Your search keyword '"Stefanelli, M."' showing total 23 results

1. Stereospecific Self-Assembly Processes of Porphyrin-Proline Conjugates: From the Effect of Structural Features and Bulk Solvent Properties to the Application in Stereoselective Sensor Systems.

Author

Stefanelli M, Magna G, Di Natale C, Paolesse R, and Monti D

Subjects

Solvents chemistry, Proline, Molecular Conformation, Water, Porphyrins chemistry

Abstract

Conjugating the porphyrin ring with an amino acid via amide linkage represents a straightforward way for conferring both amphiphilicity and chirality to the macrocycle. Proline residue is a good choice in this context since its conformational rigidity allows for porphyrin assembling where molecular chirality is efficiently transferred and amplified using properly honed aqueous environments. Herein, we describe the evolution of the studies carried out by our group to achieve chiral systems from some porphyrin-proline derivatives, both in solution and in the solid state. The discussion focuses on some fundamental aspects reflecting on the final molecular architectures obtained, which are related to the nature of the appended group (stereochemistry and charge), the presence of a metal ion coordinated to the porphyrin core and the bulk solvent properties. Indeed, fine-tuning the mentioned parameters enables the achievement of stereospecific structures with distinctive chiroptical and morphological features. Solid films based on these chiral systems were also obtained and their recognition abilities in gaseous and liquid phase are here described.

Published

2022

2. Modulation of the 20S Proteasome Activity by Porphyrin Derivatives Is Steered through Their Charge Distribution.

Author

Persico M, Santoro AM, D'Urso A, Milardi D, Purrello R, Cunsolo A, Gobbo M, Fattorusso R, Diana D, Stefanelli M, Tundo GR, Sbardella D, Coletta M, and Fattorusso C

Subjects

Kinetics, Proteasome Inhibitors pharmacology, Proteolysis, Proteostasis, Porphyrins chemistry, Porphyrins pharmacology, Proteasome Endopeptidase Complex metabolism

Abstract

Cationic porphyrins exhibit an amazing variety of binding modes and inhibition mechanisms of 20S proteasome. Depending on the spatial distribution of their electrostatic charges, they can occupy different sites on α rings of 20S proteasome by exploiting the structural code responsible for the interaction with regulatory proteins. Indeed, they can act as competitive or allosteric inhibitors by binding at the substrate gate or at the grooves between the α subunits, respectively. Moreover, the substitution of a charged moiety in the peripheral arm with a hydrophobic moiety revealed a "new" 20S functional state with higher substrate affinity and catalytic efficiency. In the present study, we expand our structure-activity relationship (SAR) analysis in order to further explore the potential of this versatile class of 20S modulators. Therefore, we have extended the study to additional macrocyclic compounds, displaying different structural features, comparing their interaction behavior on the 20S proteasome with previously investigated compounds. In particular, in order to evaluate how the introduction of a peptidic chain can affect the affinity and the interacting mechanism of porphyrins, we investigate the MTPyApi, a porphyrin derivatized with an Arg-Pro-rich antimicrobial peptide. Moreover, to unveil the role played by the porphyrin core, this was replaced with a corrole scaffold, a "contracted" version of the tetrapyrrolic ring due to the lack of a methine bridge. The analysis has been undertaken by means of integrated kinetic, Nuclear Magnetic Resonance, and computational studies. Finally, in order to assess a potential pharmacological significance of this type of investigation, a preliminary attempt has been performed to evaluate the biological effect of these molecules on MCF7 breast cancer cells in dark conditions, envisaging that porphyrins may indeed represent a powerful tool for the modulation of cellular proteostasis.

Published

2022

3. Tunable Supramolecular Chirogenesis in the Self-Assembling of Amphiphilic Porphyrin Triggered by Chiral Amines.

Author

Savioli M, Stefanelli M, Magna G, Zurlo F, Caso MF, Cimino R, Goletti C, Venanzi M, Di Natale C, Paolesse R, and Monti D

