Your search keyword '"S. Pieraccini"' showing total 175 results

101. Molecular Dynamics Simulations of p97 Including Covalent, Allosteric and ATP-competitive Inhibitors.

Author

Rendine S, Orrenius C, Dapiaggi F, Pieraccini S, Motto I, D'Alessio R, Magnaghi P, Isacchi A, Felder E, and Sironi M

Abstract

Binary (nucleotide-protein dimer and hexamer complexes) and ternary (nucleotide-protein-inhibitor complexes) p97 complexes were subjected to molecular dynamics simulations in an attempt to further our understanding of the p97 protein oligomer domain stability and, more importantly, of the recently reported diverse molecular mechanisms of inhibition including allosteric, ATP-competitive and covalent inhibitors. Analysis of stable states following equilibration phases indicated a higher intrinsic stability of the homohexamer as opposed to the dimer, and of N-D1 domains as opposed to the D2 domain. The molecular dynamics of the proposed allosteric binding model reproduced important molecular interactions identified experimentally with high frequency throughout the trajectory. Observed conformational changes occurring in the D2 nucleotide binding site provided a novel bind-rearrange-react hypothesis of stepwise molecular events involved in the specific covalent inhibitor mode of action.

Published

2019

102. The selective disruption of presynaptic JNK2/STX1a interaction reduces NMDA receptor-dependent glutamate release.

Author

Marcelli S, Iannuzzi F, Ficulle E, Mango D, Pieraccini S, Pellegrino S, Corbo M, Sironi M, Pittaluga A, Nisticò R, and Feligioni M

Subjects

Animals, Binding Sites drug effects, Cell-Penetrating Peptides chemistry, Cell-Penetrating Peptides pharmacology, HEK293 Cells, Humans, Injections, Intraperitoneal, Mice, Mitogen-Activated Protein Kinase 9 chemistry, Models, Molecular, Protein Binding drug effects, Protein Conformation, Syntaxin 1 chemistry, Cell-Penetrating Peptides administration & dosage, Glutamic Acid metabolism, Mitogen-Activated Protein Kinase 9 metabolism, Receptors, N-Methyl-D-Aspartate metabolism, Syntaxin 1 metabolism

Abstract

The neuronal loss caused by excessive glutamate release, or 'excitotoxicity', leads to several pathological conditions, including cerebral ischemia, epilepsy, and neurodegenerative diseases. Over-stimulation of presynaptic N-methyl-D-aspartate (NMDA) receptors is known to trigger and support glutamate spillover, while postsynaptic NMDA receptors are responsible for the subsequent apoptotic cascade. Almost all molecules developed so far are unable to selectively block presynaptic or postsynaptic NMDA receptors, therefore a deeper knowledge about intracellular NMDA pathways is required to design more specific inhibitors. Our previous work showed that presynaptic c-Jun N-terminal kinase 2 (JNK2) specifically regulates NMDA-evoked glutamate release and here we demonstrate that an interaction between Syntaxin-1a and JNK2 is fundamental to this mechanism. Based on this evidence, a new cell permeable peptide (CPP), "JGRi1", has been developed to disrupt the JNK2/STX1a interaction to indirectly, but specifically, inhibit presynaptic NMDA receptor signaling. JGRi1 reduces the NMDA-evoked release of glutamate both in in-vitro and ex-vivo experiments while also being able to widely diffuse throughout brain tissue via intraperitoneal administration. In conclusion, the JNK2/STX1 interaction is involved in presynaptic NMDA-evoked glutamate release and the novel CPP, JGRi1, acts as a pharmacological tool that promotes neuroprotection.

Published

2019

103. Bicyclic Pyrrolidine-Isoxazoline γ Amino Acid: A Constrained Scaffold for Stabilizing α-Turn Conformation in Isolated Peptides.

Author

Oliva F, Bucci R, Tamborini L, Pieraccini S, Pinto A, and Pellegrino S

Abstract

Unnatural amino acids have tremendously expanded the folding possibilities of peptides and peptide mimics. While α,α-disubstituted and β-amino acids are widely studied, γ-derivatives have been less exploited. Here we report the conformational study on the bicyclic unnatural γ amino acid, 4,5,6,6a-tetrahydro-3a H -pyrrolo[3,4-d]isoxazole-3-carboxylic acid 1 . In model peptides, the (+)-(3a R 6a S )-enantiomer is able to stabilize α-turn conformation when associated to glycine, as showed by 1 H-NMR, FT-IR, and circular dichroism experiments, and molecular modeling studies. α-turn is a structural motif occurring in many biologically active protein sites, although its stabilization on isolated peptides is quite uncommon. Our results make the unnatural γ-amino acid 1 of particular interest for the development of bioactive peptidomimetics.

Published

2019

104. Playing supramolecular dominoes with light: building and breaking a photoreversible G-quadruplex made from guanosine, boric acid and an azobenzene.

Author

Pieraccini S, Campitiello M, Carducci F, Davis JT, Mariani P, and Masiero S

Subjects

Models, Molecular, Azo Compounds chemistry, Boric Acids chemistry, G-Quadruplexes, Guanosine chemistry, Photochemical Processes

Abstract

Addition of azobenzene-derivative 1 in its E configuration to an aqueous solution containing various guanosine borate esters induces a helical G-quartet based self-organization, stabilized by intercalation of the dye. The process is driven, in a domino fashion, by the initial host-guest interaction between the dye and a specific guanosine borate diester, whose structure can be thus assigned. This inclusion complex templates the formation of G-quartets. The quartets, in turn, pile up to form a supramolecular G-quadruplex structure, in which other G species present in solution are progressively included. The G-quadruplex can be reversibly broken and reformed by photoisomerization of the dye. This hierarchical and photosensitive self-assembly is unprecedented for simple guanosine derivatives.

Published

2019

105. Synthesis of Thicolchicine-Based Conjugates: Investigation towards Bivalent Tubulin/Microtubules Binders.

Author

Bonandi E, Foschi F, Marucci C, Dapiaggi F, Sironi M, Pieraccini S, Christodoulou MS, de Asís Balaguer F, Díaz JF, Zidar N, and Passarella D

Subjects

Antineoplastic Agents pharmacology, Binding Sites, Cell Line, Tumor, Cell Proliferation drug effects, Colchicine chemistry, Colchicine metabolism, Humans, Ligands, Molecular Dynamics Simulation, Stereoisomerism, Tubulin chemistry, Antineoplastic Agents chemical synthesis, Colchicine analogs & derivatives, Tubulin metabolism

Abstract

Four different hybrid compounds have been efficiently synthesized by conjugation of deacetylthiocolchicine with pironetin-inspired derivatives. The modest bioactivity and the apparent absence of interaction with α-tubulin is explained by a posteriori in silico investigation, which suggests a relevant distance between the thiocolchicine binding site and the proper pocket on the α-tubulin. The modest activity on resistant cells suggested that the lipophilic nature of the linker used renders the resulting compounds better substrates for p-Gp efflux pumps. The study better clarifies the design of bivalent compounds that target hetero tubulin/microtubules., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

106. X-ray Constrained Spin-Coupled Wavefunction: a New Tool to Extract Chemical Information from X-ray Diffraction Data.

