Stefania Meini scite author profile

We have designed and synthesized a conformationally homogeneous series of cyclic pentapeptides of the general structure c[Pro-aa(i)-D-Tic-Oic-aa(i + 3)] which adopt a type-II' beta-turn conformation believed important for high affinity antagonism of the bradykinin (BK) B2 receptor. We incorporated D-Tic and octahydroindole-2-carboxylic acid (Oic) residues (present in known active antagonists) in a cyclic pentapeptide that would place the D-aa in the i + 1 position of the beta-turn and a proline as a bridge between the C- and N-termini sides of the turn. In positions i and i + 3 alkyl, aromatic, polar or charged amino acids could be introduced without dramatically changing the overall structure. Ten analogues were studied using 1H nuclear magnetic resonance (NMR) and evaluated for their binding affinity for the human B2 receptor. The NMR data in dimethylsulfoxide (DMSO) confirmed the structural homogeneity within the class and, on the basis of this, one representative member of the series was chosen for a detailed structure determination using NMR data in sodium dodecylsulphate (SDS) micelles and molecular dynamics calculations. Despite the structural similarity, the binding affinity of the ten analogues was strongly influenced by the nature of the side-chains in positions i and i + 3, with the doubly charged analogue 49 (pKi = 6.2) proving best. This compound may serve as the starting point for the discovery of new non-peptide bradykinin B2 receptor antagonists.

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A way to manage the thermal flexibility of ligand candidates for bioassays

Altamura

Balacco

Cuda

et al. 2006

Tetrahedron

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Structure–Activity Study of the Peptides P5U and Urantide by the Development of Analogues Containing Uncoded Amino Acids at Position 9

et al. 2016

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Previous modifications of the peptide sequence of human urotensin-II (U-II) led to the identification of two well-known ligands: P5U and urantide. These derivatives are considered to be the most representative agonist and antagonist, respectively, at the human urotensin receptor (UT). Optimization of P5U and urantide was carried out to stabilize specific conformations that may suggest new elements for discriminating agonist versus antagonist activity. We studied novel derivatives containing uncoded amino acids. In particular, the Tyr(9) residue of both P5U and urantide was replaced with nonaromatic hydrophobic bulky residues, as well as conformationally constrained aromatic moieties to generate eight novel derivatives. These analogues further contributed to determining the influence of such residues on binding affinity for and biological activity at UT. One of these eight peptides was also investigated by NMR spectroscopy and docking studies owing to its peculiar conformational properties and mode of interaction with UT. This structure-activity study is aimed at a more thorough examination of the role of tyrosine in modulating the agonism/antagonism of human U-II.

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Stefania Meini

Synthesis and biological activity of new bradykinin pseudopeptide B1 receptor agonists containing alkylic spacers

New conformationally homogeneous β‐turn antagonists of the human B₂ kinin receptor

A way to manage the thermal flexibility of ligand candidates for bioassays

Structure–Activity Study of the Peptides P5U and Urantide by the Development of Analogues Containing Uncoded Amino Acids at Position 9

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Stefania Meini

Synthesis and biological activity of new bradykinin pseudopeptide B1 receptor agonists containing alkylic spacers

New conformationally homogeneous β‐turn antagonists of the human B2 kinin receptor

A way to manage the thermal flexibility of ligand candidates for bioassays

Structure–Activity Study of the Peptides P5U and Urantide by the Development of Analogues Containing Uncoded Amino Acids at Position 9

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New conformationally homogeneous β‐turn antagonists of the human B₂ kinin receptor