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9. The Inverse Type II β-Turn on D-Trp-Phe, a Pharmacophoric Motif for MOR Agonists

Author

GENTILUCCI, LUCA, TOLOMELLI, ALESSANDRA, DE MARCO, ROSSELLA, SPAMPINATO, SANTI MARIO, BEDINI, ANDREA, Artali R., Gentilucci L, Tolomelli A, De Marco R, Spampinato S, Bedini A, and Artali R.

Subjects
OPIOIDS, ENDOMORPHIN
Abstract

Herein we propose the d-Trp-Phe sequence within an inverse type II b-turn as a new kind of pharmacophoric motif for mopioid receptor (MOR) cyclopeptide agonists. Initially, we observed that c[Tyr-d-Pro-d-Trp-Phe-Gly] (4), an analogue of endomorphin- 1 (H-Tyr-Pro-Trp-Phe-NH2) lacking the crucial protonatable amino group of Tyr1, is a MOR agonist with 108m affinity. Molecular docking analysis suggested that the relevant interactions with the receptor involve d-Trp-Phe. The bioactive conformation of this region was investigated by selected derivatives of 4 designed to adopt an inverse type II b-turn. These efforts led to c[Tyr-Gly-d-Trp-Phe-Gly] (14) and to the cyclotetrapeptide c[d-Asp-1-amide-b-Ala-d-Trp-Phe] (15), showing improved nanomolar affinity. Both 14 and 15 selectively bind MOR, as they have negligible affinity for the k- and d-opioid receptors. Both 14 and 15 behave as partial MOR agonists in functional assays. Conformational and docking analyses confirm the role of the inverse b-turn in binding. These results indicate that the d-Trp-Phe inverse b-turn structure can be used for designing non-endomorphin-like peptidomimetic opioid agonists in general, characterized by an atypical mechanism of interaction between ligand and receptor.

Published
2011

10. Interactions between atypical opioid agonists and MOR

Author

GENTILUCCI, LUCA, DE MARCO, ROSSELLA, TOLOMELLI, ALESSANDRA, BEDINI, ANDREA, SPAMPINATO, SANTI MARIO, Artali R., Gentilucci L., De Marco R., Tolomelli A., Bedini A., Spampinato S., and Artali R.

Subjects
MU-OPIOID RECEPTOR
Abstract

Endomorphins (EMs) are endogenous peptides with high selectivity for MOR; they induce strong antinociception by binding to both central and peripheral MOR but, unlike morphine, they are effective in reducing neuropathic pain and their analgesic effect seems to be dissociated by immunomodulatory, cardiovascular and respiratory effects. As native EMs show poor bioavailability and rapid degradation in vivo, we designed and assayed novel EM-1 (YPWF-NH2) derivatives bearing chemical modification aimed to improve their application as analgesics. The ionic bond between a protonated amine and a conserved Asp in the third TMH of the opioid receptor is considered the driving force for ligand-receptor interaction of all opioid agonists, being the amine of Tyr the key pharmacophore for opioid peptides. The removal or derivatization of this pharmacophore usually transforms agonists into inactive compounds or antagonists, with only few compounds maintaining an agonist behaviour when deprived of such amino group. Recently, we discovered the novel EM-1 derivative c[YpwFG]; it displayed good affinity to MOR (Ki 34 nM), is an effective and potent analgesic for visceral pain when administered peripherally (i.p ED50 1,25 mg/kg; s.c. ED50 2,7 mg/kg), and retains central analgesic effects (tail-flick test) only at high doses (20 mg/kg). Interestingly, it triggers MOR internalization similarly to DAMGO but displayed an opposite effect on MOR transcription. This cyclopeptide is a structurally atypical opioid agonist, being deprived of the key pharmacophore, therefore we performed investigations by 2D-NMR, conformational analysis, and molecular docking to provide insights into its interaction with and activation of MOR. The resulting receptor-bound structure served as a general model to design new MOR-active compounds containing the sequence wF, to optimize ligand-receptor interactions. This search lead to c[YGwFG], which showed a 10- fold higher affinity for the MOR (Ki 3,6 nM) as well as good analgesic properties in vivo. Finally, we verified the predictive power of the general model by designing a non-EM-like opioid compound, the cyclic tetrapeptide c[d(1-NH2)beta-AwF]. In summary, these results suggest that alternative interactions might duly replace the electrostatic interaction of the protonated nitrogen with the Asp residue, which has not to be considered a conditio sine qua non for opioid receptor activation

Published
2010

16. S35C Flavodoxin Mutant in the semiquinone state

Author

Artali, R., primary, Marchini, N., additional, Meneghetti, F., additional, Cavazzini, D., additional, Cassetta, A., additional, Sassone, C., additional, Bombieri, G., additional, Rossi, G.L., additional, and Gilardi, G., additional

Published
2004
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22. Structure of S35C flavodoxin mutant from Desulfovibrio vulgaris in the semiquinone state.

Author

Artali, R., Marchini, N., Meneghetti, F., Cavazzini, D., Cassetta, A., and Sassone, C.

Subjects
*DESULFOVIBRIO, *ANAEROBIC bacteria, *GRAM-negative bacteria, *GENETIC mutation, *CYSTEINE proteinases
Abstract

The crystallographic structure of an engineered flavodoxin mutant from Desulfovihrio vulgaris has been analysed. Site-directed mutagenesis was used to substitute serine 35 with a cysteine to provide a possible covalent linkage. The crystal structure of the semiquinone form of this mutant is similar to the corresponding oxidation state of the wild-type flavodoxin. Analysis of the structural changes reveals the interaction between N(5)H of the flavin and the carhonyl 0 atom of G1y61 to he critical for modulation of the electrochemical properties of the protein. [ABSTRACT FROM AUTHOR]

Published
2005
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23. Endomorphin-2 analogs containing modified tyrosines: Biological and theoretical investigation of the influence on conformation and pharmacological profile

Author

Anna Janecka, Alicja Kluczyk, Karol Wtorek, Justyna Piekielna-Ciesielska, Luca Gentilucci, Jacek Koszuk, Roberto Artali, Wtorek K., Artali R., Piekielna-Ciesielska J., Koszuk J., Kluczyk A., Gentilucci L., and Janecka A.

Subjects
Agonist, Models, Molecular, Stereochemistry, medicine.drug_class, Molecular Conformation, Peptide, Crystallography, X-Ray, Molecular mechanics, Structure-Activity Relationship, Drug Discovery, medicine, Structure–activity relationship, Peptide bond, Humans, Tyrosine analog, Density Functional Theory, Endogenous opioid, Pharmacology, chemistry.chemical_classification, Halogen-bond, Dose-Response Relationship, Drug, Chemistry, Organic Chemistry, General Medicine, Opioid peptide, Analgesics, Opioid, Docking (molecular), Lipophilicity, Molecular docking, Receptors, Opioid, Oligopeptide, Tyrosine, Oligopeptides, Human
Abstract

New analogs of the endogenous opioid agonist endomorphin-2 (EM-2, H-Tyr-Pro-Phe-Phe-NH2) have been obtained by introducing modified tyrosines at the position 1 of the sequence. For all analogs, the cis/trans conformation ratio about the tyramine-Pro amide bond, lipophilicity, receptor affinities, and functional activities, have been determined. Among the novel derivatives, [Dmt(3'-Cl)]1EM-2 (4) stood out for its subnanomolar μ-opioid receptor affinity and potent agonist activity, superior to that of the parent peptide EM-2. Hybrid quantum mechanics/molecular mechanics docking computations supported the cis tyramine-Pro bioactive conformation, and allowed us to analyze the contribution of the substituents of the "message" tyramine to binding, highlighting the role of halogen-bonding in the higher receptor affinity of peptide 4.