Author

Genoni A, Franchini D, Pieraccini S, and Sironi M

Abstract

The X-ray constrained wavefunction (XCW) approach is a reliable and widely used method of quantum crystallography that allows the determination of wavefunctions compatible with X-ray diffraction data. So far, all the existing XCW techniques have been developed in the framework of molecular orbital theory and, consequently, provide only pictures of the "experimental" electronic structures that are far from the traditional chemical perception. Here a new strategy is proposed that, by combining the XCW philosophy with the spin-coupled method of valence bond theory, enables direct extraction of traditional chemical information (e.g., weights of resonance structures) from X-ray diffraction measurements. Preliminary results have shown that the new technique is really able to efficiently capture the effects of the crystal environment on the electronic structure, and can be considered as a new useful tool to perform chemically sound analyses of the X-ray diffraction data., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

107. Halloysite nanotubes for efficient loading, stabilization and controlled release of insulin.

Author

Massaro M, Cavallaro G, Colletti CG, D'Azzo G, Guernelli S, Lazzara G, Pieraccini S, and Riela S

Subjects

Administration, Cutaneous, Chitosan chemistry, Clay, Drug Compounding, Drug Liberation, Drug Stability, Membranes, Artificial, Nanocomposites chemistry, Particle Size, Surface Properties, Aluminum Silicates chemistry, Delayed-Action Preparations chemistry, Drug Carriers chemistry, Insulin chemistry, Nanotubes chemistry

Abstract

Hypothesis: Oral insulin administration is not actually effective due to insulin rapid degradation, inactivation and digestion by proteolytic enzymes which results in low bioavailability. Moreover insulin is poorly permeable and lack of lipophilicity. These limits can be overcome by the loading of protein in some nanostructured carrier such as halloysite nanotubes (HNTs)., Experiments: Herein we propose an easy strategy to obtain HNT hybrid materials for the delivery of insulin. We report a detailed description on the thermal behavior and stability of insulin loaded and released from the HNTs hybrid by the combination of several techniques., Findings: Release experiments of insulin from the HNTs revealed the efficacy of the nanocarrier. Circular Dichroism data evidenced that the released insulin exhibits its native-like secondary structure confirming the suitability of HNT/insulin as delivery system for at least three months. The loaded nanotubes were filled into chitosan matrix with the aim to prepare bionanocomposite films that can be used for transdermal delivery. This work puts forward an efficient strategy to prepare halloysite based nanocarriers containing insulin that could be employed in several biomedical applications. The detailed description of the prepared HNT/insulin hybrid represents a fundamental point for designing advanced delivery systems., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

108. Imidazo[2,1- b ]benzothiazol Derivatives as Potential Allosteric Inhibitors of the Glucocorticoid Receptor.

Author

Christodoulou MS, Dapiaggi F, Ghiringhelli F, Pieraccini S, Sironi M, Lucafò M, Curci D, Decorti G, Stocco G, Chirumamilla CS, Vanden Berghe W, Balaguer P, Michel BY, Burger A, Beccalli EM, Passarella D, and Martinet N

Abstract

Glucocorticoid receptor (GCR) transactivation reporter gene assays were used as an initial high-throughput screening on a diversified library of 1200 compounds for their evaluation as GCR antagonists. A class of imidazo[2,1- b ]benzothiazole and imidazo[2,1- b ]benzoimidazole derivatives were identified for their ability to modulate GCR transactivation and anti-inflammatory transrepression effects utilizing GCR and NF-κB specific reporter gene assays. Modeling studies on the crystallographic structure of the GCR ligand binding domain provided three new analogues bearing the tetrahydroimidazo[2,1- b ]benzothiazole scaffold able to antagonize the GCR in the presence of dexamethasone (DEX) and also defined their putative binding into the GCR structure. Both mRNA level measures of GCR itself and its target gene GILZ, on cells treated with the new analogues, showed a GCR transactivation inhibition, thus suggesting a potential allosteric inhibition of the GCR., Competing Interests: The authors declare no competing financial interest.

Published

2018

109. Assessment of DFT Functionals for QTAIM Topological Analysis of Halogen Bonds with Benzene.

Author

Forni A, Pieraccini S, Franchini D, and Sironi M

Abstract

Halogen bonding, a noncovalent interaction between a halogen atom and a nucleophilic site, is receiving a growing attention in the chemical community stimulating a large number of theoretical investigations. The density functional theory (DFT) approach revealed to be one of the most suitable methods owing to its accuracy and low computational cost. We report here a detailed analysis of the performance of an extensive set of DFT functionals in reproducing accurate binding energies and topological properties for the halogen-bonding interaction of either NCX or PhX molecules (X = F, Cl, Br, I) with the aromatic system of benzene in the T-shaped configuration. It was found that the better performance for both sets of properties is provided by a small subset of functionals able to take into account, implicitly or explicitly (by inclusion of an additive pairwise potential), the dispersion contribution, that is, ωB97X, M06-2X, M11, mPW2PLYP-D, and B2PLYP-D3.

Published

2016

110. α-Synuclein is a Novel Microtubule Dynamase.

Author

Cartelli D, Aliverti A, Barbiroli A, Santambrogio C, Ragg EM, Casagrande FV, Cantele F, Beltramone S, Marangon J, De Gregorio C, Pandini V, Emanuele M, Chieregatti E, Pieraccini S, Holmqvist S, Bubacco L, Roybon L, Pezzoli G, Grandori R, Arnal I, and Cappelletti G

Subjects

Humans, Microtubules chemistry, Microtubules metabolism, Parkinson Disease metabolism, Parkinson Disease pathology, Protein Binding, Protein Folding, Protein Multimerization genetics, Tubulin chemistry, Tubulin genetics, alpha-Synuclein chemistry, alpha-Synuclein genetics, Parkinson Disease genetics, Protein Aggregation, Pathological genetics, Tubulin metabolism, alpha-Synuclein metabolism

Abstract

α-Synuclein is a presynaptic protein associated to Parkinson's disease, which is unstructured when free in the cytoplasm and adopts α helical conformation when bound to vesicles. After decades of intense studies, α-Synuclein physiology is still difficult to clear up due to its interaction with multiple partners and its involvement in a pletora of neuronal functions. Here, we looked at the remarkably neglected interplay between α-Synuclein and microtubules, which potentially impacts on synaptic functionality. In order to identify the mechanisms underlying these actions, we investigated the interaction between purified α-Synuclein and tubulin. We demonstrated that α-Synuclein binds to microtubules and tubulin α2β2 tetramer; the latter interaction inducing the formation of helical segment(s) in the α-Synuclein polypeptide. This structural change seems to enable α-Synuclein to promote microtubule nucleation and to enhance microtubule growth rate and catastrophe frequency, both in vitro and in cell. We also showed that Parkinson's disease-linked α-Synuclein variants do not undergo tubulin-induced folding and cause tubulin aggregation rather than polymerization. Our data enable us to propose α-Synuclein as a novel, foldable, microtubule-dynamase, which influences microtubule organisation through its binding to tubulin and its regulating effects on microtubule nucleation and dynamics.

Published

2016

111. 4-(1,2-diarylbut-1-en-1-yl)isobutyranilide derivatives as inhibitors of topoisomerase II.

Author

Christodoulou MS, Zarate M, Ricci F, Damia G, Pieraccini S, Dapiaggi F, Sironi M, Lo Presti L, García-Argáez AN, Dalla Via L, and Passarella D

Subjects

Anilides metabolism, Apoptosis drug effects, Cell Line, Tumor, Cell Proliferation drug effects, DNA Topoisomerases, Type I chemistry, DNA Topoisomerases, Type I metabolism, DNA Topoisomerases, Type II chemistry, Humans, Molecular Docking Simulation, Protein Conformation, Structure-Activity Relationship, Topoisomerase II Inhibitors metabolism, Anilides chemistry, Anilides pharmacology, DNA Topoisomerases, Type II metabolism, Topoisomerase II Inhibitors chemistry, Topoisomerase II Inhibitors pharmacology

Abstract

The synthesis and biological evaluation of a new library of 4-(1,2-diarylbut-1-en-1-yl)isobutyranilides is described. The new compounds were found to be cytotoxic in the micromolar range in two human tumor cell lines, MCF-7 (mammary gland adenocarcinoma) and HeLa (cervix adenocarcinoma) and two human ovarian cancer cell lines (A2780 and OVCAR5). Detailed studies on the most active compound 6g show that it was able to induce apoptosis and suggest topoisomerase II as a possible intracellular target. The relevance of the interaction of the most active compound with topoisomerase II is demonstrated and supported by docking studies., (Copyright © 2016 Elsevier Masson SAS. All rights reserved.)