Subjects

Stereoisomerism, Porphyrins chemistry

Abstract

Supramolecular chirality is one of the most important issues in different branches of science and technology, as stereoselective molecular recognition, catalysis, and sensors. In this paper, we report on the self-assembly of amphiphilic porphyrin derivatives possessing a chiral information on the periphery of the macrocycle (i.e., D - or L -proline moieties), in the presence of chiral amines as co-solute, such as chiral benzylamine derivatives. The aggregation process, steered by hydrophobic effect, has been studied in aqueous solvent mixtures by combined spectroscopic and topographic techniques. The results obtained pointed out a dramatic effect of these ligands on the morphology and on the supramolecular chirality of the final self-assembled structures. Scanning electron microscopy topography, as well as fluorescence microscopy studies revealed the formation of rod-like structures of micrometric size, different from the fractal structures formerly observed when the self-assembly process is carried out in the absence of chiral amine co-solutes. On the other hand, comparative experiments with an achiral porphyrin analogue strongly suggested that the presence of the prolinate moiety is mandatory for the achievement of the observed highly organized suprastructures. The results obtained would be of importance for unraveling the intimate mechanisms operating in the selection of the homochirality, and for the preparation of sensitive materials for the detection of chiral analytes, with tunable stereoselectivity and morphology.

Published

2020

4. The Self-Aggregation of Porphyrins with Multiple Chiral Centers in Organic/Aqueous Media: The Case of Sugar- and Steroid-Porphyrin Conjugates.

Author

Stefanelli M, Mandoj F, Magna G, Lettieri R, Venanzi M, Paolesse R, and Monti D

Subjects

Kinetics, Spectrophotometry, Ultraviolet, Stereoisomerism, Molecular Dynamics Simulation, Porphyrins chemistry, Sugars chemistry

Abstract

An overview of the solvent-driven aggregation of a series of chiral porphyrin derivatives studied by optical methods (UV/Vis, fluorescence, CD and RLS spectroscopies) is herein reported. The investigated porphyrins are characterized by the presence in the meso-positions of glycol-, steroidal- and glucosteroidal moieties, conferring amphiphilicity and solubility in aqueous media to the primarily hydrophobic porphyrin platform. Aggregation of the macrocycles is driven by a change in bulk solvent composition, forming architectures with supramolecular chirality, steered by the stereogenic centers on the porphyrin peripheral positions. The aggregation behavior and chiroptical properties of the final aggregated species strongly depend on the number and stereogenicity of the ancillary groups that dictate the mutual spatial arrangement of the porphyrin chromophores and their further organization in larger structures, usually detectable by different microscopies, such as AFM and SEM. Kinetic studies are fundamental to understand the aggregation mechanism, which is frequently found to be dependent on the substrate concentration. Additionally, Molecular Mechanics calculations can give insights into the intimate nature of the driving forces governing the self-assembly process. The critical use of these combined methods can shed light on the overall self-assembly process of chirally-functionalized macrocycles, with important implications on the development of chiral porphyrin-based materials.

Published

2020

5. Amphiphilic Porphyrin Aggregates: A DFT Investigation.

Author

Sabuzi F, Stefanelli M, Monti D, Conte V, and Galloni P

Subjects

Density Functional Theory, Molecular Structure, Protein Binding, Protein Conformation, Protein Multimerization, Spectrum Analysis, Models, Molecular, Porphyrins chemistry, Protein Aggregates

Abstract

Owing to the attractive potential applications of porphyrin assemblies in photocatalysis, sensors, and material science, studies presently concerning porphyrin aggregation are widely diffused. π-π stacking, H-bonding, metal coordination, hydrophobic effect, and electrostatic forces usually drive porphyrin interaction in solution. However, theoretical studies of such phenomena are still limited. Therefore, a computational examination of the different porphyrin aggregation approaches is proposed here, taking into account amphiphilic [5-{4-(3-trimethylammonium)propyloxyphenyl}-10,15,20-triphenylporphyrin] chloride, whose aggregation behavior has been previously experimentally investigated. Different functionals have been adopted to investigate the porphyrin dimeric species, considering long-range interactions. Geometry optimization has been performed, showing that for the compound under analysis, H-type and cation-π dimers are the most favored structures that likely co-exist in aqueous solution. Of note, frontier orbital delocalization showed an interesting interaction between the porphyrin units in the dimer at the supramolecular level.

