Your search keyword '"Conformational analysi"' showing total 10 results

1. A novel β-hairpin peptide derived from the ARC repressor selectively interacts with the major groove of B-DNA

Author

Jussara Amato, José L. Mascareñas, Azzurra Stefanucci, Soraya Learte-Aymamí, Diego Brancaccio, Ettore Novellino, Laura Mayol, Federica Santoro, Alfonso Carotenuto, Adriano Mollica, Bruno Pagano, Antonio Randazzo, Jéssica Rodríguez, Stefanucci, A., Amato, J., Brancaccio, D., Pagano, B., Randazzo, A., Santoro, F., Mayol, L., Learte-Aymami, S., Rodriguez, J., Mascarenas, J. L., Novellino, E., Carotenuto, A., and Mollica, A.

Subjects

Circular dichroism, β-hairpin peptides, Stereochemistry, Repressor, Peptide, Conformational analysi, Antiparallel (biochemistry), 01 natural sciences, Biochemistry, Insert (molecular biology), DNA sequencing, chemistry.chemical_compound, Drug Discovery, Structural motif, Molecular Biology, chemistry.chemical_classification, Molecular Structure, 010405 organic chemistry, Organic Chemistry, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, chemistry, ARC repressor, DNA major groove binder, Transcription factor, DNA, B-Form, Peptides, DNA, Transcription Factors

Abstract

Transcription factors (TFs) have a remarkable role in the homeostasis of the organisms and there is a growing interest in how they recognize and interact with specific DNA sequences. TFs recognize DNA using a variety of structural motifs. Among those, the ribbon-helix-helix (RHH) proteins, exemplified by the MetJ and ARC repressors, form dimers that insert antiparallel β-sheets into the major groove of DNA. A great chemical challenge consists of using the principles of DNA recognition by TFs to design minimized peptides that maintain the DNA affinity and specificity characteristics of the natural counterparts. In this context, a peptide mimic of an antiparallel β-sheet is very attractive since it can be obtained by a single peptide chain folding in a β-hairpin structure and can be as short as 14 amino acids or less. Herein, we designed eight linear and two cyclic dodeca-peptides endowed with β-hairpins. Their DNA binding properties have been investigated using fluorescence spectroscopy together with the conformational analysis through circular dichroism and solution NMR. We found that one of our peptides, peptide 6, is able to bind DNA, albeit without sequence selectivity. Notably, it shows a topological selectivity for the major groove of the DNA which is the interaction site of ARC and many other DNA-binding proteins. Moreover, we found that a type I' β-hairpin folding pattern is a favorite peptide structure for interaction with the B-DNA major groove. Peptide 6 is a valuable lead compound for the development of novel analogs with sequence selectivity.

Published

2021

2. Targeting EphA2-Sam and Its Interactome: Design and Evaluation of Helical Peptides Enriched in Charged Residues

Author

Daniela Marasco, Concetta Di Natale, Luciano Pirone, Susan Costantini, Flavia Anna Mercurio, Marilisa Leone, Emilia Pedone, Mercurio, Flavia A., Marasco, Daniela, Dinatale, Concetta, Pirone, Luciano, Costantini, Susan, Pedone, Emilia M., and Leone, Marilisa

Subjects

0301 basic medicine, Magnetic Resonance Spectroscopy, Peptide, EphA2, Molecular Dynamics Simulation, Conformational analysi, Endocytosis, Biochemistry, Interactome, Protein Structure, Secondary, 03 medical and health sciences, Molecular dynamics, 0302 clinical medicine, Downregulation and upregulation, Sam domain, Amino Acid Sequence, Surface plasmon resonance, Receptor, Molecular Biology, Solid-Phase Synthesis Techniques, Cancer, chemistry.chemical_classification, Chemistry, Microscale thermophoresis, Circular Dichroism, Receptor, EphA2, Organic Chemistry, Surface Plasmon Resonance, Recombinant Proteins, Sterile Alpha Motif, Kinetics, 030104 developmental biology, Drug Design, 030220 oncology & carcinogenesis, Biophysics, Molecular Medicine, Helical peptide, Peptides, Protein Binding

Abstract

The EphA2 receptor controls diverse physiological and pathological conditions and its levels are often upregulated in cancer. Targeting receptor overexpression, through modulation of endocytosis and consequent degradation, appears to be an appealing strategy for attacking tumor malignancy. In this scenario, the Sam domain of EphA2 plays a pivotal role because it is the site where protein regulators of endocytosis and stability are recruited by means of heterotypic Sam-Sam interactions. Because EphA2-Sam heterotypic complexes are largely based on electrostatic contacts, we have investigated the possibility of attacking these interactions with helical peptides enriched in charged residues. Several peptide sequences with high predicted helical propensities were designed, and detailed conformational analyses were conducted by diverse techniques including NMR, CD, and molecular dynamics (MD) simulations. Interaction studies were also performed by NMR, surface plasmon resonance (SPR), and microscale thermophoresis (MST) and led to the identification of two peptides capable of binding to the first Sam domain of Odin. These molecules represent early candidates for the generation of efficient Sam domain binders and antagonists of Sam-Sam interactions involving EphA2.