Published

2016

112. In silico study of VP35 inhibitors: from computational alanine scanning to essential dynamics.

Author

Dapiaggi F, Pieraccini S, and Sironi M

Subjects

Alanine, Cell Line, Computer Simulation, Ebolavirus genetics, Ebolavirus pathogenicity, Hemorrhagic Fever, Ebola genetics, Humans, Ligands, Molecular Dynamics Simulation, Viral Regulatory and Accessory Proteins metabolism, Virus Replication genetics, Ebolavirus chemistry, Hemorrhagic Fever, Ebola virology, Viral Regulatory and Accessory Proteins chemistry

Abstract

In recent years the Ebola virus has spread through several countries in Africa, highlighting the need to develop new treatments for this disease and boosting a new research effort on this subject. The Ebola virus Viral Protein 35 (VP35) carries out multiple functions necessary for virus replication and infection, in particular interfering with (IFN)-α/β signaling. Recently, VP35 has been crystallized in complex with small organic molecules able to inhibit its interaction with viral nucleoproteins, thus reducing Ebola infections of cultured cells. In this work, starting from these structures, we carry out a computational study aimed at investigating the energetic and dynamical aspects of the interaction between VP35 and its ligands at the atomic level. Molecular dynamics simulations, computational alanine scanning, root mean square fluctuations bootstrap analysis and essential dynamics analysis were performed. Our results expand the experimental ones obtained in previous works, adding information about the interactions landscape with the identification of a set of new hot-spots residues exerting a critical function in the protein-ligand interaction. Moreover we characterized the dynamics of the complexes, showing that the presence of ligands modifies the overall protein dynamics as well as the behavior of particular protein segments.

Published

2015

113. Boehmeriasin A as new lead compound for the inhibition of topoisomerases and SIRT2.

Author

Christodoulou MS, Calogero F, Baumann M, García-Argáez AN, Pieraccini S, Sironi M, Dapiaggi F, Bucci R, Broggini G, Gazzola S, Liekens S, Silvani A, Lahtela-Kakkonen M, Martinet N, Nonell-Canals A, Santamaría-Navarro E, Baxendale IR, Dalla Via L, and Passarella D

Subjects

Cell Line, Cell Proliferation drug effects, DNA Topoisomerases, Type I metabolism, DNA Topoisomerases, Type II metabolism, Dose-Response Relationship, Drug, Drug Screening Assays, Antitumor, HeLa Cells, Humans, Models, Molecular, Molecular Structure, Phenanthrenes chemical synthesis, Phenanthrenes chemistry, Quinolizidines chemical synthesis, Quinolizidines chemistry, Sirtuin 2 metabolism, Structure-Activity Relationship, Topoisomerase I Inhibitors chemical synthesis, Topoisomerase I Inhibitors chemistry, Topoisomerase II Inhibitors chemical synthesis, Topoisomerase II Inhibitors chemistry, Phenanthrenes pharmacology, Quinolizidines pharmacology, Sirtuin 2 antagonists & inhibitors, Topoisomerase I Inhibitors pharmacology, Topoisomerase II Inhibitors pharmacology

Abstract

Two synthetic approaches to boehmeriasin A are described. A gram scale racemic preparation is accompanied by an efficient preparation of both the pure enantiomers using the conformationally stable 2-piperidin-2-yl acetaldehyde as starting material. The anti-proliferative activity in three cancer cell lines (CEM, HeLa and L1210) and two endothelial cell lines (HMEC-1, BAEC) indicates promising activity at the nanomolar range. Topoisomerases and SIRT2 are identified as biological targets and the experimental data has been supported by docking studies., (Copyright © 2015 Elsevier Masson SAS. All rights reserved.)

Published

2015

114. A lipophilic "fully-anti" dodecamer from a (5'S)-5',8-cyclo-2'-deoxyguanosine.

Author

Pieraccini S, Terzidis MA, Baldassarri EJ, Fragneto G, Mariani P, Masiero S, and Chatgilialoglu C

Subjects

Circular Dichroism, DNA chemistry, Deoxyguanosine chemistry, Hydroxyl Radical chemistry, Magnetic Resonance Spectroscopy, Molecular Conformation, Neutron Diffraction, Scattering, Small Angle, Deoxyguanosine analogs & derivatives

Abstract

The self-assembly of a lipophilic derivative of (5'S)-5',8-cyclo-2'-deoxyguanosine, a mutagenic product formed by hydroxyl radical attack against DNA, has been investigated. This derivative forms, with high fidelity, a dodecameric complex composed of three stacked G-quartets in the presence of strontium picrate. This is the first example of a fully-anti lipophilic G-quadruplex.

Published

2014

115. Synthesis, crystal structure and biological activity of 2-hydroxyethylammonium salt of p-aminobenzoic acid.

Author

Crisan ME, Bourosh P, Maffei ME, Forni A, Pieraccini S, Sironi M, and Chumakov YM

Subjects

4-Aminobenzoic Acid metabolism, 4-Aminobenzoic Acid pharmacology, Arabidopsis drug effects, Arabidopsis growth & development, Crystallography, X-Ray, Folic Acid chemistry, Folic Acid metabolism, Hydrogen Bonding, Indoleacetic Acids chemistry, Indoleacetic Acids metabolism, Indoleacetic Acids pharmacology, Molecular Structure, Plant Growth Regulators chemistry, Plant Growth Regulators metabolism, Plant Growth Regulators pharmacology, Plant Roots drug effects, Plant Roots growth & development, Quaternary Ammonium Compounds chemical synthesis, Quaternary Ammonium Compounds pharmacology, Receptors, Cell Surface chemistry, Receptors, Cell Surface metabolism, Spectroscopy, Fourier Transform Infrared, Static Electricity, 4-Aminobenzoic Acid chemistry, Molecular Docking Simulation, Molecular Dynamics Simulation, Quaternary Ammonium Compounds chemistry

Abstract

p-Aminobenzoic acid (pABA) plays important roles in a wide variety of metabolic processes. Herein we report the synthesis, theoretical calculations, crystallographic investigation, and in vitro determination of the biological activity and phytotoxicity of the pABA salt, 2-hydroxyethylammonium p-aminobenzoate (HEA-pABA). The ability of neutral and anionic forms of pABA to interact with TIR1 pocket was investigated by calculation of molecular electrostatic potential maps on the accessible surface area, docking experiments, Molecular Dynamics and Quantum Mechanics/Molecular Mechanics calculations. The docking study of the folate precursor pABA, its anionic form and natural auxin (indole-3-acetic acid, IAA) with the auxin receptor TIR1 revealed a similar binding mode in the active site. The phytotoxic evaluation of HEA-pABA, pABA and 2-hydroxyethylamine (HEA) was performed on the model plant Arabidopsis thaliana ecotype Col 0 at five different concentrations. HEA-pABA and pABA acted as potential auxin-like regulators of root development in Arabidopsis thaliana (0.1 and 0.2 mM) and displayed an agravitropic root response at high concentration (2 mM). This study suggests that HEA-pABA and pABA might be considered as potential new regulators of plant growth.

Published

2014

116. Electrophysiological and metabolic effects of CHF5074 in the hippocampus: protection against in vitro ischemia.

Author

Mango D, Barbato G, Piccirilli S, Panico MB, Feligioni M, Schepisi C, Graziani M, Porrini V, Benarese M, Lanzillotta A, Pizzi M, Pieraccini S, Sironi M, Blandini F, Nicoletti F, Mercuri NB, Imbimbo BP, and Nisticò R

Subjects

Acetates metabolism, Alanine metabolism, Animals, Aspartic Acid analogs & derivatives, Aspartic Acid metabolism, Cells, Cultured, Electrophysiological Phenomena, Flurbiprofen pharmacology, Hippocampus blood supply, Hippocampus physiology, In Vitro Techniques, Ischemia physiopathology, Lactic Acid metabolism, Male, Mice, Inbred C57BL, Neurons drug effects, Neurons metabolism, Rats, Wistar, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Cyclopropanes pharmacology, Flurbiprofen analogs & derivatives, Hippocampus drug effects, Ischemia drug therapy, Neuroprotective Agents pharmacology

Abstract

CHF5074 is a non-steroidal anti-inflammatory derivative holding disease-modifying potential for the treatment of Alzheimer's disease. The aim of the present study was to characterize the electrophysiological and metabolic profile of CHF5074 in the hippocampus. Electrophysiological recordings show that CHF5074 inhibits in a dose-dependent manner the current-evoked repetitive firing discharge in CA1 pyramidal neurons. This result is paralleled by a dose-dependent reduction of field excitatory post-synaptic potentials with no effect on the paired-pulse ratio. The effects of CHF5074 were not mediated by AMPA or NMDA receptors, since the inward currents induced by local applications of AMPA and NMDA remained constant in the presence of this compound. We also suggest a possible activity of CHF5074 on ASIC1a receptor since ASIC1a-mediated current, evoked by application of a pH 5.5 solution, is reduced by pretreatment with this compound. Moreover, we demonstrate that CHF5074 treatment is able to counteract in hippocampal slices the OGD-induced increase in alanine, lactate and acetate levels. Finally, CHF5074 significantly reduced the apoptosis in hippocampal neurons exposed to OGD, as revealed by cleaved-caspase-3 immunoreactivity and TUNEL staining. Overall, the present work identifies novel mechanisms for CHF5074 in reducing metabolic acidosis, rendering this compound potentially useful also in conditions of brain ischemia., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