Published

2019

6. The Assembly of Porphyrin Systems in Well-Defined Nanostructures: An Update.

Author

Magna G, Monti D, Di Natale C, Paolesse R, and Stefanelli M

Subjects

Drug Delivery Systems methods, Light, Nanomedicine methods, Nanostructures chemistry, Porphyrins chemistry

Abstract

The interest in assembling porphyrin derivatives is widespread and is accounted by the impressive impact of these suprastructures of controlled size and shapes in many applications from nanomedicine and sensors to photocatalysis and optoelectronics. The massive use of porphyrin dyes as molecular building blocks of functional materials at different length scales relies on the interdependent pair properties, consisting of their chemical stability/synthetic versatility and their quite unique physicochemical properties. Remarkably, the driven spatial arrangement of these platforms in well-defined suprastructures can synergically amplify the already excellent properties of the individual monomers, improving conjugation and enlarging the intensity of the absorption range of visible light, or forming an internal electric field exploitable in light-harvesting and charge-and energy-transport processes. The countless potentialities offered by these systems means that self-assembly concepts and tools are constantly explored, as confirmed by the significant number of published articles related to porphyrin assemblies in the 2015-2019 period, which is the focus of this review.

Published

2019

7. Electrostatic Map Of Proteasome α-Rings Encodes The Design of Allosteric Porphyrin-Based Inhibitors Able To Affect 20S Conformation By Cooperative Binding.

Author

Dato AD, Cunsolo A, Persico M, Santoro AM, D'Urso A, Milardi D, Purrello R, Stefanelli M, Paolesse R, Tundo GR, Sbardella D, Fattorusso C, and Coletta M

Subjects

Binding Sites, Cryoelectron Microscopy, Humans, Kinetics, Molecular Docking Simulation, Mutagenesis, Porphyrins chemistry, Porphyrins metabolism, Proteasome Endopeptidase Complex chemistry, Proteasome Endopeptidase Complex genetics, Protein Structure, Quaternary, Protein Subunits chemistry, Protein Subunits genetics, Protein Subunits metabolism, Static Electricity, Allosteric Regulation drug effects, Porphyrins pharmacology, Proteasome Endopeptidase Complex metabolism, Proteasome Inhibitors pharmacology

Abstract

The importance of allosteric proteasome inhibition in the treatment of cancer is becoming increasingly evident. Motivated by this urgent therapeutic need, we have recently identified cationic porphyrins as a highly versatile class of molecules able to regulate proteasome activity by interfering with gating mechanisms. In the present study, the mapping of electrostatic contacts bridging the regulatory particles with the α-rings of the human 20S proteasome led us to the identification of (meso-tetrakis(4-N-methylphenyl pyridyl)-porphyrin (pTMPyPP4) as a novel non-competitive inhibitor of human 20S proteasome. pTMPyPP4 inhibition mechanism implies a positive cooperative binding to proteasome, which disappears when a permanently open proteasome mutant (α-3ΔN) is used, supporting the hypothesis that the events associated with allosteric proteasome inhibition by pTMPyPP4 interfere with 20S gating and affect its "open-closed" equilibrium. Therefore, we propose that the spatial distribution of the negatively charged residues responsible for the interaction with regulatory particles at the α-ring surface of human 20S may be exploited as a blueprint for the design of allosteric proteasome regulators.

Published

2017

8. Porphyrinoids for Chemical Sensor Applications.

Author

Paolesse R, Nardis S, Monti D, Stefanelli M, and Di Natale C

Subjects

Dopamine analysis, Electrodes, Gases, Hydrogen Peroxide analysis, Nanotubes chemistry, Neurotransmitter Agents analysis, Nitric Oxide analysis, Potentiometry, Spectrum Analysis methods, Porphyrins chemistry

Abstract

Porphyrins and related macrocycles have been intensively exploited as sensing materials in chemical sensors, since in these devices they mimic most of their biological functions, such as reversible binding, catalytic activation, and optical changes. Such a magnificent bouquet of properties allows applying porphyrin derivatives to different transducers, ranging from nanogravimetric to optical devices, also enabling the realization of multifunctional chemical sensors, in which multiple transduction mechanisms are applied to the same sensing layer. Potential applications are further expanded through sensor arrays, where cross-selective sensing layers can be applied for the analysis of complex chemical matrices. The possibility of finely tuning the macrocycle properties by synthetic modification of the different components of the porphyrin ring, such as peripheral substituents, molecular skeleton, coordinated metal, allows creating a vast library of porphyrinoid-based sensing layers. From among these, one can select optimal arrays for a particular application. This feature is particularly suitable for sensor array applications, where cross-selective receptors are required. This Review briefly describes chemical sensor principles. The main part of the Review is divided into two sections, describing the porphyrin-based devices devoted to the detection of gaseous or liquid samples, according to the corresponding transduction mechanism. Although most devices are based on porphyrin derivatives, seminal examples of the application of corroles or other porphyrin analogues are evidenced in dedicated sections.

