletti C, Re N, Chiavarino B, Crestoni ME, and Fornarini S

Subjects

Kinetics, Mass Spectrometry, Quantum Theory, Spectrophotometry, Infrared, Cisplatin analysis, Histidine analysis, Photons

Abstract

The primary complex obtained from cisplatin and l-histidine in water has been detected and isolated by electrospray ionization. The so-obtained cis-[PtCl(NH 3 ) 2 (histidine)] + complex has been characterized in detail by high-resolution mass spectrometry (MS), tandem MS, IR multiple photon dissociation (IRMPD) spectroscopy, and by quantum chemical calculations. The structural features revealed by IRMPD spectroscopy indicate that platinum binds to the imidazole group, which presents tautomeric forms. Thus, depending on the position of the amino acid pendant on the imidazole ring, isomeric complexes are formed that are remarkably different with respect to the ease with which they undergo fragmentation when activated either by energetic collisions or by multiple IR photon absorption. It is shown here how IRMPD kinetics can allow their relative proportions to be estimated., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

42. Cisplatin Binding to Biological Ligands Revealed at the Encounter Complex Level by IR Action Spectroscopy.

Author

Corinti D, Coletti C, Re N, Chiavarino B, Crestoni ME, and Fornarini S

Subjects

Antineoplastic Agents chemistry, Ligands, Molecular Conformation, Cisplatin chemistry, Magnetic Resonance Spectroscopy methods, Platinum chemistry, Spectrometry, Mass, Electrospray Ionization methods

Abstract

Cisplatin [cis-diamminedichloroplatinum(II)] was the first platinum-based antineoplastic agent and is still a cornerstone for the treatment of various solid tumors. Reactive events responsible for cisplatin activity are unveiled here at the molecular level. Simple ligands (L) representing ubiquitous functional groups in the biological environment likely to be encountered by administered cisplatin have been allowed to react with cis-[PtCl(NH3)2 (H2O)](+), the primary intermediate from cisplatin hydrolysis. The substitution reactions have been examined by a combined experimental and computational approach and the structural features of the substitution product, cis-[PtCl(NH3)2(L)](+), have been probed by IR multiple-photon dissociation (IRMPD) spectroscopy. Furthermore, IRMPD spectroscopy has been exploited to elucidate the structure of [PtCl(NH3)2(L)(H2O)](+) clusters, also obtained by electrospray ionization (ESI) from the aqueous solution and representing the major focus of this investigation. These ions conform to the encounter complex of cis-[PtCl(NH3)2 (H2O)](+) with the incoming ligand and represent the first direct evidence of a prototypical Eigen-Wilkins encounter complex in solution, lying on the reaction coordinate for ligand substitution and extracted by ESI for mass spectrometric analysis. Activated [PtCl(NH3)2(L)(H2O)](+) ions dissociate by the loss of either H2O or L, the former process implying a ligand substitution event. IRMPD spectroscopy has thus revealed both structural details and reaction dynamics at the level of the isolated encounter complex., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016