117. Halogen bonds with benzene: an assessment of DFT functionals.

Author

Forni A, Pieraccini S, Rendine S, and Sironi M

Subjects

Benzene chemistry, Halogens chemistry, Quantum Theory

Abstract

The performance of an extensive set of density functional theory functionals has been tested against CCSD(T) and MP2 results, extrapolated to the complete basis set (CBS) limit, for the interaction of either DCl or DBr (D = H, HCC, F, and NC) with the aromatic system of benzene. It was found that double hybrid functionals explicitly including dispersion, that is, B2PLYPD and mPW2PLYPD, provide the better agreement with the CCSD(T)/CBS results on both energies and equilibrium geometry, indicating the importance of dispersive contributions in determining this interaction. Among the less expensive functionals, the better performance is provided by the ωB97X and M062X functionals, while the ωB97XD and B97D functionals are shown to work very well for bromine complexes but not so well for chlorine complexes., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2014

118. Quinazolinecarboline alkaloid evodiamine as scaffold for targeting topoisomerase I and sirtuins.

Author

Christodoulou MS, Sacchetti A, Ronchetti V, Caufin S, Silvani A, Lesma G, Fontana G, Minicone F, Riva B, Ventura M, Lahtela-Kakkonen M, Jarho E, Zuco V, Zunino F, Martinet N, Dapiaggi F, Pieraccini S, Sironi M, Dalla Via L, Gia OM, and Passarella D

Subjects

Alkaloids chemistry, Binding Sites, Carbolines chemistry, Cell Line, Tumor, Cell Proliferation drug effects, DNA Topoisomerases, Type I metabolism, Enzyme Activation drug effects, Hep G2 Cells, Humans, MCF-7 Cells, Molecular Docking Simulation, Protein Structure, Tertiary, Quinazolines chemical synthesis, Quinazolines pharmacology, Sirtuins metabolism, Topoisomerase I Inhibitors chemical synthesis, Topoisomerase I Inhibitors pharmacology, DNA Topoisomerases, Type I chemistry, Quinazolines chemistry, Sirtuins antagonists & inhibitors, Topoisomerase I Inhibitors chemistry

Abstract

This paper reports the synthesis of a series of evodiamine derivatives. We assayed the ability to inhibit cell growth on three human tumour cell lines (H460, MCF-7 and HepG2) and we evaluated the capacity to interfere with the catalytic activity of topoisomerase I both by the relaxation assay and the occurrence of the cleavable complex. Moreover, whose effect on sirtuins 1, 2 and 3 was investigated. Finally, molecular docking analyses were performed in an attempt to rationalize the biological results., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

119. In-peptide synthesis of di-oxazolidinone and dehydroamino acid-oxazolidinone motifs as β-turn inducers.

Author

De Marco R, Greco A, Rupiani S, Tolomelli A, Tomasini C, Pieraccini S, and Gentilucci L

Subjects

Models, Molecular, Protein Structure, Secondary, Stereoisomerism, Oligopeptides chemical synthesis, Oxazolidinones chemical synthesis

Abstract

Small and easy-to-do mimetics of β-turns are of great interest to interfere with protein-protein recognition events mediated by β-turn recognition motifs. We propose a straightforward procedure for constraining the conformation of tetrapeptides lacking a pre-formed scaffold. According to the stereochemistry array, N-Ts tetrapeptides including Thr or PhSer (phenylserine) at the positions 2 or 3 gave rise in a single step to the sequences Oxd(2)-Oxd(3) or ΔAbu(2)-Oxd(3) (Oxd, oxazolidin-2-one; ΔAbu, 2,3-dehydro-2-aminobutyric). These pseudo-Pro residues displayed highly constrained ϕ, ψ, and χ dihedral angles, and induced clear β-turns or inverse turns of type I or II, as determined by extensive spectroscopic and computational analyses.

Published

2013

120. 9-Fluorenone-2-Carboxylic Acid as a Scaffold for Tubulin Interacting Compounds.

Author

Calogero F, Borrelli S, Speciale G, Christodoulou MS, Cartelli D, Ballinari D, Sola F, Albanese C, Ciavolella A, Passarella D, Cappelletti G, Pieraccini S, and Sironi M

Abstract

The introduction of a hydrophobic group at position 7 of 9-fluorenone-2-carboxylic acid generates new tubulin binders, the design of which is suggested by modeling studies. The synthesis is based on the use of 2,7-dibromo-fluorenone as starting material. The antiproliferative activity on two different cell lines, fluorescent microscopy, flow cytometry, and sedimentation assay tests confirmed the supposed mechanism., (Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2013

121. Control of the helical chirality of enantiopure sulfinyl (Z)-azobenzene-based photoswitches.

Author

Núñez I, Merino E, Lecea M, Pieraccini S, Spada GP, Rosini C, Mazzeo G, Ribagorda M, and Carreño MC

Abstract

A new class of enantiopure ortho,ortho-disubstituted azobenzene photoswitches has been synthesized from (S)-2-(p-tolylsulfinyl)benzoquinone and arylhydrazines. The sulfoxide acts as a unidirectional controller of the helical chirality that arises in the Z isomer after photoisomerization. Highly congested E-azobenzenes 5 c showed two atropisomeric diastereoconformers in the solid state that converged upon irradiation into a unique Z isomer with defined helicity (M), as evident in the X-ray structure. The chiroptical properties of this three-state enantiopure switch can be externally tuned both photochemically and/or thermally. Theoretical CD spectra calculated by using time-dependent DFT methods support the existence of two atropoisomeric E isomers and only one Z isomer with (M) helicity. Complementary to the classical azobenzene-based switches, the photoswiching event is promoted under green/blue light and do not occur under UV irradiation., (Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2013

122. Computer aided design of FtsZ targeting oligopeptides † .

Author

Pieraccini S, Rendine S, Jobichen C, Domadia P, Sivaraman J, Francescato P, Speranza G, and Sironi M

Abstract

FtsZ is a protein involved in the bacterial division process and is thus an emerging target for antibacterial drugs. The network of interactions between FtsZ monomers necessary for exploitation of its biological function are studied here with molecular dynamics and free energy calculations. The results obtained led to the design of FtsZ targeting peptides which exhibited activity against the function of FtsZ in vitro.

Published

2013

123. Small-angle X-ray scattering study of self-assembling lipophilic guanines in organic solvents: G-quadruplex formation and cation effects in cyclohexane.

Author

Gonnelli A, Ortore MG, Baldassarri EJ, Spada GP, Pieraccini S, Perone RC, Funari SS, and Mariani P

Subjects

Cations chemistry, Hydrophobic and Hydrophilic Interactions, Models, Molecular, Salts chemistry, Scattering, Small Angle, Solvents chemistry, Thermodynamics, X-Ray Diffraction, Cyclohexanes chemistry, G-Quadruplexes, Guanine chemistry

Abstract

Lipophilic guanilic derivatives (lipoGs) dissolved in organic solvents can undergo different self-assembly pathways based on different H-bonded motifs, e.g., the cyclic discrete G-quartet, which forms in the presence of alkali-metal ions, and the "infinite" tape-like G-ribbon observed in the absence of ions. Using in-solution small-angle X-ray scattering, we analyzed a series of lipoGs dissolved in cyclohexane in the presence of different salts. The formation of G-quartet based supramolecular aggregates has been confirmed, evidencing the coexistence equilibrium of octamers and noncovalent molecular nanowires (the so-called G-quadruplexes). By global fitting the scattering data, the concentration of the two kinds of particles as well as the nanowire length have been derived as a function of temperature for the different compounds and salts. The thermodynamic parameters show that the self-assembly aggregation process is enthalpy driven, while the observed enthalpy-entropy compensation suggests that similar stacking interactions control the self-assembly of the different compounds. However, the strength of the stacking interactions, and then the nanowire stability, depends on the nature of templating cations and on their capacity to fill the central cavity of quadruplexes, with the order Sr(+) < Na(+) ≲ K(+).