Published
2019

24. Could Dissecting the Molecular Framework of β-Lactam Integrin Ligands Enhance Selectivity?

Author

Roberto Artali, Daria Giacomini, Alberto Caligiana, Santi Spampinato, Monica Baiula, Luca Gentilucci, Paola Galletti, Giulia Martelli, Martelli G., Baiula M., Caligiana A., Galletti P., Gentilucci L., Artali R., Spampinato S., and Giacomini D.

Subjects
Agonist, Models, Molecular, Integrins, Molecular model, medicine.drug_class, MAP Kinase Signaling System, Integrin, Integrin alpha4beta1, Ligands, beta-Lactams, 01 natural sciences, Cell Line, 03 medical and health sciences, Structure-Activity Relationship, Drug Discovery, medicine, Cell Adhesion, Structure–activity relationship, Humans, Cell adhesion, Bone regeneration, 030304 developmental biology, 0303 health sciences, Osteoblasts, biology, Ligand, Chemistry, Adhesion, Integrin, beta-lactam, antagonist, agonist, Integrin alphaVbeta3, 0104 chemical sciences, Molecular Docking Simulation, 010404 medicinal & biomolecular chemistry, Biophysics, biology.protein, Molecular Medicine, Integrin alpha5beta1
Abstract

By dissecting the structure of β-lactam-based ligands, a new series of compounds was designed, synthesized, and evaluated toward integrins αvβ3, α5β1, and α4β1. New selective ligands with antagonist or agonist activities of cell adhesion in the nanomolar range were obtained. The best agonist molecules induced significant adhesion of SK-MEL-24 cells and Saos-2 cells as a valuable model for osteoblast adhesion. These data could lead to the development of new agents to improve cellular osseointegration and bone regeneration. Molecular modeling studies on prototypic compounds and αvβ3 or α5β1 integrin supported the notion that ligand carboxylate fixing to the metal ion-dependent adhesion site in the β-subunit can be sufficient for binding the receptors, while the aryl side chains play a role in determining the selectivity as well as agonism versus antagonism.

Published
2019

25. Cyclic side-chain-linked opioid analogs utilizing cis- and trans-4-aminocyclohexyl-d-alanine

Author

Marzena Mazur, Justyna Piekielna, Jacek Olczak, Csaba Tömböly, Luca Gentilucci, Jakub Modranka, Tomasz Janecki, Anna Janecka, Anna Adamska, Renata Perlikowska, Roberto Artali, Rossella De Marco, Piekielna, J., Gentilucci, L., De Marco, R., Perlikowska, R., Adamska, A., Olczak, J., Mazur, M., Artali, R., Modranka, J., Janecki, T., Tomboly, C., and Janecka, A.

Subjects
Conformational analysis, Cyclic analogs, Molecular docking, Opioid peptides, Opioid receptor binding, Unnatural amino acids, Stereochemistry, Clinical Biochemistry, Pharmaceutical Science, Peptide, Biochemistry, Cyclohexanes, Cyclohexane, Opioid Peptide, Opioid Receptor Binding, Drug Discovery, Side chain, Humans, Peptide bond, Opioid peptide, Molecular Biology, chemistry.chemical_classification, Alanine, Organic Chemistry, Stereoisomerism, Cyclic peptide, chemistry, Cyclization, Receptors, Opioid, Molecular Medicine, Cis–trans isomerism, Human
Abstract

Cyclization of linear sequences is a well recognized tool in opioid peptide chemistry for generating analogs with improved bioactivities. Cyclization can be achieved through various bridging bonds between peptide ends or side-chains. In our earlier paper we have reported the synthesis and biological activity of a cyclic peptide, Tyr-c[ d -Lys-Phe-Phe-Asp]NH 2 ( 1 ), which can be viewed as an analog of endomorphin-2 (EM-2, Tyr-Pro-Phe-Phe-NH 2 ). Cyclization was achieved through an amide bond between side-chains of d -Lys and Asp residues. Here, to increase rigidity of the cyclic structure, we replaced d -Lys with cis - or trans -4-aminocyclohexyl- d -alanine ( d -ACAla). Two sets of analogs incorporating either Tyr or Dmt (2′,6′-dimethyltyrosine) residues in position 1 were synthesized. In the binding studies the analog incorporating Dmt and trans - d -ACAla showed high affinity for both, μ- and δ-opioid receptors (MOR and DOR, respectively) and moderate affinity for the κ-opioid receptor (KOR), while analog with Dmt and cis - d -ACAla was exceptionally MOR-selective. Conformational analyses by NMR and molecular docking studies have been performed to investigate the molecular structural features responsible for the noteworthy MOR selectivity.

Published
2014

26. Effects of PCSK9 variants on common carotid artery intima media thickness and relation to ApoE alleles

Author

Giuseppe Danilo Norata, Sara Raselli, Gherardo Buccianti, Simona Tramontana, Maurizio Averna, Liliana Grigore, Angelo B. Cefalù, Davide Noto, Alberico L. Catapano, Roberto Artali, Katia Garlaschelli, Fiorella Meneghetti, Norata, GD, Garlaschelli, K, Grigore, L, Raselli, S, Tramontana, S, Meneghetti, F, Artali, R, Noto, D, Cefalù, AB, Buccianti, G, Averna, M, and Catapano, AL

Subjects
Apolipoprotein E, Male, medicine.medical_specialty, Pathology, Settore MED/09 - Medicina Interna, Carotid Artery, Common, Population, Biology, PCSK9, PCSK9 Gene, Apolipoproteins E, medicine.artery, Internal medicine, medicine, Humans, Common carotid artery, Allele, education, Alleles, education.field_of_study, In silico modeling, Polymorphism, Genetic, IMT, Serine Endopeptidases, Middle Aged, Endocrinology, Intima-media thickness, LDL receptor, lipids (amino acids, peptides, and proteins), Female, Proprotein Convertases, Molecular genetic, Proprotein Convertase 9, Cardiology and Cardiovascular Medicine, Tunica Intima, Tunica Media
Abstract

BACKGROUND: PCSK9 plays a key role in plasma cholesterol metabolism by modulating the expression of LDL receptors. OBJECTIVE AND METHODS: In this study we investigated the effects of two common polymorphism of the PCSK9 gene (E670G and I474V) on the intima media thickness of the common carotid artery and the possible relation with polymorphisms of apolipoprotein E in 1541 middle aged subjects selected from the general population enrolled in the PLIC study and confirmed the major findings in a second free-living population enrolled in the Ventimiglia study. RESULTS: 670G carriers showed significantly increased plasma total cholesterol, LDL-cholesterol, and Apo levels B while no significant differences were observed between carriers of the I474V SNP. IMT was significantly increased in 670G carriers compared to individuals homozygous for the E allele (0.640+/-0.102mm vs. 0.652+/-0.092mm, P