Published

2016

3. Structural features of the C8 antiviral peptide in a membrane-mimicking environment

Author

Anna Maria D'Ursi, Mario Scrima, Stefano Piotto, Manuela Grimaldi, Giuseppe Vitiello, Sara Di Marino, Federica Campana, Gerardino D'Errico, Scrima, Mario, DI MARINO, Sara, Grimaldi, Manuela, Campana, Federica, Vitiello, Giuseppe, Piotto, Stefano Piotto, D'Errico, Gerardino, and D'Ursi, Anna Maria

Subjects

Circular dichroism, Magnetic Resonance Spectroscopy, Stereochemistry, Protein Conformation, Phospholipid, Biophysics, Peptide, Molecular Dynamics Simulation, Conformational analysi, Micelle, Antiviral Agents, Biochemistry, Fluorescence, Hydrophobic effect, Molecular dynamics, chemistry.chemical_compound, Peptide Fragment, Viral Envelope Proteins, Animals, Humans, Antiviral Agent, chemistry.chemical_classification, Spin Label, Animal, Circular Dichroism, NMR, Conformational analysis, Cell Membrane, Viral fusion, Cat, Viral Envelope Protein, Cell Biology, Peptide Fragments, Membrane, chemistry, Cellular Microenvironment, Cats, Spin Labels, Glycoprotein, Human

Abstract

C8, a short peptide characterized by three regularly spaced Trp residues, belongs to the membrane-proximal external functional domains of the feline immunodeficiency virus coat protein gp36. It elicits antiviral activity as a result of blocking cell entry and exhibits membranotropic and fusogenic activities. Membrane-proximal external functional domains of virus coat proteins are potential targets in the development of new anti-HIV drugs that overcome the limitations of the current anti-retroviral therapy. In the present work, we studied the conformation of C8 and its interaction with micellar surfaces using circular dichroism, nuclear magnetic resonance and fluorescence spectroscopy. The experimental data were integrated by molecular dynamics simulations in a micelle–water system. Our data provide insight into the environmental conditions related to the presence of the fusogenic peptide C8 on zwitterionic or negatively charged membranes. The membrane charge modulates the conformational features of C8. A zwitterionic membrane surface induces C8 to assume canonical secondary structures, with hydrophobic interactions between the Trp residues and the phospholipid chains of the micelles. A negatively charged membrane surface favors disordered C8 conformations and unspecific superficial interactions, resulting in membrane destabilization.

Published

2014

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

Author

Rossella De Marco, Anna Janecka, Csaba Tömböly, Renata Perlikowska, Justyna Piekielna, Alicja Kluczyk, Roberto Artali, Luca Gentilucci, Maria Camilla Cerlesi, Girolamo Calo, Perlikowska, Renata, Piekielna, Justyna, Gentilucci, Luca, De Marco, Rossella, Cerlesi, Maria Camilla, Calo, Girolamo, Artali, Roberto, Tömböly, Csaba, Kluczyk, Alicja, and Janecka, Anna

Subjects

Male, 0301 basic medicine, Wistar, Receptors, Opioid, mu, Peptide, Phenylalanine, Conformational analysi, Antinociception, Mice, Receptors, Drug Discovery, Binding studies, Calcium mobilization assay, Conformational analysis, Endomorphins, Hot-plate test, Molecular docking, ROESY, Drug Discovery3003 Pharmaceutical Science, Organic Chemistry, Pharmacology, Hot plate test, Receptor, chemistry.chemical_classification, Analgesics, Cyclic, Chemistry, General Medicine, Analgesics, Opioid, Molecular Docking Simulation, Nociception, Systemic administration, Oligopeptide, Cricetulu, Oligopeptides, Endomorphin, Stereochemistry, Guinea Pigs, Socio-culturale, Pain, Opioid, CHO Cells, Peptides, Cyclic, Guinea Pig, Structure-Activity Relationship, 03 medical and health sciences, Residue (chemistry), Cricetulus, Binding studie, Animals, Amino Acid Sequence, Rats, Wistar, Opioid peptide, kappa, Animal, Receptors, Opioid, kappa, Rats, 030104 developmental biology, CHO Cell, mu, Peptides

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.

