TY - JOUR
T1 - CLIPSing Melanotan-II to Discover Multiple Functionally Selective hMCR Agonists
AU - Tomassi, Stefano
AU - Dimmito, Marilisa Pia
AU - Cai, Minying
AU - D’Aniello, Antonia
AU - Del Bene, Alessandra
AU - Messere, Anna
AU - Liu, Zekun
AU - Zhu, Tingyi
AU - Hruby, Victor J.
AU - Stefanucci, Azzurra
AU - Cosconati, Sandro
AU - Mollica, Adriano
AU - Di Maro, Salvatore
N1 - Publisher Copyright:
© 2022 American Chemical Society.
PY - 2022/3/10
Y1 - 2022/3/10
N2 - The pleiotropic role played by melanocortin receptors (MCRs) in both physiological and pathological processes has stimulated medicinal chemists to develop synthetic agonists/antagonists with improved potency and selectivity. Here, by deploying the Chemical Linkage of Peptide onto Scaffolds strategy, we replaced the lactam cyclization of melanotan II (MT-II), a potent and unselective agonist of human MCRs (hMCRs), with different xylene-derived thioethers. The newly designed peptides displayed binding affinities toward MCRs ranging from the low nanomolar to the sub-micromolar range, highlighting a correlation between the explored linkers and the affinity toward hMCRs. In contrast to the parent peptide (MT-II), compound 5 displayed a remarkable functional selectivity toward the hMC1R. Enhanced sampling molecular dynamics simulations were found to be instrumental in outlining how the employed cyclization strategy affects the peptides’ conformational behavior and, as a consequence, the detected hMC1R affinity. Additionally, a model of the peptide 5/hMC1R complex employing the very recently reported cryogenic electron microscopy receptor structure was provided.
AB - The pleiotropic role played by melanocortin receptors (MCRs) in both physiological and pathological processes has stimulated medicinal chemists to develop synthetic agonists/antagonists with improved potency and selectivity. Here, by deploying the Chemical Linkage of Peptide onto Scaffolds strategy, we replaced the lactam cyclization of melanotan II (MT-II), a potent and unselective agonist of human MCRs (hMCRs), with different xylene-derived thioethers. The newly designed peptides displayed binding affinities toward MCRs ranging from the low nanomolar to the sub-micromolar range, highlighting a correlation between the explored linkers and the affinity toward hMCRs. In contrast to the parent peptide (MT-II), compound 5 displayed a remarkable functional selectivity toward the hMC1R. Enhanced sampling molecular dynamics simulations were found to be instrumental in outlining how the employed cyclization strategy affects the peptides’ conformational behavior and, as a consequence, the detected hMC1R affinity. Additionally, a model of the peptide 5/hMC1R complex employing the very recently reported cryogenic electron microscopy receptor structure was provided.
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U2 - 10.1021/acs.jmedchem.1c01848
DO - 10.1021/acs.jmedchem.1c01848
M3 - Article
C2 - 35188390
AN - SCOPUS:85125815781
SN - 0022-2623
VL - 65
SP - 4007
EP - 4017
JO - Journal of Medicinal Chemistry
JF - Journal of Medicinal Chemistry
IS - 5
ER -