Published
2009

27. Comparative Structural Studies of 4-Diazopyrazole Derivatives by X-Ray Diffraction and Theoretical Investigation

Author

Giuseppe Daidone, Nicoletta Marchini, Maria Valeria Raimondi, Benedetta Maggio, Gabriella Bombieri, Roberto Artali, DAIDONE G, MAGGIO B, RAIMONDI MV, BOMBIERI G, MARCHINI N, and ARTALI R

Subjects
Pharmacology, Chemistry, Organic Chemistry, Electron delocalization, Pyrazole, Ring (chemistry), Analytical Chemistry, Crystal, Crystallography, chemistry.chemical_compound, Negative charge, X-ray crystallography, X-Ray, crystal, molecular, structures, derivatives, Density functional theory
Abstract

The X-Ray crystal and molecular structures of the 4-pyrazol derivatives 3-methyl-4-diazo-5-benzamido-1H-pyrazole (4) and 3-benzamido-5-methyl-1H-pyrazole (3) have been determined. A dimeric structure has been found for the first and polymeric for the second. A comparison of 4 with 1,3-dimethyl-4-diazo-5-benzamido-lH-pyrazole (2) shows differences in the geometrical parameters of the pyrazole ring due to electron delocalization in 2 consequent to the nitrogen negative charge in the latter. Theoretical investigation at the density functional theory (DFT) level shows difference in the molecular electronic distribution of 2 and 4, in agreement with the structural parameters and the IR stretching frequencies of the respective carbonyl moieties.

Published
2005

28. Tetramethylammonium chlorodiphenylthiocyanatoantimonate(III)

Author

Roberto Artali, Nuccio Bertazzi, Gabriella Bombieri, ARTALI R, BOMBIERI G, and BERTAZZI N

Subjects
Tetramethylammonium, chemistry.chemical_compound, Crystallography, chemistry, Atom (order theory), General Materials Science, General Chemistry, Crystal structure, Condensed Matter Physics, Lone pair
Abstract

The crystal structure of the title compound, (C4H12N)[Sb(C6H5)2Cl(NCS)], contains two cations and two anions in the asymmetric unit. The Sb atom exhibits a distorted pseudo-trigonal–bipyramidal coordination, with the phenyl groups and the lone pair of electrons in equatorial positions and N-bonded thio­cyanate and Cl− ligands in axial positions.

Published
2005

29. Quadruplex-duplex junction in LTR-III: A molecular insight into the complexes with BMH-21, namitecan and doxorubicin.

Author

Mazzini S, Borgonovo G, Princiotto S, Artali R, Musso L, Aviñó A, Eritja R, Gargallo R, and Dallavalle S

Subjects
HIV Long Terminal Repeat genetics, Circular Dichroism, Camptothecin chemistry, Camptothecin analogs & derivatives, Models, Molecular, Humans, Magnetic Resonance Spectroscopy, Doxorubicin chemistry, G-Quadruplexes
Abstract

Quadruplex-Duplex (Q-D) junctions are unique structural motifs garnering increasing interest as drug targets, due to their frequent occurrence in genomic sequences. The viral HIV LTR-III sequence was chosen as a Q-D junction model to study the affinity of the selected compounds BMH-21, namitecan (ST-1968), and doxorubicin (DOXO), all containing a planar polycyclic aromatic moiety, linked to either one short aminoalkyl or an aminoglycosyl group. A multidisciplinary approach that combines NMR spectroscopy, molecular modelling, circular dichroism (CD) and fluorescence spectroscopy was employed. The studied ligands induced moderate but clear stabilization to the Q-D junction by interacting with the interfacial tetrad. DOXO was found to be the best Q-D junction binder. Interestingly, the removal of the aminoglycosyl group significantly changed the pattern of the interactions, indicating that highly polar substituents have a stronger affinity with the exposed regions of the Q-D junction, particularly at the level of the interfacial tetrad., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Mazzini et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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30. Exploring the Interaction of New Pyridoquinazoline Derivatives with G-Quadruplex in the c-MYC Promoter Region.

Author

Princiotto S, Karelou M, Ioannidi R, Beretta GL, Zaffaroni N, Artali R, Kostakis IK, Mazzini S, and Dallavalle S

Subjects
Humans, Cell Line, Promoter Regions, Genetic, G-Quadruplexes, Osteosarcoma, Bone Neoplasms
Abstract

Novel amino-substituted pyridoquinazolinone derivatives have been designed and synthesized as potential c-MYC G-quadruplex (G4) ligands, employing an efficient methodology. All the new compounds exhibited moderate to good antiproliferative activity against the human osteosarcoma U2OS cell line. NMR and docking experiments revealed that the recently synthesized compounds interact with the Pu22 G-quadruplex in the c-MYC promoter region, establishing a 2:1 complex, with each molecule positioned over the tetrads at the 3'- and 5'-ends.

Published
2023
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31. Design and Pharmacological Characterization of α 4 β 1 Integrin Cyclopeptide Agonists: Computational Investigation of Ligand Determinants for Agonism versus Antagonism.

Author

Anselmi M, Baiula M, Spampinato S, Artali R, He T, and Gentilucci L

Subjects
Peptides, Cyclic pharmacology, Ligands, Integrins metabolism, Cell Adhesion, Integrin alpha4beta1 metabolism, Integrin beta1
Abstract

α 4 β 1 integrin is a cell adhesion receptor deeply involved in the migration and accumulation of leukocytes. Therefore, integrin antagonists that inhibit leukocytes recruitment are currently regarded as a therapeutic opportunity for the treatment of inflammatory disorder, including leukocyte-related autoimmune diseases. Recently, it has been suggested that integrin agonists capable to prevent the release of adherent leukocytes might serve as therapeutic agents as well. However, very few α 4 β 1 integrin agonists have been discovered so far, thus precluding the investigation of their potential therapeutic efficacy. In this perspective, we synthesized cyclopeptides containing the LDV recognition motif found in the native ligand fibronectin. This approach led to the discovery of potent agonists capable to increase the adhesion of α 4 integrin-expressing cells. Conformational and quantum mechanics computations predicted distinct ligand-receptor interactions for antagonists or agonists, plausibly referable to receptor inhibition or activation.