Published

2013

124. Halogen-bonding interactions with π systems: CCSD(T), MP2, and DFT calculations.

Author

Forni A, Pieraccini S, Rendine S, Gabas F, and Sironi M

Abstract

Halogen bonding is a noncovalent interaction between a halogen atom and a nucleophilic site. Interactions involving the π electrons of aromatic rings have received, up to now, little attention, despite the large number of systems in which they are present. We report binding energies of the interaction between either NCX or PhX (X = F, Cl, Br, I) and the aromatic benzene system as determined with the coupled cluster with perturbative triple excitations method [CCSD(T)] extrapolated at the complete basis set limit. Results are compared with those obtained by Møller-Plesset perturbation theory to second order (MP2) and density functional theory (DFT) calculations by using some of the most common functionals. Results show the important role of DFT in studying this interaction., (Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2012

125. Camptothecin-7-yl-methanthiole: semisynthesis and biological evaluation.

Author

Christodoulou MS, Zunino F, Zuco V, Borrelli S, Comi D, Fontana G, Martinelli M, Lorens JB, Evensen L, Sironi M, Pieraccini S, Dalla Via L, Gia OM, and Passarella D

Subjects

Antineoplastic Agents, Phytogenic chemical synthesis, Antineoplastic Agents, Phytogenic metabolism, Camptothecin chemical synthesis, Camptothecin metabolism, Cell Line, Tumor, Cell Proliferation drug effects, Cell Survival drug effects, DNA Topoisomerases metabolism, Glutathione metabolism, Humans, Models, Molecular, Neoplasms drug therapy, Neoplasms enzymology, Prodrugs chemical synthesis, Prodrugs metabolism, Topoisomerase I Inhibitors chemical synthesis, Topoisomerase I Inhibitors chemistry, Topoisomerase I Inhibitors metabolism, Topoisomerase I Inhibitors pharmacology, Antineoplastic Agents, Phytogenic chemistry, Antineoplastic Agents, Phytogenic pharmacology, Camptothecin analogs & derivatives, Camptothecin pharmacology, Prodrugs chemistry, Prodrugs pharmacology

Abstract

The introduction of a methylenthiol group at position 7 of camptothecin was carried out in four steps. This preparation also yielded the corresponding disulfide, which behaves as a prodrug due to its reactivity with glutathione. Assessment of their antiproliferative activities, investigations of their mechanism of action, and molecular modeling analysis indicated that the 7-modified camptothecin derivatives described herein maintain the biological activity and drug-target interactions of the parent compound., (Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2012

126. 1,2-Di(phenylethynyl)ethenes with axially chiral, 2,2'-bridged 1,1'-binaphthyl substituents: potent cholesteric liquid-crystal inducers.

Author

Wu YL, Ferroni F, Pieraccini S, Schweizer WB, Frank BB, Spada GP, and Diederich F

Subjects

Cholesterol chemical synthesis, Crystallography, X-Ray, Models, Molecular, Molecular Structure, Alkenes chemistry, Alkynes chemistry, Cholesterol chemistry, Liquid Crystals chemistry, Naphthalenes chemistry

Abstract

Axially chiral, 3,5-dihydro-4H-dinaphtho[2,1-c:1',2'-e]azepine (dinaphthazepine) and 1,1'-binaphthyl-2,2'-disulfonimide (dinaphthosulfonimide) moieties were rigidly connected via N-p-phenylene linkers to photochemically (E)/(Z)-isomerisable 1,2-diethynylethene scaffolds. The chemical stability of the resulting systems was found to be critically related to the other substituents on the central π-conjugated scaffold. High helical twisting power (HTP), up to 315 μm(-1), for the induction of a cholesteric liquid-crystalline phase through doping of a nematic phase was measured, resulting from the introduction of the chiral, mesogenic 1,1'-binaphthyl motifs. Single crystal X-ray analysis revealed that the phenylene spacer is in π-conjugation with the N-atom of the dinaphthazepine but not with the N-atom of the dinaphthosulfonimide moiety. This difference in orientation results in visible-transparency in the electronic absorption spectrum and higher (E)/(Z)-photoisomerisation quantum yields of the dinaphthosulfonimide-derived chiral dopants, as compared to the dinaphthazepine systems, which feature intramolecular charge-transfer absorption in the visible region.

Published

2012

127. Solvent effect on halogen bonding: the case of the I⋯O interaction.

Author

Forni A, Rendine S, Pieraccini S, and Sironi M

Subjects

Hydrogen Bonding, Models, Chemical, Quantum Theory, Solutions, Thermodynamics, Ether chemistry, Formaldehyde chemistry, Iodine chemistry, Iodobenzenes chemistry, Oxygen chemistry, Solvents chemistry, Water chemistry

Abstract

The solvent effect on the I⋯O halogen bonding in complexes of iodobenzene derivatives with formaldehyde has been investigated by systematically varying the substituents on the iodobenzene ring. Calculations have been performed at MP2 and DFT levels of theory, using the aug-cc-pVDZ basis set and the pseudopotential for iodine. Within the DFT approach, a series of the most widely used exchange-correlation functionals have been considered, comprising PBE, PBE0, B3LYP, BH&HLYP, M06-2X and M06-HF. Results obtained in diethylether and in water using the conductor-like polarizable continuum model (CPCM) have been compared with in vacuo results. Though halogen bonding distances were found to systematically shorten when moving from vacuo to diethylether and then to water, the associated interaction energies showed a decrease in absolute value, indicating that solvent has a destabilizing effect on this interaction. By comparison with MP2 results, all the considered functionals, B3LYP excepted, have been found adequate to describe halogen bonding. As far as the interaction energies are concerned, the best performance was obtained with the M06-HF functional in vacuo and the PBE functional in solution. The geometrical parameters characterizing halogen bonds were better reproduced by the M06-2X functional., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

128. The interplay of configuration and conformation in helical perylenequinones: Insights from chirality induction in liquid crystals and calculations.

Author

Frezza E, Pieraccini S, Mazzini S, Ferrarini A, and Spada GP

Abstract

The chirality transfer in liquid crystals induced by two helical perylenequinones (namely, the natural compounds cercosporin and phleichrome) was investigated by integrating measurements of helical twisting power with a conformational analysis by DFT calculations and with the prediction of their twisting ability by the surface-chirality method. The two quasi-enantiomeric derivatives induce oppositely handed cholesteric phases when introduced as dopants in nematic solvents. We evaluated the role of the different conformations of the chiral hydroxyalkyl side chains in determining the helical twisting power: They were found to affect the strength of the chirality transfer, although the handedness of the induced cholesteric phase is essentially determined by the axial chirality (helicity) of the core of the perylenequinones.

Published

2012

129. Identifying guanosine self assembly at natural isotopic abundance by high-resolution 1H and 13C solid-state NMR spectroscopy.