Published

2017

9. 5,10,15-Triferrocenylcorrole Complexes.

Author

Pomarico G, Galloni P, Mandoj F, Nardis S, Stefanelli M, Vecchi A, Lentini S, Cicero DO, Cui Y, Zeng L, Kadish KM, and Paolesse R

Subjects

Carbon-13 Magnetic Resonance Spectroscopy, Electrochemistry, Oxidation-Reduction, Proton Magnetic Resonance Spectroscopy, Spectrophotometry, Ultraviolet, Iron Compounds chemistry, Porphyrins chemistry

Abstract

Complexes of 5,10,15-triferrocenylcorrole were synthesized from the crude free-base corrole product obtained by the reaction of ferrocenyl aldehyde and pyrrole. Direct formation of the complex in this manner leads to an increase of the reaction yield by protecting the corrole ring toward oxidative decomposition. The procedure was successful and gave the expected product in the case of the copper and triphenylphosphinecobalt complexes, but an unexpected result was obtained in the case of the nickel derivative, where metal insertion led to a ring opening of the macrocycle at the 5 position, giving as a final product a linear tetrapyrrole nickel complex bearing two ferrocenyl groups. The purified 5,10,15-triferrocenylcorrole complexes have been fully characterized by a combination of spectroscopic methods, electrochemistry, spectroelectrochemistry, and density functional theory calculations. Copper derivatives of 10-monoferrocenyl- and 5,15-diferrocenylcorrole were prepared to investigate how the number and position of the ferrocenyl groups influenced the spectroscopic and electrochemical properties of the resulting complexes. A complete assignment of resonances in the (1)H and (13)C NMR spectra was performed for the cobalt and nickel complexes, and detailed electrochemical characterization was carried out to provide additional insight into the degree of communication between the meso-ferrocenyl groups on the conjugated macrocycle and the central metal ion of the ferrocenylcorrole derivatives.

Published

2015

10. Corrole and nucleophilic aromatic substitution are not incompatible: a novel route to 2,3-difunctionalized copper corrolates.

Author

Stefanelli M, Mandoj F, Nardis S, Raggio M, Fronczek FR, McCandless GT, Smith KM, and Paolesse R

Subjects

Chemistry Techniques, Synthetic, Crystallography, X-Ray, Magnetic Resonance Spectroscopy, Malonates chemistry, Molecular Structure, Organometallic Compounds chemistry, Pyrroles chemistry, Spectrophotometry, Ultraviolet, Copper chemistry, Porphyrins chemistry

Abstract

The insertion of a -NO2 group onto the corrole framework represents a key step for subsequent synthetic manipulation of the macrocycle based on the chemical versatility of such a functionality. Here we report results of the investigation of a copper 3-NO2-triarylcorrolate in nucleophilic aromatic substitution reactions with "active" methylene carbanions, namely diethyl malonate and diethyl 2-chloromalonate. Although similar reactions on nitroporphyrins afford chlorin derivatives, nucleophilic attack on carbon-2 of corrole produces 2,3-difunctionalized Cu corrolates in acceptable yields (ca. 30%), evidencing once again the erratic chemistry of this contracted porphyrinoid.

Published

2015

11. 3-NO2-5,10,15-triarylcorrolato-Cu as a versatile platform for synthesis of novel 3-functionalized corrole derivatives.

Author

Stefanelli M, Mancini M, Raggio M, Nardis S, Fronczek FR, McCandless GT, Smith KM, and Paolesse R

Subjects

Acylation, Click Chemistry, Cycloaddition Reaction, Molecular Conformation, Copper chemistry, Nitrogen Dioxide chemistry, Porphyrins chemical synthesis, Porphyrins chemistry

Abstract

β-Nitrocorroles are potentially valuable platforms for the preparation of a wide range of more elaborated corrole derivatives possessing unique chemical functionalities and electronic properties. Here we report our results on the chemical manipulation of a copper 3-NO2-triarylcorrolate using different organic reactions, all involving the reduction of -NO2 to -NH2 at an early stage, followed by further transformations. By way of a β-acylated copper corrolate, a novel corrole derivative bearing an alkyl azide group on the peripheral positions was obtained and exploited in the Huisgen 1,3-dipolar cycloaddition.

Published

2014

12. β-Nitro-5,10,15-tritolylcorroles.