Published
2023
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32. Investigation of the Interaction between Aloe vera Anthraquinone Metabolites and c-Myc and C-Kit G-Quadruplex DNA Structures

Author

Dallavalle S, Artali R, Princiotto S, Musso L, Borgonovo G, and Mazzini S

Subjects
Ligands, Anthraquinones, Proto-Oncogene Proteins c-kit genetics, Nucleotides, Aloe chemistry, G-Quadruplexes
Abstract

G-quadruplexes are nucleotide sequences present in the promoter region of numerous oncogenes, having a key role in the suppression of gene transcription. Recently, the binding of anthraquinones from Aloe vera to G-quadruplex structures has been studied through various physico-chemical techniques. Intrigued by the reported results, we investigated the affinity of aloe emodin, aloe emodin-8-glucoside, and aloin to selected G-quadruplex nucleotide sequences by NMR spectroscopy. The structural determinants for the formation of the ligand/nucleotide complexes were elucidated and a model of the interactions between the tested compounds and C-Kit and c-Myc G-quadruplex DNA structures was built by integrated NMR and molecular modeling studies. Overall, the obtained results confirmed and implemented the previously reported findings, pointing out the complementarity of the different approaches and their contribution to a more detailed overview of the ligand/nucleotide complex formation. Furthermore, the proposed models of interaction could pave the way to the design of new nature-derived compounds endowed with increased G-quadruplex stabilizing activity.

Published
2022
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33. Exploring the Interaction of G-quadruplex Binders with a (3 + 1) Hybrid G-quadruplex Forming Sequence within the PARP1 Gene Promoter Region.

Author

Mazzini S, Princiotto S, Artali R, Musso L, Aviñó A, Eritja R, Gargallo R, and Dallavalle S

Subjects
Circular Dichroism, DNA Repair, Ligands, Promoter Regions, Genetic, G-Quadruplexes
Abstract

The enzyme PARP1 is an attractive target for cancer therapy, as it is involved in DNA repair processes. Several PARP1 inhibitors have been approved for clinical treatments. However, the rapid outbreak of resistance is seriously threatening the efficacy of these compounds, and alternative strategies are required to selectively regulate PARP1 activity. A noncanonical G-quadruplex-forming sequence within the PARP1 promoter was recently identified. In this study, we explore the interaction of known G-quadruplex binders with the G-quadruplex structure found in the PARP gene promoter region. The results obtained by NMR, CD, and fluorescence titration, also confirmed by molecular modeling studies, demonstrate a variety of different binding modes with small stabilization of the G-quadruplex sequence located at the PARP1 promoter. Surprisingly, only pyridostatin produces a strong stabilization of the G-quadruplex-forming sequence. This evidence makes the identification of a proper (3+1) stabilizing ligand a challenging goal for further investigation.

Published
2022
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34. Alkaloid Escholidine and Its Interaction with DNA Structures.

Author

Jarošová P, Hannig P, Kolková K, Mazzini S, Táborská E, Gargallo R, Borgonovo G, Artali R, and Táborský P

Abstract

Berberine, the most known quaternary protoberberine alkaloid (QPA), has been reported to inhibit the SIK3 protein connected with breast cancer. Berberine also appears to reduce the bcl-2 and XIAP expression-proteins responsible for the inhibition of apoptosis. As some problems in the therapy with berberine arose, we studied the DNA binding properties of escholidine, another QPA alkaloid. CD, fluorescence, and NMR examined models of i-motif and G-quadruplex sequences present in the n-myc gene and the c-kit gene. We provide evidence that escholidine does not induce stabilization of the i-motif sequences, while the interaction with G-quadruplex structures appears to be more significant.

Published
2021
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35. Investigation of the Complexes Formed between PARP1 Inhibitors and PARP1 G-Quadruplex at the Gene Promoter Region.

Author

Dallavalle S, Princiotto S, Mattio LM, Artali R, Musso L, Aviñó A, Eritja R, Pisano C, Gargallo R, and Mazzini S

Subjects
Benzimidazoles chemistry, Benzimidazoles pharmacology, DNA chemistry, DNA drug effects, Humans, Indazoles chemistry, Indazoles pharmacology, Magnetic Resonance Spectroscopy, Phthalazines chemistry, Phthalazines pharmacology, Piperazines chemistry, Piperazines pharmacology, Piperidines chemistry, Piperidines pharmacology, Poly(ADP-ribose) Polymerase Inhibitors pharmacology, G-Quadruplexes, Models, Molecular, Poly (ADP-Ribose) Polymerase-1 genetics, Poly(ADP-ribose) Polymerase Inhibitors chemistry, Promoter Regions, Genetic
Abstract

DNA repair inhibitors are one of the latest additions to cancer chemotherapy. In general, chemotherapy produces DNA damage but tumoral cells may become resistant if enzymes involved in DNA repair are overexpressed and are able to reverse DNA damage. One of the most successful drugs based on modulating DNA repair are the poly(ADP-ribose) polymerase 1 (PARP1) inhibitors. Several PARP1 inhibitors have been recently developed and approved for clinical treatments. We envisaged that PARP inhibition could be potentiated by simultaneously modulating the expression of PARP 1 and the enzyme activity, by a two-pronged strategy. A noncanonical G-quadruplex-forming sequence within the PARP1 promoter has been recently identified. In this study, we explored the potential binding of clinically approved PARP1 inhibitors to the G-quadruplex structure found at the gene promoter region. The results obtained by NMR, CD, and fluorescence titration confirmed by molecular modeling demonstrated that two out the four PARP1 inhibitors studied are capable of forming defined complexes with the PARP1 G-quadruplex. These results open the possibility of exploring the development of better G-quadruplex binders that, in turn, may also inhibit the enzyme.

Published
2021
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36. Exploring the Interaction of Curaxin CBL0137 with G-Quadruplex DNA Oligomers.

Author

Dallavalle S, Mattio LM, Artali R, Musso L, Aviñó A, Fàbrega C, Eritja R, Gargallo R, and Mazzini S

Subjects
Carbazoles pharmacology, DNA metabolism, Humans, Macromolecular Substances metabolism, Magnetic Resonance Spectroscopy, Molecular Conformation, Molecular Structure, Structure-Activity Relationship, Telomere genetics, Telomere metabolism, Carbazoles chemistry, DNA chemistry, G-Quadruplexes drug effects, Macromolecular Substances chemistry
Abstract

Curaxins and especially the second-generation derivative curaxin CBL0137 have important antitumor activities in multiple cancers such as glioblastoma, melanoma and others. Although most of the authors suggest that their mechanism of action comes from the activation of p53 and inactivation of NF-kB by targeting FACT, there is evidence supporting the involvement of DNA binding in their antitumor activity. In this work, the DNA binding properties of curaxin CBL0137 with model quadruplex DNA oligomers were studied by 1 H NMR, CD, fluorescence and molecular modeling. We provided molecular details of the interaction of curaxin with two G-quadruplex structures, the single repeat of human telomere d(TTAGGGT) 4 and the c - myc promoter Pu22 sequence. We also performed 1 H and 31 P NMR experiments were also performed in order to investigate the interaction with duplex DNA models. Our data support the hypothesis that the interaction of curaxin with G-quadruplex may provide a novel insight into the DNA-binding properties of CBL0137, and it will be helpful for the design of novel selective DNA-targeting curaxin analogues.

Published
2021
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37. G-quadruplex binding properties of a potent PARP-1 inhibitor derived from 7-azaindole-1-carboxamide.