Author

Webber AL, Masiero S, Pieraccini S, Burley JC, Tatton AS, Iuga D, Pham TN, Spada GP, and Brown SP

Subjects

Carbon Isotopes chemistry, Hydrogen chemistry, Hydrogen Bonding, Models, Molecular, Guanosine chemistry, Magnetic Resonance Spectroscopy methods

Abstract

By means of the (1)H chemical shifts and the proton-proton proximities as identified in (1)H double-quantum (DQ) combined rotation and multiple-pulse spectroscopy (CRAMPS) solid-state NMR correlation spectra, ribbon-like and quartet-like self-assembly can be identified for guanosine derivatives without isotopic labeling for which it was not possible to obtain single crystals suitable for diffraction. Specifically, characteristic spectral fingerprints are observed for dG(C10)(2) and dG(C3)(2) derivatives, for which quartet-like and ribbon-like self-assembly has been unambiguously identified by (15)N refocused INADEQUATE spectra in a previous study of (15)N-labeled derivatives (Pham, T. N.; et al. J. Am. Chem. Soc.2005, 127, 16018). The NH (1)H chemical shift is observed to be higher (13-15 ppm) for ribbon-like self-assembly as compared to 10-11 ppm for a quartet-like arrangement, corresponding to a change from NH···N to NH···O intermolecular hydrogen bonding. The order of the two NH(2)(1)H chemical shifts is also inverted, with the NH(2) proton closest in space to the NH proton having a higher or lower (1)H chemical shift than that of the other NH(2) proton for ribbon-like as opposed to quartet-like self-assembly. For the dG(C3)(2) derivative for which a single-crystal diffraction structure is available, the distinct resonances and DQ peaks are assigned by means of gauge-including projector-augmented wave (GIPAW) chemical shift calculations. In addition, (14)N-(1)H correlation spectra obtained at 850 MHz under fast (60 kHz) magic-angle spinning (MAS) confirm the assignment of the NH and NH(2) chemical shifts for the dG(C3)(2) derivative and allow longer range through-space N···H proximities to be identified, notably to the N7 nitrogens on the opposite hydrogen-bonding face., (© 2011 American Chemical Society)

Published

2011

130. Halogen bonding in ligand-receptor systems in the framework of classical force fields.

Author

Rendine S, Pieraccini S, Forni A, and Sironi M

Subjects

Crystallography, X-Ray, Ligands, Models, Molecular, Molecular Dynamics Simulation, Static Electricity, Halogens chemistry, Models, Biological, Receptors, Cell Surface chemistry

Abstract

Halogen bond is an important non-covalent interaction which is receiving a growing attention in the study of protein-ligand complexes. Many drugs are halogenated molecules and it has been recently shown that many halogenated ligands establish halogen bonds with biomolecules. As the halogen bond nature is due to an anisotropy of the electrostatic potential around halogen atoms, it is not possible to use traditional force fields based on a set of atom-centred charges to study halogen bonds in biomolecules. We show that the introduction of pseudo-atoms on halogens permits us to correctly describe the anisotropy of the electrostatic potential and to perform molecular dynamics simulations on complexes of proteins with halogenated ligands that reproduce experimental values. The results are compared with crystallographic data and with hybrid quantum mechanics/molecular mechanics calculations., (This journal is © the Owner Societies 2011)

Published

2011

131. A Simple Mechanism Underlying the Effect of Protecting Osmolytes on Protein Folding.

Author

Saladino G, Marenchino M, Pieraccini S, Campos-Olivas R, Sironi M, and Gervasio FL

Abstract

Osmolytes are small organic compounds that confer to the cell an enhanced adaptability to external conditions. Many osmolytes not only protect the cell from osmotic stress but also stabilize the native structure of proteins. While simplified models able to predict changes to protein stability are available, a general physicochemical explanation of the underlying microscopic mechanism is still missing. Here, we address this issue by performing very long all-atom MD simulations, free energy calculations, and experiments on a well-characterized mini-protein, the villin headpiece. Comparisons between the folding free energy landscapes in pure water and osmolyte solutions, together with experimental validation by means of circular dichroism, unfolding experiments, and NMR, led us to formulate a simple hypothesis for the protecting mechanism. Taken together, our results support a novel mechanistic explanation according to which the main driving force behind native state protection is a change in the solvent rotational diffusion.

Published

2011

132. Central-to-axial chirality transfer revealed by liquid crystals: a combined experimental and computational approach for the determination of absolute configuration of carboxylic acids with an α chirality centre.

Author

Ferrarini A, Ferroni F, Pieraccini S, Rosini C, Superchi S, and Spada GP

Subjects

Computer Simulation, Liquid Crystals, Molecular Conformation, Molecular Structure, Spectrophotometry, Ultraviolet methods, Biphenyl Compounds chemistry, Carboxylic Acids chemical synthesis, Carboxylic Acids chemistry, Circular Dichroism methods, Models, Molecular

Abstract

The conversion into 6,7-dihydro-5H-dibenz[c,e]azepine (DAZ) N-protected amides is a viable route for the determination of the absolute configuration of chiral 2-substituted carboxylic acids. The biphenyl moiety of DAZ, besides being a probe of chirality for the electronic circular dichroism (ECD) spectroscopy, makes these systems suitable for configuration assignment by exploiting the chirality amplification which occurs in nematic liquid crystals. To assess the reliability of the liquid crystal method in detecting the absolute stereochemistry of chiral amides bound to a biphenyl group, we measured the helical twisting power of a series of DAZ-N-protected amides and compared these data with the results obtained from ECD measurements. We will show that the liquid crystal method, corroborated by HTP predictions, is trustworthy with our biphenyl derivatives, even when ECD spectra are ambiguous for the presence of aryl moieties displaying strong UV absorptions in the same range of the biphenyl chromophore., (© 2011 Wiley-Liss, Inc.)

Published

2011

133. Metadynamics study of a β-hairpin stability in mixed solvents.

Author

Saladino G, Pieraccini S, Rendine S, Recca T, Francescato P, Speranza G, and Sironi M

Subjects

Molecular Dynamics Simulation, Protein Denaturation, Protein Folding, Protein Stability, Protein Structure, Secondary, Solvents chemistry, Thermodynamics, Betaine chemistry, Peptides chemistry, Urea chemistry

Abstract

Understanding the molecular mechanisms that allow some organisms to survive in extremely harsh conditions is an important achievement that might disclose a wide range of applications and that is constantly drawing the attention of many research fields. The high adaptability of these living creatures is related to the presence in their tissues of a high concentration of osmoprotectants, small organic, highly soluble molecules. Despite osmoprotectants having been known for a long time, a full disclosure of the machinery behind their activity is still lacking. Here we describe a computational approach that, taking advantage of the recently developed metadynamics technique, allows one to fully describe the free energy surface of a small β-hairpin peptide and how it is affected by an osmoprotectant, glycine betaine (GB) and for comparison by urea, a common denaturant. Simulations led to relevant thermodynamic information, including how the free energy difference of denaturation is affected by the two cosolvents; unlike urea, GB caused a considerable increase of the folded basin stability, which transposes into a higher melting temperature. NMR experiments confirmed the picture derived from the theoretical study. Further molecular dynamics simulations of selected conformations allowed investigation into deeper detail the role of GB in folded state protection. Simulations of the protein in GB solutions clearly showed an excess of osmoprotectant in the solvent bulk, rather than in the protein domain, confirming the exclusion from the protein surface, but also highlighted interesting features on its interactions, opening to new scenarios besides the classic "indirect mechanism" hypothesis.

Published

2011

134. Chirality transfer across length-scales in nematic liquid crystals: fundamentals and applications.

Author

Pieraccini S, Masiero S, Ferrarini A, and Piero Spada G

Abstract

When a chiral dopant is dissolved in an achiral liquid crystal medium, the whole sample organizes into a helical structure with a characteristic length-scale of the order of microns. The relation between chirality at these quite different length-scales can be rationalized by a relatively simple model, which retains the relevant factors coming into play: the molecular shape of the chiral dopant, which controls the chirality of short range intermolecular interactions, and the elastic properties of the nematic environment, which control the restoring torques opposing distortion of the director. In this tutorial review the relation between molecular and phase chirality will be reviewed and several applications of the chiral doping of nematic LCs will be discussed. These range from the exploitation of the amplified molecular chirality for stereochemical purposes (e.g., the determination of the absolute configuration or the enantiomeric excess), to newer applications in physico-chemical fields. The latter take advantage of the periodicity of the chiral field, with length-scales ranging from hundreds to thousands of nanometres, which characterise the cholesteric phase.

Published

2011

135. Vinblastine perturbation of tubulin protofilament structure: a computational insight.

Author

Rendine S, Pieraccini S, and Sironi M

Subjects

Animals, Dimerization, Molecular Dynamics Simulation, Protein Structure, Tertiary, Swine, Thermodynamics, Tubulin chemistry, Tubulin Modulators chemistry, Vinblastine chemistry

Abstract

Tubulin is a heterodimeric protein whose self assembly leads to the formation of protofilaments and of more complex structures called microtubules, key components of the cytoskeleton which have a fundamental role in the cell division process. Due to its biological function, tubulin is the target of many antitumoral molecules that exert their action on proliferating tumoral cells. Among these drugs, vinblastine has been widely used in therapy for a long time, albeit its mechanism of interaction with tubulin has remained elusive until recently. Vinblastine acts as a microtubule destabilizing agent and induces the formation of curved or ring-shaped tubulin polymers instead of linear protofilaments in vitro. In this paper we compare, using molecular dynamics simulations and free energy calculations, the network of interactions that allow the assembly of model linear protofilaments with those present in curved tubulin polymers complexed with vinblastine. It is shown that vinblastine, wedging between tubulin heterodimers, actually mediates part of the interactions between them and acts by crosslinking the two proteins, leading to the observed curved polymers rather than to their disassembly.

