Journal article
Synthetic short-chain peptide analogues of H1 relaxin lack affinity for the RXFP1 receptor and relaxin-like bioactivity. Clues to a better understanding of relaxin agonist design
A D'Ercole, S Nistri, L Pacini, A Carotenuto, F Santoro, AM Papini, RAD Bathgate, D Bani, P Rovero
Frontiers in Pharmacology | Published : 2022
Abstract
The peptide hormone relaxin (RLX), also available as clinical-grade recombinant protein (serelaxin), holds great promise as a cardiovascular and anti-fibrotic agent but is limited by the pharmacokinetic issues common to all peptide drugs. In this study, by a computational modelling chemistry approach, we have synthesized and tested a set of low molecular weight peptides based on the putative receptor-binding domain of the B chain of human H1 RLX isoform, with the objective to obtain RLX analogues with improved pharmacokinetic features. Some of them were stabilized to induce the appropriate 3-D conformation by intra-chain tri-azolic staples, which should theoretically enhance their resistance..
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Awarded by National Health and Medical Research Council
Funding Acknowledgements
We gratefully acknowledge the Relaxin RRCA Foundation (Florence, Italy), particularly Antonio L. Scarpa, for generously providing financial support to this study and for kindly donating the serelaxin needed for the experiments. The authors thank Tania Ferraro and Sharon Layfield for performing the binding assays at the Florey. Research at the Florey was supported by National Health and Medical Research Council of Australia project grants (1100676) and (2001027) (RADB) and the Victorian Government Operational Infrastructure Support Program. RADB is supported by an NHMRC Research Fellowship (1135837).