Published

2016

5. C-terminal truncation of Vascular Endothelial Growth Factor mimetic helical peptide preserves structural and receptor binding properties

Author

Roberto Fattorusso, Donatella Diana, Luca Domenico D'Andrea, Barbara Ziaco, Domenica Capasso, Rossella Di Stasi, Veronica Celentano, Rosanna Palumbo, Ziaco, B, Diana, D, Capasso, D, Palumbo, R, Celentano, V, Di Stasi, R, Fattorusso, Roberto, and D'Andrea, L. D.

Subjects

Vascular Endothelial Growth Factor A, Angiogenesis, Peptidomimetic, VEGF receptors, Biophysics, Neovascularization, Physiologic, Sequence (biology), Peptide, Conformational analysi, Biochemistry, Protein Structure, Secondary, chemistry.chemical_compound, Biomimetic Materials, Cell Line, Tumor, Humans, Therapeutic angiogenesis, Nuclear Magnetic Resonance, Biomolecular, Molecular Biology, chemistry.chemical_classification, Helix, Vascular Endothelial Growth Factor Receptor-1, Neovascularization, Pathologic, biology, Circular Dichroism, Cell Biology, VEGF, NMR, Conformational analysis, Vascular endothelial growth factor, chemistry, biology.protein, Peptides, Protein Binding

Abstract

Vascular Endothelial Growth Factor mimetic peptides have interesting applications in therapeutic angiogenesis. Recently, we described the proangiogenic properties of a 15 mer peptide designed on the N-terminal helix 17-25 of VEGF. The peptide was stabilized introducing well known peptide chemical tools among which N- and C-terminal capping sequence. Here, we show that the C-terminal sequence does not affect the structural and biological properties of the full-length peptide. In fact, a C-terminal truncated analog peptide resulted in a well folded and stable helix retaining the ability to bind to VEGF receptors. This study will allow to develop smaller peptidomimetic analogs able to modulate the VEGF-dependent angiogenesis. © 2012 Elsevier Inc.

Published

2012

6. The pseudo-βI-turn

Author

H. Matter, H.-J. Diehl, C. Isernia, Horst Kessler, Gerd Gemmecker, Siggi Mronga, Kessler, H, Matter, H, Gemmecker, G, Diehl, Hj, Isernia, Carla, and Mronga, S.

Subjects

chemistry.chemical_classification, Chemistry, Stereochemistry, Hydrogen bond, cis peptide bond, molecular dynamic, Biochemistry, Cyclic peptide, pseudo‐βI‐turn, Turn (biochemistry), Heteronuclear molecule, conformational analysi, Peptide bond, Molecule, proline, Chirality (chemistry), Isomerization

Abstract

Synthesis and conformational analysis of three cyclic hexapeptides cyclo(-Gly1-Pro2-Phe3-Val4-Xaa5-Phe6), Xaa = Phe (I), D-Phe (II) and D-Pro (III), were carried out to examine the influence of proline on the formation of reverse turns and the dynamics of hydrophobic peptide regions. Assignment of all 1H and 13C resonances was achieved by homo- and heteronuclear 2D-NMR techniques (TOCSY, ROESY, HMQC, HMQC-TOCSY and HMBCS-270). The conformational analysis is based on interproton distances derived from ROESY spectra and homo- and heteronuclear coupling constants (E.COSY, HETLOC and HMBCS-270). For structural refinements restrained molecular dynamics (MD) simulations in vacuo and in DMSO were performed. Each peptide exhibits two conformations in DMSO solution due to cis-trans isomerism about the Gly-Pro peptide bond. Surprisingly the cis-Gly-Pro segment in the minor isomers is not involved in a beta VI-turn, but forms a turn structure with cis-Gly-Pro in the i and i + 1 positions. Although no stabilizing hydrogen bond is found in this turn, the phi- and psi-angles closely correspond to a beta I-turn [Pro2: phi(i + 1) -60 degrees, psi(i + 1) -30 degrees; Phe3: phi(i + 2) -100 degrees, psi(i + 2) -50 degrees]. Hence we call this structural element a pseudo-beta I-turn. As expected, in the dominating all-trans isomers proline occupies the i + 1 position of a standard beta I-turn. Therefore, cis-trans isomerization of the Gly1-Pro2 amide bond only induces a local conformational rearrangement, with minor structural changes in other parts of the molecule. However, the geometry of the other regions is affected by the chirality of the i + 1 amino acid for both isomers (beta I for Phe5, beta II' for D-Phe5 or D-Pro5).