Published

2010

136. Nanopatterning the surface with ordered supramolecular architectures of N(9)-alkylated guanines: STM reveals.

Author

Ciesielski A, Perone R, Pieraccini S, Spada GP, and Samorì P

Subjects

Guanine chemical synthesis, Macromolecular Substances chemical synthesis, Macromolecular Substances chemistry, Microscopy, Scanning Tunneling, Molecular Structure, Particle Size, Stereoisomerism, Surface Properties, Guanine analogs & derivatives, Guanine chemistry, Nanostructures chemistry

Abstract

STM study of the self-assembly at the solid-liquid interface of substituted guanines exposing in the N(9)-position alkyl side chains with different lengths revealed the formation of distinct crystalline nanopatterns.

Published

2010

137. A non-empirical chromophoric interpretation of CD spectra of DNA G-quadruplex structures.

Author

Masiero S, Trotta R, Pieraccini S, De Tito S, Perone R, Randazzo A, and Spada GP

Subjects

Hydrogen Bonding, Models, Molecular, Nucleic Acid Conformation, Circular Dichroism, DNA chemistry, G-Quadruplexes

Abstract

G-quadruplex DNA (G4-DNA) structures are four-stranded helical DNA (or RNA) structures, comprising stacks of G-tetrads, which are the outcome of planar association of four guanines in a cyclic Hoogsteen hydrogen-bonding arrangement. In the last decade the number of publications where CD spectroscopy has been used to study G4-DNAs, is extremely high. However, with very few exceptions, these investigations use an empirical interpretation of CD spectra. In this interpretation two basic types of CD spectra have been associated to a single specific difference in the features of the strand folding, i.e. the relative orientation of the strands, "parallel" (all strands have the same 5' to 3' orientation) or "antiparallel". Different examples taken from the literature where the empirical interpretation is not followed or is meaningless are presented and discussed. Furthermore, the case of quadruplexes formed by monomeric guanosine derivatives, where there is no strand connecting the adjacent quartets and the definition parallel/antiparallel strands cannot apply, will be discussed. The different spectral features observed for different G-quadruplexes is rationalised in terms of chromophores responsible for the electronic transitions. A simplified exciton coupling approach or more refined QM calculations allow to interpret the different CD features in terms of different stacking orientation (head-to-tail, head-to-head, tail-to-tail) between adjacent G-quartets irrespectively of the relative orientation of the stands (parallel/antiparallel).

Published

2010

138. Triggering of guanosine self-assembly by light.

Author

Lena S, Neviani P, Masiero S, Pieraccini S, and Spada GP

Subjects

Circular Dichroism, Magnetic Resonance Spectroscopy, Molecular Structure, Guanosine chemistry, Light

Published

2010

139. Solvent-induced switching between two supramolecular assemblies of a guanosine-terthiophene conjugate.

Author

Pieraccini S, Bonacchi S, Lena S, Masiero S, Montalti M, Zaccheroni N, and Spada GP

Abstract

We report here our findings on a lipophilic guanosine derivative armed with a terthiophene unit that undergoes a pronounced variation of its supramolecular organisation by changing the polarity of the solvent. In chloroform the guanosine derivative, templated by alkali metal ions, assembles via H-bonding in G-quartet based D(4)-symmetric octamers; the polar guanine bases are located into the inner part of the assembly and act as a scaffold for the terthienyl pendants. On the other hand, in the more polar (and H-bond competing) acetonitrile, different aggregates are observed in which the terthiophene chains are pi-pi stacked in a helicoidal (left-handed) arrangement in the central core, and the guanine bases (free from hydrogen bonding) are located at the periphery and exposed to the solvent. The system can be switched back and forth by subsequent addition of chloroform and acetonitrile. The solvent-induced switching can be easily followed by circular dichroism spectroscopy: the CD exciton-couplet in the guanine chromophore absorption region observed in chloroform disappears after addition of acetonitrile, indicating the disassembly of the G-quartet based octameric structure, while an intense quasi-conservative exciton splitting in the 300-450 nm spectral region becomes predominant in the CD spectrum. This latter strong bisignate optical activity can be ascribed to the helical packing of conjugated terthiophene moieties stabilised by pi-pi interactions. NMR spectra and photophysical investigations confirm the structures of the guanine-directed and thiophene-directed assemblies in chloroform and acetonitrile, respectively.

Published

2010

140. In silico design of tubulin-targeted antimitotic peptides.

Author

Pieraccini S, Saladino G, Cappelletti G, Cartelli D, Francescato P, Speranza G, Manitto P, and Sironi M

Subjects

Amino Acid Sequence, Antimitotic Agents chemistry, Cell Line, Tumor, Humans, Microtubules drug effects, Microtubules metabolism, Molecular Dynamics Simulation, Oligopeptides chemistry, Protein Multimerization drug effects, Protein Structure, Quaternary, Antimitotic Agents pharmacology, Computational Biology methods, Drug Design, Oligopeptides pharmacology, Tubulin chemistry, Tubulin metabolism

Abstract

Microtubules are polymeric structures formed by the self-assembly of tubulin dimers. The growth and shrinkage of these dynamic arrays have a key role during the cell-proliferation process. This makes tubulin the molecular target of many anticancer drugs currently in use or under clinical trial. Their impressive success is limited by the onset of resistant tumour cells during the treatment, so new resistance-proof molecules need to be developed. Here we use molecular dynamics and free-energy calculations to study the network of interactions that allow microtubule formation. Modelling the protein-protein interface allows us to identify the amino acids responsible for tubulin-tubulin binding and thus to design peptides, which correspond to tubulin subsequences, that interfere with microtubule formation. We show that the application of molecular modelling techniques leads to the identification of peptides that exhibit antitubulin activity both in vitro and in cultured cells.

Published

2009

141. Chiral amplification in a cyanobiphenyl nematic liquid crystal doped with helicene-like derivatives.

Author

Ferrarini A, Pieraccini S, Masiero S, and Spada GP

Abstract

The addition of a chiral non-racemic dopant to a nematic liquid crystal (LC) has the effect of transferring the molecular chirality to the phase organization and a chiral nematic phase is formed. This molecular chirality amplification in the LC provides a unique possibility for investigating the relationship between molecular structure, intermolecular interactions, and mesoscale organization. It is known that axially chiral or helical-shaped molecules with reduced conformational disorder are good candidates for high helical twisting power derivatives. In particular, biaryl derivatives are known to be efficient chiral inducers in biaryl nematic mesophases. In this paper, we focus on a new series of helicene-like molecules of known absolute configuration. We have integrated cholesteric pitch measurements with geometry optimization by DFT calculations and analysis of the twisting ability by the Surface Chirality model to shed light on the structural features responsible for the analogies and differences exhibited by these derivatives. The investigation of these dopants with well-defined geometry, by virtue of the low conformational freedom, and the substituents variously distributed around the core, allows us to extend our knowledge of the molecular origin of the chirality amplification in liquid crystals and to confirm the simple relationship "molecular P-helicity" --> "cholesteric P-handedness" for helical-shaped helicene-like derivatives.

Published

2009

142. N-arylated 3,5-dihydro-4H-dinaphtho[2,1-c:1',2'-e]azepines: axially chiral donors with high helical twisting powers for nonplanar push-pull chromophores.