Author

Stefanelli M, Pomarico G, Tortora L, Nardis S, Fronczek FR, McCandless GT, Smith KM, Manowong M, Fang Y, Chen P, Kadish KM, Rosa A, Ricciardi G, and Paolesse R

Subjects

Molecular Structure, Porphyrins chemistry, Quantum Theory, Porphyrins chemical synthesis

Abstract

Functionalization of the β-pyrrolic positions of the corrole macrocycle with -NO(2) groups is limited at present to metallocorrolates due to the instability exhibited by corrole free bases under oxidizing conditions. A careful choice of the oxidant can limit the transformation of corroles into decomposition products or isocorrole species, preserving the corrole aromaticity, and thus allowing the insertion of nitro groups onto the corrole framework. Here we report results obtained by reacting 5,10,15-tritolylcorrole (TTCorrH(3)) with the AgNO(2)/NaNO(2) system, to give mono- and dinitrocorrole derivatives when stoichiometry is carefully controlled. Reactions were found to be regioselective, affording the 3-NO(2)TTCorrH(3) and 3,17-(NO(2))(2)TTCorrH(3) isomers as the main products in the case of mono- and disubstitution, in 53 and 20% yields, respectively. In both cases, traces of other mono- and disubstituted isomers were detected, which were structurally characterized by X-ray crystallography. The influence of the β-nitro substituents on the corrole properties is studied in detail by UV-visible, electrochemical, and spectroelectrochemical characterization of these functionalized corroles. Density functional theory (DFT) and time-dependent DFT (TDDFT) calculations of the ground and excited state properties of these β-nitrocorrole derivatives also afforded significant information, closely matching the experimental observations. It is found that the β-NO(2) substituents conjugate with the π-aromatic system of the macrocycle, which initiates significant changes in both the spectroscopic and redox properties of the so functionalized corroles. This effect is more pronounced when the nitro group is introduced at the 2-position, because in this case the conjugation is, for steric reasons, more efficient than in the 3-nitro isomer.

Published

2012

13. β-Nitro derivatives of iron corrolates.

Author

Nardis S, Stefanelli M, Mohite P, Pomarico G, Tortora L, Manowong M, Chen P, Kadish KM, Fronczek FR, McCandless GT, Smith KM, and Paolesse R

Subjects

Crystallography, X-Ray, Models, Molecular, Spectrometry, Mass, Fast Atom Bombardment, Spectrophotometry, Ultraviolet, Iron chemistry, Nitro Compounds chemistry, Porphyrins chemistry

Abstract

Two different methods for the regioselective nitration of different meso-triarylcorroles leading to the corresponding β-substituted nitrocorrole iron complexes have been developed. A two-step procedure affords three Fe(III) nitrosyl products-the unsubstituted corrole, the 3-nitrocorrole, and the 3,17-dinitrocorrole. In contrast, a one-pot synthetic approach drives the reaction almost exclusively to formation of the iron nitrosyl 3,17-dinitrocorrole. Electron-releasing substituents on the meso-aryl groups of the triarylcorroles induce higher yields and longer reaction times than what is observed for the synthesis of similar triarylcorroles with electron-withdrawing functionalities, and these results can be confidently attributed to the facile formation and stabilization of an intermediate iron corrole π-cation radical. Electron-withdrawing substituents on the meso-aryl groups of triarylcorrole also seem to labilize the axial nitrosyl group which, in the case of the pentafluorophenylcorrole derivative, results in the direct formation of a disubstituted iron μ-oxo dimer complex. The influence of meso-aryl substituents on the progress and products of the nitration reaction was investigated. In addition, to elucidate the most important factors which influence the redox reactivity of these different iron nitrosyl complexes, selected compounds were examined by cyclic voltammetry and thin-layer UV-visible or FTIR spectroelectrochemistry in CH(2)Cl(2)., (© 2012 American Chemical Society)

Published

2012

14. Amination reaction on copper and germanium β-nitrocorrolates.

Author

Stefanelli M, Mandoj F, Mastroianni M, Nardis S, Mohite P, Fronczek FR, Smith KM, Kadish KM, Xiao X, Ou Z, Chen P, and Paolesse R

Subjects

Amination, Electrochemistry, Models, Molecular, Molecular Structure, Organometallic Compounds chemistry, Stereoisomerism, Triazoles chemistry, Copper chemistry, Germanium chemistry, Organometallic Compounds chemical synthesis, Porphyrins chemistry