Author

Dallavalle S, Musso L, Artali R, Aviñó A, Scaglioni L, Eritja R, Gargallo R, and Mazzini S

Subjects
Antineoplastic Agents chemistry, Magnetic Resonance Spectroscopy, Models, Molecular, Promoter Regions, Genetic, Spectrometry, Fluorescence, Antineoplastic Agents metabolism, G-Quadruplexes, Genes, myc, Poly (ADP-Ribose) Polymerase-1 antagonists & inhibitors, Telomere metabolism
Abstract

Poly ADP-ribose polymerases (PARP) are key proteins involved in DNA repair, maintenance as well as regulation of programmed cell death. For this reason they are important therapeutic targets for cancer treatment. Recent studies have revealed a close interplay between PARP1 recruitment and G-quadruplex stabilization, showing that PARP enzymes are activated upon treatment with a G4 ligand. In this work the DNA binding properties of a PARP-1 inhibitor derived from 7-azaindole-1-carboxamide, (2-[6-(4-pyrrolidin-1-ylmethyl-phenyl)-pyrrolo[2,3-b]pyridin-1-yl]-acetamide, compound 1) with model duplex and quadruplex DNA oligomers were studied by NMR, CD, fluorescence and molecular modelling. We provide evidence that compound 1 is a strong G-quadruplex binder. In addition we provide molecular details of the interaction of compound 1 with two model G-quadruplex structures: the single repeat of human telomeres, d(TTAGGGT) 4 , and the c-MYC promoter Pu22 sequence. The formation of defined and strong complexes with G-quadruplex models suggests a dual G4 stabilization/PARP inhibition mechanism of action for compound 1 and provides the molecular bases of its therapeutic potential.

Published
2021
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38. Pharmacological Characterization of µ-Opioid Receptor Agonists with Biased G Protein or β-Arrestin Signaling, and Computational Study of Conformational Changes during Receptor Activation.

Author

Piekielna-Ciesielska J, Artali R, Azzam AAH, Lambert DG, Kluczyk A, Gentilucci L, and Janecka A

Subjects
Animals, CHO Cells, Cricetulus, Drug Discovery, Humans, Ligands, Magnetic Resonance Spectroscopy, Molecular Docking Simulation, Molecular Dynamics Simulation, Molecular Structure, GTP-Binding Proteins metabolism, Models, Molecular, Molecular Conformation, Receptors, Opioid, mu agonists, Receptors, Opioid, mu chemistry, Signal Transduction drug effects, beta-Arrestins metabolism
Abstract

In recent years, G protein vs. β-arrestin biased agonism at opioid receptors has been proposed as an opportunity to produce antinociception with reduced adverse effects. However, at present this approach is highly debated, a reason why more information about biased ligands is required. While the practical relevance of bias in the case of µ-opioid receptors (MOP) still needs to be validated, it remains important to understand the basis of this bias of MOP (and other GPCRs). Recently, we reported two cyclopeptides with high affinity for MOP, the G protein biased Dmt-c[d-Lys-Phe- p CF 3 -Phe-Asp]NH 2 (F-81), and the β-arrestin 2 biased Dmt-c[d-Lys-Phe-Asp]NH 2 (C-33), as determined by calcium mobilization assay and bioluminescence resonance energy transfer-based assay. The biased character of F-81 and C-33 has been further analyzed in the [ 35 S]GTPγS binding assay in human MOP-expressing cells, and the PathHunter enzyme complementation assay, used to measure β-arrestin 2 recruitment. To investigate the structural features of peptide-MOP complexes, we performed conformational analysis by NMR spectroscopy, molecular docking, and molecular dynamics simulation. These studies predicted that the two ligands form alternative complexes with MOP, engaging specific ligand-receptor contacts. This would induce different displays of the cytosolic side of the seven-helices bundle, in particular by stabilizing different angulations of helix 6, that could favor intracellular coupling to either G protein or β-arrestin.

Published
2020
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39. Putative SARS-CoV-2 M pro Inhibitors from an In-House Library of Natural and Nature-Inspired Products: A Virtual Screening and Molecular Docking Study.

Author

Mazzini S, Musso L, Dallavalle S, and Artali R

Subjects
COVID-19, Coronavirus M Proteins, Drug Repositioning, Humans, Molecular Docking Simulation, Molecular Dynamics Simulation, Pandemics, Peptide Hydrolases metabolism, SARS-CoV-2, Viral Matrix Proteins antagonists & inhibitors, COVID-19 Drug Treatment, Antiviral Agents pharmacology, Betacoronavirus drug effects, Biological Products pharmacology, Coronavirus Infections drug therapy, Pneumonia, Viral drug therapy, Protease Inhibitors pharmacology
Abstract

A novel coronavirus (severe acute respiratory syndrome coronavirus 2, SARS-CoV-2) has been the cause of a recent global pandemic. The highly contagious nature of this life-threatening virus makes it imperative to find therapies to counteract its diffusion. The main protease (M pro ) of SARS-CoV-2 is a promising drug target due to its indispensable role in viral replication inside the host. Using a combined two-steps approach of virtual screening and molecular docking techniques, we have screened an in-house collection of small molecules, mainly composed of natural and nature-inspired compounds. The molecules were selected with high structural diversity to cover a wide range of chemical space into the enzyme pockets. Virtual screening experiments were performed using the blind docking mode of the AutoDock Vina software. Virtual screening allowed the selection of structurally heterogeneous compounds capable of interacting effectively with the enzymatic site of SARS-CoV-2 M pro . The compounds showing the best interaction with the protein were re-scored by molecular docking as implemented in AutoDock, while the stability of the complexes was tested by molecular dynamics. The most promising candidates revealed a good ability to fit into the protein binding pocket and to reach the catalytic dyad. There is a high probability that at least one of the selected scaffolds could be promising for further research.

Published
2020
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40. Could Dissecting the Molecular Framework of β-Lactam Integrin Ligands Enhance Selectivity?

Author

Martelli G, Baiula M, Caligiana A, Galletti P, Gentilucci L, Artali R, Spampinato S, and Giacomini D

Subjects
Cell Adhesion drug effects, Cell Line, Humans, Integrin alpha4beta1 agonists, Integrin alpha4beta1 antagonists & inhibitors, Integrin alpha4beta1 metabolism, Integrin alpha5beta1 agonists, Integrin alpha5beta1 antagonists & inhibitors, Integrin alpha5beta1 metabolism, Integrin alphaVbeta3 agonists, Integrin alphaVbeta3 antagonists & inhibitors, Integrin alphaVbeta3 metabolism, Integrins metabolism, Ligands, MAP Kinase Signaling System drug effects, Models, Molecular, Molecular Docking Simulation, Osteoblasts drug effects, Structure-Activity Relationship, beta-Lactams chemical synthesis, Integrins agonists, Integrins antagonists & inhibitors, beta-Lactams chemistry, beta-Lactams pharmacology
Abstract

By dissecting the structure of β-lactam-based ligands, a new series of compounds was designed, synthesized, and evaluated toward integrins α v β 3 , α 5 β 1 , and α 4 β 1 . New selective ligands with antagonist or agonist activities of cell adhesion in the nanomolar range were obtained. The best agonist molecules induced significant adhesion of SK-MEL-24 cells and Saos-2 cells as a valuable model for osteoblast adhesion. These data could lead to the development of new agents to improve cellular osseointegration and bone regeneration. Molecular modeling studies on prototypic compounds and α v β 3 or α 5 β 1 integrin supported the notion that ligand carboxylate fixing to the metal ion-dependent adhesion site in the β-subunit can be sufficient for binding the receptors, while the aryl side chains play a role in determining the selectivity as well as agonism versus antagonism.

