Lorenzo Gesiot scite author profile

The N-terminal region of the parathyroid hormone (PTH) is sufficient to activate the G-protein-coupled PTH receptor 1 (PTHR1). The shortest PTH analogue displaying nanomolar potency is the undecapeptide H-Aib-Val-Aib-Glu-Ile-Gln-Leu-Nle-His-Gln-Har-NH(2) that contains two helix-stabilizing residues (Aib(1,3)). To increase the helical character and proteolytic stability of this linear peptide, we replaced Gln(6,10) with (a) Lys(6) and Glu(10) to introduce a lactam bridge and (b) Ser(6,10) to form a diester bridge upon cross-linking with adipic acid. These cyclopeptides were, respectively, 468-fold less and 12-fold more potent agonists than the linear analogue. Despite their different potencies, all three analogues adopted similar α-helix structures, as shown by NMR and molecular dynamics studies. However, the diester bridge could better mimic the orientation and chemical properties of the side chains of Gln(6) and Gln(10) in the linear PTH analogue than the lactam moiety. This is apparently important for efficient receptor activation and provides further insights into the receptor-bound ligand conformation.

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Design, conformational studies and analysis of structure–function relationships of PTH (1–11) analogues: the essential role of Val in position 2

Caporale

Gesiot

Sturlese

et al. 2011

Amino Acids

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The N-terminal 1-34 segment of parathyroid hormone (PTH) is fully active in vitro and in vivo and it elicits all the biological responses characteristic of the native intact PTH. Recent studies reported potent helical analogues of the PTH (1-11) with helicity-enhancing substitutions. This work describes the synthesis, biological activity, and conformational studies of analogues obtained from the most active non-natural PTH (1-11) peptide H-Aib-Val-Aib-Glu-Ile-Gln-Leu-Nle-His-Gln-Har-NH2; specifically, the replacement of Val in position 2 with D-Val, L-(αMe)-Val and N-isopropyl-Gly was studied. The synthesized analogues were characterized functionally by in-cell assays and their structures were determined by CD and NMR spectroscopy. To clarify the relationship between the structure and activity, the structural data were used to generate a pharmacophoric model, obtained overlapping all the analogues. This model underlines the fundamental functional role of the side chain of Val2 and, at the same time, reveals that the introduction of conformationally constrained Cα-tetrasubstituted α-amino acids in the peptides increases their helical content, but does not necessarily ensure significant biological activity.

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Solution structure of a monomeric truncated mutant of Trypanosoma brucei 1-C-Grx1

Pavan¹,

Gesiot²,

Sturlese³

et al. 2013

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Lorenzo Gesiot

Structure of the Cytosolic Portion of the Motor Protein Prestin and Functional Role of the STAS Domain in SLC26/SulP Anion Transporters

Side Chain Cyclization Based on Serine Residues: Synthesis, Structure, and Activity of a Novel Cyclic Analogue of the Parathyroid Hormone Fragment 1−11

Design, conformational studies and analysis of structure–function relationships of PTH (1–11) analogues: the essential role of Val in position 2

Solution structure of a monomeric truncated mutant of Trypanosoma brucei 1-C-Grx1

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