Abstract

Copper and germanium complexes of β-substituted nitrocorroles were reacted with 4-amino-4H-1,2,4-triazole to give the corresponding β-amino-β-nitro derivatives, in moderate to good yields. This is the first successful example of a vicarious nucleophilic substitution performed on corrole derivatives, because the same reaction carried out on silver complexes afforded the corresponding 6-azahemiporphycenes by way of corrole ring expansion. The first step of this work is related to the modification of a synthetic protocol for preparation of the β-substituted nitro corroles. The nitration reaction was carried out on a copper corrole using NaNO(2) as the primary source of NO(2)(-) coupled with AgNO(2) used as oxidant. By variation of the molar ratio of the reagents it was possible to direct the product distribution toward mono- and dinitro derivatives. The reaction between mono- and dinitro derivatives of (TtBuCorrCu) with 4-amino-4H-1,2,4-triazole gave good results, leading to the isolation of 2-(NH(2))-3-(NO(2))-TtBuCorrCu and 2,18-(NH(2))(2)-3,17-(NO(2))(2)-TtBuCorrCu in moderate yields. To elucidate factors that influence the reaction, and to highlight the different behavior observed for different metal complex substrates, the electrochemistry of three copper complexes, TtBuPCorrCu, (NO(2))TtBuPCorrCu, and (NO(2))(2)TtBuPCorrCu, was studied by cyclic voltammetry and thin-layer UV-visible spectroelectrochemistry. The nitro groups on (NO(2))(x)TtBuPCorrCu are highly electron-withdrawing, which leads not only to a substantial positive shift of all redox potentials but also to a unique redox behavior and UV-vis spectrum of the singly reduced product as compared to the parent compound, TtBuPCorrCu. Finally, the amination reaction was carried out on a Ge(IV) nitrocorrolate, giving in good yield the 2-amino-3-nitroderivative, which was structurally characterized by single crystal X-ray crystallography.

Published

2011

15. Nitration of iron corrolates: further evidence for non-innocence of the corrole ligand.

Author

Stefanelli M, Nardis S, Tortora L, Fronczek FR, Smith KM, Licoccia S, and Paolesse R

Subjects

Coordination Complexes chemistry, Crystallography, X-Ray, Ligands, Molecular Conformation, Oxidation-Reduction, Sodium Nitrite chemistry, Iron chemistry, Porphyrins chemistry

Abstract

Mono- and di-substituted β-nitro derivatives have been obtained from the reaction of ttcorrFeCl with sodium nitrite in refluxing DMF. This result is unprecedented for iron corrolates and further evidences the non-innocent character of the corrole ligand.

Published

2011

16. 6-Azahemiporphycene: a new member of the porphyrinoid family.

Author

Mandoj F, Nardis S, Pomarico G, Stefanelli M, Schiaffino L, Ercolani G, Prodi L, Genovese D, Zaccheroni N, Fronczek FR, Smith KM, Xiao X, Shen J, Kadish KM, and Paolesse R

Subjects

Magnetic Resonance Spectroscopy, Molecular Structure, Oxidation-Reduction, Porphyrins classification, Porphyrins chemistry, Pyridines chemistry, Quantum Theory

Abstract

The reaction of 5,10,15-triarylcorrole with 4-amino-4H-1,2,4-triazole provides another example of corrole ring expansion to give the corresponding 6-azahemiporphycene, a novel porphyrin analogue. The facile oxidation of the corrole ring is a required step for the ring expansion and for this reason the reaction fails in the case of corroles bearing meso-phenyl groups carrying electron-withdrawing substituents. Steric requirements also limited the scope of the reaction, which is not successful in the case of 2,6-disubstituted meso-aryl corroles. The occurrence of an initial oxidation is further supported by formation of the 6-azahemiporphycene derivative when the reaction is carried out under the same conditions, using a 5- or a 10-isocorrole as starting material. (1)H NMR spectra and X-ray crystal characterization of 6-azahemiporphycene evidenced the presence of an intramolecular N-H...N hydrogen bond in the inner core of the macrocycle, while photophysical characterization confirmed the aromatic character of the novel macrocycle, showing an intense Soret-like band around 410 nm in the absorption spectrum. The fluorescence emission is very modest, and 6-azahemiporphycene showed higher photostability than the corresponding corrole species. Different metal complexes of 6-azahemiporphycene were prepared following synthetic protocols usually exploited for the preparation of metalloporphyrins, demonstrating good coordination properties for the macrocycle. Both the free-base and metal derivatives were characterized by cyclic voltammetry and spectroelectrochemistry in dichloromethane and benzonitrile. To further detail the behavior of this novel macrocycle, density functional theory (DFT) calculations were carried out on the basic structure of 6-azahemiporphycene with the aim of assessing aromaticity and tautomerism, as well as calculating its stability with respect to the 5-aza isomer.