Published
2019
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41. Endomorphin-2 analogs containing modified tyrosines: Biological and theoretical investigation of the influence on conformation and pharmacological profile.

Author

Wtorek K, Artali R, Piekielna-Ciesielska J, Koszuk J, Kluczyk A, Gentilucci L, and Janecka A

Subjects
Analgesics, Opioid chemical synthesis, Analgesics, Opioid chemistry, Crystallography, X-Ray, Dose-Response Relationship, Drug, Humans, Models, Molecular, Molecular Conformation, Oligopeptides chemical synthesis, Oligopeptides chemistry, Structure-Activity Relationship, Tyrosine chemistry, Analgesics, Opioid pharmacology, Density Functional Theory, Oligopeptides pharmacology, Receptors, Opioid agonists, Tyrosine pharmacology
Abstract

New analogs of the endogenous opioid agonist endomorphin-2 (EM-2, H-Tyr-Pro-Phe-Phe-NH 2 ) have been obtained by introducing modified tyrosines at the position 1 of the sequence. For all analogs, the cis/trans conformation ratio about the tyramine-Pro amide bond, lipophilicity, receptor affinities, and functional activities, have been determined. Among the novel derivatives, [Dmt(3'-Cl)] 1 EM-2 (4) stood out for its subnanomolar μ-opioid receptor affinity and potent agonist activity, superior to that of the parent peptide EM-2. Hybrid quantum mechanics/molecular mechanics docking computations supported the cis tyramine-Pro bioactive conformation, and allowed us to analyze the contribution of the substituents of the "message" tyramine to binding, highlighting the role of halogen-bonding in the higher receptor affinity of peptide 4., (Copyright © 2019 Elsevier Masson SAS. All rights reserved.)

Published
2019
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42. Hybrid topoisomerase I and HDAC inhibitors as dual action anticancer agents.

Author

Cincinelli R, Musso L, Artali R, Guglielmi MB, La Porta I, Melito C, Colelli F, Cardile F, Signorino G, Fucci A, Frusciante M, Pisano C, and Dallavalle S

Subjects
Animals, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Binding Sites, Camptothecin chemistry, Camptothecin pharmacology, Camptothecin therapeutic use, Catalytic Domain, Cell Line, Tumor, Cell Proliferation drug effects, DNA Topoisomerases, Type I chemistry, DNA Topoisomerases, Type I metabolism, Female, Histone Deacetylase Inhibitors chemistry, Histone Deacetylase Inhibitors pharmacology, Humans, Mice, Mice, Nude, Molecular Dynamics Simulation, Neoplasms pathology, Topoisomerase I Inhibitors chemistry, Topoisomerase I Inhibitors pharmacology, Transplantation, Heterologous, Antineoplastic Agents therapeutic use, Histone Deacetylase Inhibitors therapeutic use, Neoplasms drug therapy, Topoisomerase I Inhibitors therapeutic use
Abstract

Recent studies have shown that HDAC inhibitors act synergistically with camptothecin derivatives in combination therapies. To exploit this synergy, new hybrid molecules targeting simultaneously topoisomerase I and HDAC were designed. In particular, a selected multivalent agent containing a camptothecin and a SAHA-like template showed a broad spectrum of antiproliferative activity, with IC50 values in the nanomolar range. Preliminary in vivo results indicated a strong antitumor activity on human mesothelioma primary cell line MM473 orthotopically xenografted in CD-1 nude mice and very high tolerability., Competing Interests: The authors have the following interests. Scientia Advice is the name of Dr. Roberto Artali's sole proprietorship who offered a free-of-charge cooperation in the molecular modelling. There are no patents, products in development or marketed products to declare. This does not alter the authors' adherence to all the PLOS ONE policies on sharing data and materials, as detailed online in the guide for authors.

Published
2018
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43. Constraining Endomorphin-1 by β,α-Hybrid Dipeptide/Heterocycle Scaffolds: Identification of a Novel κ-Opioid Receptor Selective Partial Agonist.

Author

De Marco R, Bedini A, Spampinato S, Comellini L, Zhao J, Artali R, and Gentilucci L

Subjects
Analgesics chemical synthesis, Analgesics metabolism, Animals, Mice, Molecular Docking Simulation, Oligopeptides chemical synthesis, Oligopeptides metabolism, Protein Conformation, Receptors, Opioid, kappa chemistry, Receptors, Opioid, kappa metabolism, Analgesics chemistry, Analgesics pharmacology, Dipeptides chemistry, Heterocyclic Compounds chemistry, Oligopeptides chemistry, Oligopeptides pharmacology, Receptors, Opioid, kappa agonists
Abstract

Herein we present the expedient synthesis of endomorphin-1 analogues containing stereoisomeric β 2 -homo-Freidinger lactam-like scaffolds ([Amo 2 ]EM), and we discuss opioid receptor (OR) affinity, enzymatic stability, functional activity, in vivo antinociceptive effects, and conformational and molecular docking analysis. Hence, H-Tyr-Amo-Trp-PheNH 2 resulted to be a new chemotype of highly stable, selective, partial KOR agonist inducing analgesia, therefore displaying great potential interest as a painkiller possibly with reduced harmful side effects.

Published
2018
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44. c-MYC G-quadruplex binding by the RNA polymerase I inhibitor BMH-21 and analogues revealed by a combined NMR and biochemical Approach.

Author

Musso L, Mazzini S, Rossini A, Castagnoli L, Scaglioni L, Artali R, Di Nicola M, Zunino F, and Dallavalle S

Subjects
Benzothiazoles pharmacology, Blotting, Western, Cell Line, Tumor, DNA, Neoplasm genetics, Enzyme Inhibitors pharmacology, Humans, Models, Molecular, Molecular Docking Simulation, Molecular Structure, Naphthyridines pharmacology, Neoplasm Proteins biosynthesis, Neoplasm Proteins genetics, Nuclear Magnetic Resonance, Biomolecular, Organelle Biogenesis, Ribosomes metabolism, Antineoplastic Agents pharmacology, DNA, Neoplasm drug effects, G-Quadruplexes drug effects, Gene Expression Regulation, Neoplastic drug effects, Genes, myc drug effects, Heterocyclic Compounds, 4 or More Rings pharmacology, Promoter Regions, Genetic drug effects, RNA Polymerase I antagonists & inhibitors, Transcription, Genetic drug effects
Abstract