Author

Frank BB, Camafort Blanco B, Jakob S, Ferroni F, Pieraccini S, Ferrarini A, Boudon C, Gisselbrecht JP, Seiler P, Spada GP, and Diederich F

Abstract

Axially chiral, N-arylated 3,5-dihydro-4H-dinaphtho[2,1-c:1',2'-e]azepines have been prepared by short synthetic protocols from enantiopure 1,1'-bi(2,2'-naphthol) (BINOL) and anilines. Alkynes substituted with two N-phenyldinaphthazepine donors readily undergo a formal [2+2] cycloaddition, followed by retro-electrocyclization, with tetracyanoethene (TCNE) to yield donor-substituted 1,1,4,4-tetracyanobuta-1,3-dienes (TCBDs) featuring intense intramolecular charge-transfer (CT) interactions. A dicyanovinyl derivative substituted with one N-phenyldinaphthazepine donor was obtained by a "one-pot" oxidation/Knoevenagel condensation from the corresponding propargylic alcohol. Comparative electrochemical, X-ray crystallographic, and UV/Vis studies show that the electron-donor qualities of N-phenyldinaphthazepine are similar to those of N,N-dimethylanilino residues. The circular dichroism (CD) spectrum of a push-pull chromophore incorporating the chiral donor moiety features Cotton effects of exceptional intensity. With their elongated shape and the rigidity of the chiral N-aryldinaphthazepine donors, these chromophores are effective inducers of twist distortion in nematic liquid crystals (LCs). Thus, a series of the dinaphthazepine derivatives was used as dopants in the nematic LC E7 (Merck) and high helical twisting powers (beta) of the order of hundreds of microm(-1) were measured. Theoretical calculations were employed to elucidate the relation between the structure of the dopants and their helical twisting power. For the derivatives with two dinaphthazepine moieties, a strong dependence of the beta-values on the structure and conformation of the linker between them was found.

Published

2009

143. Guanosine hydrogen-bonded scaffolds: a new way to control the bottom-up realisation of well-defined nanoarchitectures.

Author

Lena S, Masiero S, Pieraccini S, and Spada GP

Subjects

Guanosine Monophosphate chemistry, Hydrogen Bonding, Models, Molecular, Molecular Structure, Polymers chemistry, Guanosine analogs & derivatives, Guanosine chemistry, Nanotechnology

Abstract

Over the last two decades, guanosine-related molecules have been of interest in different areas, ranging from structural biology to medicinal chemistry, supramolecular chemistry and nanotechnology. The guanine base is a multiple hydrogen-bonding unit, capable also of binding to cations, and fits very well with contemporary studies in supramolecular chemistry, self-assembly and non-covalent synthesis. This Concepts article, after reviewing on the diversification of self-organised assemblies from guanosine-based low-molecular-weight molecules, will mainly focus on the use of guanine moiety as a potential scaffold for designing functional materials of tailored physical properties.

Published

2009

144. Self-assembled hexadecanitroxide.

Author

Neviani P, Mileo E, Masiero S, Pieraccini S, Lucarini M, and Spada GP

Abstract

A radical-armed guanosine derivative shows drastic magnetic changes by addition (removal) of alkali metal cations corresponding to the reversible assembly (disassembly). In the presence of templating metal ions, the assembly is formed by 8 molecules and 16 open-shell moieties confined in a sphere with a diameter of ca. 30 A.

Published

2009

145. Chiral doping of nematic phases and its application to the determination of absolute configuration.

Author

Pieraccini S, Ferrarini A, and Spada GP

Abstract

Doping nematic liquid crystals with nonracemic chiral compounds induces a twisted nematic (cholesteric) phase. The ability of solutes to twist the nematic phase may be related to the overall shape of the chiral dopant and consequently to its absolute configuration. The cholesteric induction is therefore a powerful tool complementary to chiroptical techniques to obtain stereochemical information on chiral molecules., (Copyright 2007 Wiley-Liss, Inc.)

Published

2008

146. A cation-directed switch of intermolecular spin-spin interaction of guanosine derivatives functionalized with open-shell units.

Author

Graziano C, Masiero S, Pieraccini S, Lucarini M, and Spada GP

Abstract

The guanosine derivative 1 functionalized with the persistent radical unit 4-carbonyl-2,2,6,6-tetramethylpiperidin-1-oxyl in solution has no particular intermolecular spin-spin interactions; however, in the presence of potassium ions this compound can form a D4-symmetric octameric assembly [1(8)K]+ in which the nitroxyl moieties show a weak electron spin-spin exchange interaction. Since the relative geometry of the radicals is the outcome of K+-directed self-assembly, the spin-spin interaction can be suppressed by removing the alkaline ion.

Published

2008

147. The use of circular dichroism spectroscopy for studying the chiral molecular self-assembly: an overview.

Author

Gottarelli G, Lena S, Masiero S, Pieraccini S, and Spada GP

Subjects

Crystallization, Guanosine analogs & derivatives, Guanosine chemistry, Models, Molecular, Molecular Conformation, Optical Rotation, Stereoisomerism, Circular Dichroism methods, Macromolecular Substances chemistry

Abstract

Self-assembly plays an important role in the formation of many chiral biological structures and in the preparation of chiral functional materials. Therefore the control of chirality in synthetic or biological self-assembled systems is important either for the comprehension of recognition phenomena or to obtain materials with predictable and controllable properties. Circular dichroism was developed to study molecular chirality, however, because of its outstanding sensitivity to chiral perturbations of the system under investigation; it has been extended more recently to supramolecular chemistry. In particular, self-assembly processes leading to the formation of chiral supramolecular architectures (and eventually to gels or liquid crystal phases) can be monitored by CD. Furthermore, CD spectroscopy often allows one to obtain structural information on the assembled structures. This review deals with representative contributions to the study of supramolecular chirality by means of circular dichroism., ((c) 2007 Wiley-Liss, Inc.)

Published

2008

148. Studies on umami taste. Synthesis of new guanosine 5'-phosphate derivatives and their synergistic effect with monosodium glutamate.

Author

Cairoli P, Pieraccini S, Sironi M, Morelli CF, Speranza G, and Manitto P

Subjects

Acylation, Alkylation, Drug Synergism, Guanine Nucleotides chemistry, Models, Molecular, Nucleic Acid Conformation, Purine Nucleotides chemistry, Guanine Nucleotides administration & dosage, Sodium Glutamate administration & dosage, Taste

Abstract

A number of N2-alkyl and N2-acyl derivatives of guanosine 5'-phosphate (GMP) have been synthesized and tested for their synergistic effect with monosodium L-glutamate (MSG), the prototypical substance imparting umami taste to savory-based foods. Capacities to enhance the taste intensity of MSG (gamma values) were estimated through subjective comparisons of MSG/nucleotide mixtures in water with appropriate solutions of MSG alone. Assuming beta = gamma[nucleotide]/gamma[IMP], beta values of the N2-substituted GMPs were found in the range 1.2-5.7. Such values appear to be related to the chain length of the substituent in the 2-position of the purine nucleus and dependent on the replacement of a CH 2 group with an S atom and/or with an alpha-CO group. These findings indicate that the exocyclic NHR group of the guanine moiety is actively implicated in the synergism between GMP derivatives and MSG. Theoretical calculations suggest that an anti conformation is probably assumed by ribonucleotide molecules interacting with umami receptors.

Published

2008

149. The direct conversion of light into continuous mechanical energy by photoreversible self-assembly: a prototype of a light-powered engine.

Author

Masiero S, Lena S, Pieraccini S, and Spada GP

Published

2008

150. Photoinduced conformational switch of enantiopure azobenzenes controlled by a sulfoxide.

Author

Carreño MC, García I, Núñez I, Merino E, Ribagorda M, Pieraccini S, and Spada GP

Abstract

Two series of enantiopure azobenzenes with a p-tolylsulfoxide at the ortho or meta position with respect to the azo group, have been regioselectively synthesized. Both can act as enantiopure molecular switches showing different structural features owing to the presence of the stereogenic sulfur. The photoisomerization process, studied by UV-vis, circular dichroism (CD), NMR, and chiral HPLC evidenced a double role of the sulfoxide. A transfer of chirality from the sulfoxide to the azo system was observed by CD in both cis and trans-isomers of the meta sulfinyl derivatives 3, whereas this perturbation was evident for the ortho sulfinyl series 7 only in the cis isomer. The NMR study evidenced that the s-cis rigid conformation of the bisaromatic sulfoxide was fixing a different orientation of the overall system in each series both in the trans and cis isomers, by forcing a final U-shaped structure in cis-3 and an S-shaped structure in cis-7. Very different values of specific optical rotations were measured in both trans and cis isomers, also reflecting the existence of distinct chiral entities in the photostationary states. The easy and reversible changes occurring between different conformational states could find applications in the photocontrol of several molecular switches.

Published

2007