Published

2009

17. Demetalation of silver(III) corrolates.

Author

Stefanelli M, Shen J, Zhu W, Mastroianni M, Mandoj F, Nardis S, Ou Z, Kadish KM, Fronczek FR, Smith KM, and Paolesse R

Subjects

Crystallography, X-Ray, Electrochemistry, Models, Molecular, Pyridines chemistry, Coordination Complexes chemistry, Porphyrins chemistry, Silver chemistry

Abstract

Several procedures for the demetalation of silver(III) corrolates have been tested. Acidic conditions induce removal of the silver ion but they can also promote concomitant oxidation of the corrole nucleus to an isocorrole species, the degree of which will depend upon the specific acidic media. This oxidation cannot be completely avoided by addition of hydrazine, particularly in the case of 3-NO(2) substituted complexes which are quantitatively converted into the corresponding 3-NO(2), 5-hydroxy isocorroles upon silver ion removal. Several beta-nitro isocorrole products were isolated, and one was structurally characterized. Electrochemical and chemical reductive methods for silver(III) corrolates demetalation were then tested with the aim to avoid the formation of isocorroles. While reaction with sodium borohydride was shown to be quite effective to demetalate unsubstituted silver corrolates this was not the case for the beta-nitro derivatives where the peripheral nitro group is reduced by borohydride giving the corresponding 3-amino free base corrole species. For the beta-nitro corrole silver complexes, a successful approach was obtained using DBU/THF solutions which afforded the 3-NO(2) corrole free-base compound as a single reaction product in good yield. These conditions were also effective for unsubstituted corroles although longer reaction times were necessary in this case. To study in greater detail the corrole demetalation behavior, selected Ag(III) derivatives were characterized by cyclic voltammetry in pyridine, and the demetalation products spectrally characterized after controlled potential reduction in a thin-layer spectroelectrochemical cell.

Published

2009

18. Chiral amplification of chiral porphyrin derivatives by templated heteroaggregation.

Author

Monti D, Venanzi M, Stefanelli M, Sorrenti A, Mancini G, Di Natale C, and Paolesse R

Subjects

Circular Dichroism, Light, Porphyrins chemistry, Scattering, Radiation, Spectrophotometry, Ultraviolet, Static Electricity, Stereoisomerism, Porphyrins chemical synthesis

Published

2007

19. Hemiporphycene from the expansion of a corrole ring.

Author

Paolesse R, Nardis S, Stefanelli M, Fronczek FR, and Vicente MG

Subjects

Crystallography, X-Ray, Models, Molecular, Molecular Structure, Porphyrins chemical synthesis, Porphyrins chemistry

Published

2005

20. Novel receptor systems based on porphyrins and related macrocycles

Author

Stefanelli, M

Subjects

nitrazione, porfirine, chirality, aggregati supramolecolari, sistemi host-guest, porphyrins, resorcinarenes, molecular recognition, chemical sensors (electronic nose), supramolecular aggregates, corroles, nitration, Settore CHIM/04 - Chimica Industriale, resorcinareni, riconoscimento molecolare, chiralità, sensori chimici (naso elettronico), corroli

Published

2009

21. STUDIES ON CHIRAL SELF-ORGANISATION OF AMPHIPHILIC PORPHYRIN DERIVATIVES. COMPARISON BETWEEN MORPHOLOGY IN SOLUTION AND IN SOLID STATE.

Author

MONTI, D., STEFANELLI, M., VENANZI, M., CARBONE, M., PAOLESSE, R., DI NATALE, C., D'AMICO, A., TURCHINI, S., GIRASOLE, M., and POMPEO, G.

Subjects

CHIRALITY, AMPHIPHILES, CHEMICAL derivatives, PORPHYRINS, CRYSTAL morphology, CHEMICAL detectors

Published

2008

22. Proline enantiomers discrimination by (L)-prolinated porphyrin derivative Langmuir-Schaefer films: proof of concept for chiral sensing applications

Author

Gabriele Giancane, Rosanna Pagano, Mario Luigi Naitana, Gabriele Magna, Manuela Stefanelli, Donato Monti, Roberto Paolesse, Simona Bettini, Ludovico Valli, Giancane, G., Pagano, R., Naitana, M. L., Magna, G., Stefanelli, M., Monti, D., Paolesse, R., Bettini, S., and Valli, L.