Background: Pyridoquinazolinecarboxamides have been reported as RNA polymerase I inhibitors and represent a novel class of potential antitumor agents. BMH-21, was reported to intercalate with GC-rich rDNA, resulting in nucleolar stress as a primary mechanism of cytotoxicity., Methods: The interaction of BMH-21 and analogues with DNA G-quadruplex structures was studied by NMR and molecular modelling. The cellular response was investigated in a panel of human tumor cell lines and protein expression was examined by Western Blot analysis., Results and Conclusions: We explored the ability of BMH-21 and its analogue 2 to bind to G-quadruplex present in the c-MYC promoter, by NMR and molecular modelling studies. We provide evidence that both compounds are not typical DNA intercalators but are effective binders of the tested G-quadruplex. The interaction with c-MYC G-quadruplex was reflected in down-regulation of c-Myc expression in human tumor cells. The inhibitory effect was almost complete in lymphoma cells SUDHL4 characterized by overexpression of c-Myc protein. This downregulation reflected an early and persistent modulation of cMyc mRNA. Given the relevance of c-MYC in regulation of ribosome biogenesis, it is conceivable that the inhibition of c-MYC contributes to the perturbation of nuclear functions and RNA polymerase I activity. Similar experiments with CX-5461, another RNA polymerase I transcription inhibitor, indicate the same behaviour in G-quadruplex stabilization., General Significance: Our results support the hypothesis that BMH-21 and analogue compounds share the same mechanism, i.e. G-quadruplex binding as a primary event of a cascade leading to inhibition of RNA polymerase I and apoptosis., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2018
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45. Camptothecin-psammaplin A hybrids as topoisomerase I and HDAC dual-action inhibitors.

Author

Cincinelli R, Musso L, Artali R, Guglielmi M, Bianchino E, Cardile F, Colelli F, Pisano C, and Dallavalle S

Subjects
Animals, Antineoplastic Agents chemical synthesis, Antineoplastic Agents chemistry, Camptothecin chemistry, Cell Proliferation drug effects, Cells, Cultured, DNA Topoisomerases, Type I metabolism, Disulfides chemistry, Dose-Response Relationship, Drug, Drug Screening Assays, Antitumor, Histone Deacetylase Inhibitors chemical synthesis, Histone Deacetylase Inhibitors chemistry, Histone Deacetylases metabolism, Humans, Mice, Mice, Nude, Models, Molecular, Molecular Structure, Neoplasms, Experimental drug therapy, Neoplasms, Experimental pathology, Structure-Activity Relationship, Topoisomerase I Inhibitors chemical synthesis, Topoisomerase I Inhibitors chemistry, Tyrosine chemistry, Tyrosine pharmacology, Antineoplastic Agents pharmacology, Camptothecin pharmacology, Disulfides pharmacology, Histone Deacetylase Inhibitors pharmacology, Topoisomerase I Inhibitors pharmacology, Tyrosine analogs & derivatives
Abstract

Recent studies have demonstrated enhanced anticancer effects of combination therapy consisting of camptothecin derivatives and HDAC inhibitors. To exploit this synergy in a single active compound, we designed new dual-acting multivalent molecules simultaneously targeting topoisomerase I and HDAC. In particular, a selected compound containing a camptothecin and the psammaplin A scaffold showed a broad spectrum of antiproliferative activity, with IC 50 values in the nanomolar range. Preliminary in vivo results indicated a strong antitumor activity on human mesothelioma primary cell line MM473 orthotopically xenografted in CD-1 nude mice and very high tolerability., (Copyright © 2017 Elsevier Masson SAS. All rights reserved.)

Published
2018
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46. Nemorubicin and doxorubicin bind the G-quadruplex sequences of the human telomeres and of the c-MYC promoter element Pu22.

Author

Scaglioni L, Mondelli R, Artali R, Sirtori FR, and Mazzini S

Subjects
Magnetic Resonance Spectroscopy, Models, Molecular, Spectrometry, Mass, Electrospray Ionization, Antineoplastic Agents chemistry, Doxorubicin analogs & derivatives, Doxorubicin chemistry, G-Quadruplexes, Genes, myc, Promoter Regions, Genetic, Telomere
Abstract

Background: Intra-molecular G-quadruplex structures are present in the guanine rich regions of human telomeres and were found to be prevalent in gene promoters. More recently, the targeting of c-MYC transcriptional control has been suggested, because the over expression of the c-MYC oncogene is one of the most common aberration found in a wide range of human tumors., Methods: The interaction of nemorubicin and doxorubicin with DNA G-quadruplex structures has been studied by NMR, ESI-MS and molecular modelling, in order to obtain further information about the complex and the multiple mechanisms of action of these drugs., Results and Conclusions: Nemorubicin intercalates between A3 and G4 of d(TTAGGGT)4 and form cap-complex at the G6pT7 site. The presence of the adenine in this sequence is important for the stabilization of the complex, as was shown by the interaction with d(TTGGGTT)4 and d(TTTGGGT)4, which form only a 1:1 complex. The interaction of doxorubicin with d(TTAGGGT)4 is similar, but the complex appears less stable. Nemorubicin also binds with high efficiency the c-MYC G-quadruplex sequence Pu22, to form a very well defined complex. Two nemorubicin molecules bind to the 3'-end and to the 5'-end, forming an additional plane of stacking over each external G-tetrad. The wild type c-MYCPu22 sequence forms with nemorubicin the same complex., General Significance: Nemorubicin and doxorubicin, not only intercalate into the duplex DNA, but also result in significant ligands for G-quadruplex DNA segments, stabilizing their structure; this may in part explain the multiple mechanisms of action of their antitumor activity., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published
2016
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47. Redoubling the ring size of an endomorphin-2 analog transforms a centrally acting mu-opioid receptor agonist into a pure peripheral analgesic.

Author

Piekielna J, De Marco R, Gentilucci L, Cerlesi MC, Calo' G, Tömböly C, Artali R, and Janecka A

Subjects
Amino Acid Sequence, Analgesics pharmacology, Analgesics, Opioid pharmacology, Animals, Binding Sites, Biological Assay, Blood-Brain Barrier drug effects, Blood-Brain Barrier metabolism, Calcium metabolism, Cyclization, Dimerization, Humans, Injections, Intraventricular, Male, Mice, Models, Molecular, Molecular Docking Simulation, Oligopeptides chemistry, Oligopeptides pharmacology, Pain metabolism, Pain physiopathology, Peptides, Cyclic pharmacology, Protein Binding, Receptors, Opioid, delta chemistry, Receptors, Opioid, delta metabolism, Receptors, Opioid, kappa chemistry, Receptors, Opioid, kappa metabolism, Receptors, Opioid, mu chemistry, Receptors, Opioid, mu metabolism, Structure-Activity Relationship, Analgesics chemical synthesis, Analgesics, Opioid chemical synthesis, Oligopeptides chemical synthesis, Pain drug therapy, Peptides, Cyclic chemical synthesis, Receptors, Opioid, mu agonists
Abstract

The study reports the synthesis and biological evaluation of two opioid analogs, a monomer and a dimer, obtained as products of the solid-phase, side-chain to side-chain cyclization of the pentapeptide Tyr-d-Lys-Phe-Phe-AspNH2 . The binding affinities to the mu, delta, and kappa opioid receptors, as well as results obtained in a calcium mobilization functional assay are reported. Tyr-[d-Lys-Phe-Phe-Asp]2 -NH2 1 was a potent and selective full agonist of mu with sub-nanomolar affinity, while the dimer (Tyr-[d-Lys-Phe-Phe-Asp]2 -NH2 )2 2 showed a significant mixed mu/kappa affinity, acting as an agonist at the mu. Molecular docking computations were utilized to explain the ability of the dimeric cyclopeptide 2 to interact with the receptor. Interestingly, in spite of the increased ring size, the higher flexibility allowed 2 to fold and fit into the mu receptor binding pocket. Both cyclopeptides were shown to elicit strong antinociceptive activity after intraventricular injection but only cyclomonomer 1 was able to cross the blood-brain barrier. However, the cyclodimer 2 displayed a potent peripheral antinociceptive activity in a mouse model of visceral inflammatory pain. © 2016 Wiley Periodicals, Inc. Biopolymers (Pept Sci) 106: 309-317, 2016., (© 2016 Wiley Periodicals, Inc.)