Published

2009

7. Physicochemical characterization of a peptide deriving from the glycoprotein gp36 of the feline immunodeficiency virus and its lipoylated analogue in micellar systems

Author

Anna Maria D'Ursi, Simone Giannecchini, Paolo Rovero, Mauro Bendinelli, Gerardino D'Errico, Cinzia Esposito, Maria Rosaria Armenante, C., Esposito, D'Errico, Gerardino, M. R., Armenante, S., Giannecchini, M., Bendinelli, P., Rovero, and A. M., D'Ursi

Subjects

Feline immunodeficiency virus, Protein Conformation, Lipoproteins, Phosphorylcholine, Biophysics, Peptide, Immunodeficiency Virus, Feline, Conformational analysi, Antiviral Agents, Biochemistry, Lipopeptide, Diffusion, chemistry.chemical_compound, Viral Envelope Proteins, Nuclear Magnetic Resonance, Biomolecular, Micelles, Glycoproteins, chemistry.chemical_classification, biology, Circular Dichroism, Electron Spin Resonance Spectroscopy, Sodium Dodecyl Sulfate, Cell Biology, biology.organism_classification, In vitro, FIV, Conformational analysis, Spectrometry, Fluorescence, Membrane, chemistry, Viral replication, Cell culture, Micelle interface, Glycoprotein

Abstract

P59 is the Trp-rich 20-mer peptide ( 767 L–G 786 ), partial sequence of the membrane-proximal external region (MPER) of the FIV gp36. It has potent antiviral activity, possibly due to a mechanism that inhibits the fusion of the virus with the cell membranes. In the hypothesis that a lipophilic tail could enhance the adhesion of P59 to the membrane so improving its antiviral activity, we synthesized its lipoylated analogue lipo-P59. Fluorescence, CD and NMR investigations in membrane mimicking environments (such as SDS and DPC micelles) were aimed to assess the potential of the lipo-P59 lipophilic tail to affect the biophysical and conformational behaviour of the peptide. In vitro inhibitory assays using lymphoid cell cultures to check the antiviral activity of peptides were also performed. The data show that the biophysical properties and the conformational preferences of the peptides are not dramatically affected by the hydrophobic tail, suggesting that the lipopeptide is capable of preserving all the biophysical peculiarities. Similarly, antiviral experimental data show that the membrane-anchored lipo-P59 peptide is also effective in inhibiting virus replication. Moreover, the lipophilic tail allows P59 to preserve its antiviral activity even in conditions in which the non lipoylated peptide is devoid of activity. In accordance with the unusual high Trp presence, the peptides confirm the preference to be positioned on the membrane interface. Furthermore, the data point out a peculiarity of interaction of the peptides with SDS as compared with DPC.

Published

2006

8. Assessment of the conformational features of vasoactive intestinal peptide in solution by limited proteolysis experiments

Author

Alessandra Dicitore, Anna Marabotti, Angelo Facchiano, Pasquale Ferranti, Maria Cartenì, Paola Stiuso, Marilena Lepretti, Stiuso, Paola, Marabotti, A., Facchiano, A., Lepretti, M., Dicitore, A., Ferranti, P., Carteni', M., Stiuso, P., Ferranti, Pasquale, and Carten, M.

Subjects

vasoactive intestinal peptide analogue, Protein Conformation, Proteolysis, Molecular Sequence Data, Vasoactive intestinal peptide, Thermolysin, Biophysics, Peptide, Diamines, Biochemistry, Biomaterials, Structure-Activity Relationship, chemistry.chemical_compound, medicine, Trypsin, Amino Acid Sequence, Derivatization, Protein secondary structure, vasoactive intestinal peptide, mass spectrometry, chemistry.chemical_classification, medicine.diagnostic_test, Organic Chemistry, General Medicine, Amino acid, Solutions, limited proteolysi, chemistry, conformational analysi, medicine.drug