Subjects

supramolecular aggregation, Langmuir–Schaefer technique, chiral discrimination, Settore CHIM/02, chirality, Settore CHIM/07, Physical and Theoretical Chemistry, proline, porphyrins, porphyrin, Langmuir-Schaefer techniques, Langmuir–Schaefer techniques, Analytical Chemistry

Abstract

A porphyrin derivative functionalized with the L-enantiomer of proline amino acid was characterized at the air–pure water interface of the Langmuir trough. The porphyrin derivative was dissolved in dichloromethane solution, spread at the air–subphase interface and investigated by acquiring the surface pressure vs. area per molecule Langmuir curves. It is worth observing that the behavior of the molecules of the porphyrin derivative floating film was substantially influenced by the presence of L-proline amino acid dissolved in the subphase (10−5 M); on the contrary, the physical chemical features of the floating molecules were only slightly influenced by the D-proline dissolved in the subphase. Such an interesting chirality-driven selection was preserved when the floating film was transferred onto solid supports by means of the Langmuir–Schaefer method, but it did not emerge when a spin-coating technique was used for the layering of the tetrapyrrolic derivatives. The obtained results represent proof of concept for the realization of active molecular layers for chiral discrimination: porphyrin derivatives, due to their intriguing spectroscopic and supramolecular properties, can be functionalized with the chiral molecule that should be detected. Moreover, the results emphasize the crucial role of the deposition technique on the features of the sensing layers.

Published

2022

23. Modulation of the 20S Proteasome Activity by Porphyrin Derivatives Is Steered through Their Charge Distribution

Author

Marco Persico, Anna Maria Santoro, Alessandro D’Urso, Danilo Milardi, Roberto Purrello, Alessandra Cunsolo, Marina Gobbo, Roberto Fattorusso, Donatella Diana, Manuela Stefanelli, Grazia R. Tundo, Diego Sbardella, Massimo Coletta, Caterina Fattorusso, Persico, M., Santoro, A. M., D'Urso, A., Milardi, D., Purrello, R., Cunsolo, A., Gobbo, M., Fattorusso, R., Diana, D., Stefanelli, M., Tundo, G. R., Sbardella, D., Coletta, M., and Fattorusso, C.

Subjects

Kinetic, kinetic studie, Proteasome Endopeptidase Complex, Porphyrins, cationic porphyrins, h20S proteasome modulators, kinetic studies, molecular docking, NMR, Kinetics, Proteasome Inhibitors, Proteolysis, Proteostasis, cationic porphyrin, Biochemistry, Proteasome Inhibitor, Porphyrin, h20S proteasome modulator, Settore BIO/10, Proteolysi, Molecular Biology, Proteostasi

Abstract

Cationic porphyrins exhibit an amazing variety of binding modes and inhibition mechanisms of 20S proteasome. Depending on the spatial distribution of their electrostatic charges, they can occupy different sites on α rings of 20S proteasome by exploiting the structural code responsible for the interaction with regulatory proteins. Indeed, they can act as competitive or allosteric inhibitors by binding at the substrate gate or at the grooves between the α subunits, respectively. Moreover, the substitution of a charged moiety in the peripheral arm with a hydrophobic moiety revealed a “new” 20S functional state with higher substrate affinity and catalytic efficiency. In the present study, we expand our structure–activity relationship (SAR) analysis in order to further explore the potential of this versatile class of 20S modulators. Therefore, we have extended the study to additional macrocyclic compounds, displaying different structural features, comparing their interaction behavior on the 20S proteasome with previously investigated compounds. In particular, in order to evaluate how the introduction of a peptidic chain can affect the affinity and the interacting mechanism of porphyrins, we investigate the MTPyApi, a porphyrin derivatized with an Arg–Pro-rich antimicrobial peptide. Moreover, to unveil the role played by the porphyrin core, this was replaced with a corrole scaffold, a “contracted” version of the tetrapyrrolic ring due to the lack of a methine bridge. The analysis has been undertaken by means of integrated kinetic, Nuclear Magnetic Resonance, and computational studies. Finally, in order to assess a potential pharmacological significance of this type of investigation, a preliminary attempt has been performed to evaluate the biological effect of these molecules on MCF7 breast cancer cells in dark conditions, envisaging that porphyrins may indeed represent a powerful tool for the modulation of cellular proteostasis.

Published

2022