Published
2016
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48. Synthesis of mixed MOR/KOR efficacy cyclic opioid peptide analogs with antinociceptive activity after systemic administration.

Author

Perlikowska R, Piekielna J, Gentilucci L, De Marco R, Cerlesi MC, Calo G, Artali R, Tömböly C, Kluczyk A, and Janecka A

Subjects
Amino Acid Sequence, Analgesics, Opioid administration & dosage, Analgesics, Opioid chemical synthesis, Animals, CHO Cells, Cricetulus, Guinea Pigs, Male, Mice, Molecular Docking Simulation, Oligopeptides administration & dosage, Oligopeptides chemical synthesis, Pain drug therapy, Pain metabolism, Peptides, Cyclic administration & dosage, Peptides, Cyclic chemical synthesis, Peptides, Cyclic chemistry, Peptides, Cyclic therapeutic use, Rats, Wistar, Structure-Activity Relationship, Analgesics, Opioid chemistry, Analgesics, Opioid therapeutic use, Oligopeptides chemistry, Oligopeptides therapeutic use, Receptors, Opioid, kappa metabolism, Receptors, Opioid, mu metabolism
Abstract

Cyclic pentapeptide Tyr-c[D-Lys-Phe-Phe-Asp]NH2, based on the structure of endomorphin-2 (EM-2), which shows high affinity to the μ-opioid receptor (MOR) and a very strong antinociceptive activity in mice was used as a parent compound for the structure-activity relationship studies. In this report we synthesized analogs of a general sequence Dmt-c[D-Lys-Xaa-Yaa-Asp]NH2, with D-1- or D-2-naphthyl-3-alanine (D-1-Nal or D-2-Nal) in positions 3 or 4. In our earlier papers we have indicated that replacing a phenylalanine residue by the more extended aromatic system of naphthylalanines may result in increased bioactivities of linear analogs. The data obtained here showed that only cyclopeptides modified in position 4 retained the sub-nanomolar MOR and nanomolar κ-opioid receptor (KOR) affinity, similar but not better than that of a parent cyclopeptide. In the in vivo mouse hot-plate test, the most potent analog, Dmt-c[D-Lys-Phe-D-1-Nal-Asp]NH2, exhibited higher than EM-2 but slightly lower than the cyclic parent peptide antinociceptive activity after peripheral (ip) and also central administration (icv). Conformational analyses in a biomimetic environment and molecular docking studies disclosed the structural determinants responsible for the different pharmacological profiles of position 3- versus position 4-modified analogs., (Copyright © 2015. Published by Elsevier Masson SAS.)

Published
2016
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49. Molecular recognition in naphthoquinone derivatives - G-quadruplex complexes by NMR.

Author

Riva B, Ferreira R, Musso L, Artali R, Scaglioni L, and Mazzini S

Subjects
Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Drug Design, Fluorescence, Humans, Models, Molecular, Naphthoquinones pharmacology, G-Quadruplexes, Magnetic Resonance Spectroscopy methods, Naphthoquinones chemistry
Abstract

Background: G-quadruplexes have become important drug-design targets for the treatment of various human disorders such as cancer, diabetes and cardiovascular diseases. Recently, G-quadruplex structures have been visualized in the DNA of human cells and appeared to be dynamically sensitive to the cell cycle and stabilized by small molecule ligands. A small library of isoxazolo naphthoquinones (1a-h), which exhibited a strong antiproliferative activity on different cancer cell lines, was studied as potential ligands of G-quadruplex DNA., Methods: The DNA binding properties of a series of the selected compounds have been analyzed by fluorescence assays. NMR/modeling studies were performed to describe the complexes between G-quadruplex DNA sequences and two selected compounds 1a and 1b., Results: 1a and 1b in the presence of G-quadruplexes, d(T(2)AG(3)T)(4), d(TAG(3)T(2)A)(4) and d(T(2)G(3)T(2))(4), showed good ability of intercalation and the formation of complexes with 2:1 stoichiometry. 1a showed an important interaction with the sequence Pu22 belonging to the promoter of oncogenes c-myc., Conclusions: The ligands directly interact with the external G-tetrads of the G-quadruplexes, without alterations in the structure of the G-quadruplex core. The role of the adenine moieties over the G-tetrads in the stabilization of the complexes was discussed., General Significance: The results obtained suggested that the strong antiproliferative activity of isoxazolo naphthoquinones is not due to the Hsp90 inhibition, but mainly to the interaction at the level of telomeres and/or at the level of gene promoter. These findings can be used as a basis for the rational drug design of new anticancer agents., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published
2015
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50. Cyclic side-chain-linked opioid analogs utilizing cis- and trans-4-aminocyclohexyl-D-alanine.

Author

Piekielna J, Gentilucci L, De Marco R, Perlikowska R, Adamska A, Olczak J, Mazur M, Artali R, Modranka J, Janecki T, Tömböly C, and Janecka A

Subjects
Alanine chemical synthesis, Alanine chemistry, Cyclization, Cyclohexanes chemical synthesis, Humans, Opioid Peptides chemical synthesis, Opioid Peptides metabolism, Receptors, Opioid metabolism, Stereoisomerism, Alanine analogs & derivatives, Cyclohexanes chemistry, Opioid Peptides chemistry
Abstract

Cyclization of linear sequences is a well recognized tool in opioid peptide chemistry for generating analogs with improved bioactivities. Cyclization can be achieved through various bridging bonds between peptide ends or side-chains. In our earlier paper we have reported the synthesis and biological activity of a cyclic peptide, Tyr-c[D-Lys-Phe-Phe-Asp]NH2 (1), which can be viewed as an analog of endomorphin-2 (EM-2, Tyr-Pro-Phe-Phe-NH2). Cyclization was achieved through an amide bond between side-chains of D-Lys and Asp residues. Here, to increase rigidity of the cyclic structure, we replaced d-Lys with cis- or trans-4-aminocyclohexyl-D-alanine (D-ACAla). Two sets of analogs incorporating either Tyr or Dmt (2',6'-dimethyltyrosine) residues in position 1 were synthesized. In the binding studies the analog incorporating Dmt and trans-D-ACAla showed high affinity for both, μ- and δ-opioid receptors (MOR and DOR, respectively) and moderate affinity for the κ-opioid receptor (KOR), while analog with Dmt and cis-D-ACAla was exceptionally MOR-selective. Conformational analyses by NMR and molecular docking studies have been performed to investigate the molecular structural features responsible for the noteworthy MOR selectivity.

Published
2014
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