Abstract

The structural features of vasoactive intestinal peptide (VIP) and of its Gln16-diaminopropane derivative (VIP-DAP) in solution were investigated by limited proteolysis experiments with trypsin and thermolysin. The proteolysis of the native peptide by both proteinases takes place near the residues in positions 12 and 21/22, suggesting that these amino acids are embedded in segments more flexible than the rest of the molecule. VIP-DAP appears to be more resistant to the proteolytic attack of trypsin, indicating that the derivatization in position 16 is able to stabilize the structure of the peptide. Moreover, the analysis of the mass spectra of the proteolytic mixtures supports the evidence that the derivatization is also able to protect Met17 against oxidation. From these data it can be concluded that VIP in solution under physiological conditions is characterized by the presence of segments with secondary structure, linked together by “hinge” regions that confer flexibility to the peptide, whereas VIP-DAP is embedded in a more rigid conformation, more suitable to receptor interaction. © 2005 Wiley Periodicals, Inc. Biopolymers 81: 110–119, 2006 This article was originally published online as an accepted preprint. The “Published Online” date corresponds to the preprint version. You can request a copy of the preprint by emailing the Biopolymers editorial office at biopolymers@wiley.com

Published

2006

9. Synthesis and conformational analysis of novel N(OCH3)-linked disaccharide analogues

Author

Jesús Jiménez Barbero, Igor Tvaroška, Víctor García–Aparicio, Francesco Peri, Francesco Nicotra, Peri, F, Jiménez Barbero, J, García Aparicio, V, Tvaroska, I, and Nicotra, F

Subjects

Carbohydrate, Glycosylation, Stereochemistry, Molecular Sequence Data, Ab initio, Disaccharide, Conformational analysi, Disaccharides, Catalysis, Coupling reaction, chemistry.chemical_compound, NMR spectroscopy, CHIM/06 - CHIMICA ORGANICA, Carbohydrate Conformation, Monosaccharide, Computer Simulation, Conformational isomerism, chemistry.chemical_classification, Chemistry, Organic Chemistry, Monosaccharides, General Chemistry, Nuclear magnetic resonance spectroscopy, Oligosaccharide, Oxime, Carbohydrate Sequence, Trisaccharides

Abstract

N(OMe)-linked disaccharide analogues, isosteric to the corresponding natural disaccharides, have been synthesized by chemoselective assembly of unprotected natural monosaccharides with methyl 6-deoxy-6-methoxyamino-alpha-D-glucopyranoside in an aqueous environment. The coupling reactions were found to be chemo- and stereoselective affording beta-(1-->6) disaccharide mimics when using Glc and GlcNAc; in the case of Gal, the beta-anomer was prevalent (beta:alpha=7:1). An iterative method for the synthesis of linear N(OMe) oligosaccharide analogues was demonstrated, based on the use of an unprotected monosaccharide building block in which an oxime functionality at C-6 is converted during the synthesis into the corresponding methoxyamino group. The conformational analysis of these compounds was carried out by using NMR spectroscopy, ab initio, molecular mechanics, and molecular dynamics methods. Optimized geometries and energies of fourteen conformers for each compound have been calculated at the B3LYP/6-31G* level. Predicted conformational equilibria were compared with the results based on NMR experiments and good agreement was found. It appears that N(OMe)-linked disaccharide analogues exhibit a slightly different conformational behavior to their parent natural disaccharides.

Published

2004

10. Chain Conformations in the Crystalline Field of Syndiotactic Vinyl Polymers Deriving from 1,3-Diene Monomers. Analysis by Molecular Mechanics

Author

Roberto Napolitano, B. Pirozzi, Simona Esposito, Pirozzi, Beniamino, Napolitano, Roberto, and S., Esposito

Subjects

chemistry.chemical_classification, Quantitative Biology::Biomolecules, Polymers and Plastics, Diene, Organic Chemistry, Torsion (mechanics), Polymer, Condensed Matter Physics, Molecular mechanics, line repetition group, Vinyl polymer, Condensed Matter::Soft Condensed Matter, Inorganic Chemistry, Maxima and minima, chemistry.chemical_compound, Crystallography, Monomer, chemistry, molecular mechanic, Tacticity, Polymer chemistry, Materials Chemistry, conformational analysi, potential functions

Abstract

Conformational energy calculations on the chain conformation in the crystalline field have been performed for various syndiotactic vinyl polymers deriving from 1,3-diene monomers. Energy maps as a function of the independent torsion angles have evidenced for all the polymers minima corresponding to highly extended and to helical chains. Energy minimizations as a function of all the internal parameters for the s(2/1)2 and tcm symmetries have allowed the evaluation of the energy differences between chains having the two symmetries and the prediction of the values of the conformational parameters for each polymer. The results have been compared with the experimental data reported in the literature for some of the studied polymers.

Published

2004