TY - JOUR
T1 - Structure-activity relationships of novel cyclic α-MSH/β-MSH hybrid analogues that lead to potent and selective ligands for the human MC3R and human MC5R
AU - Balse-Srinivasan, Preeti
AU - Grieco, Paolo
AU - Cai, Minying
AU - Trivedi, Dev
AU - Hruby, Victor J.
PY - 2003/8/14
Y1 - 2003/8/14
N2 - It has been shown by extensive studies that α-MSH bioactivity is critically dependent on the core or central tetrapeptide sequence, His-Phe-Arg-Trp, however with poor selectivity for the human MC3R-MC5R. The structure-activity relationships study here is aimed at identifying lead structures or templates of this core sequence by the use of different conformational constraints that might impart changes in its topography and thus promote differences in potency and selectivity at these receptors. Our peptide library consists of a novel series of cyclic α-MSH analogues that have disulfide bridges between Cys of Cys-like residues at positions 4 and 10, giving rise to 23-membered rings fused at the C-terminal end with the C-terminal fragment of β-MSH (Pro-Pro-Lys-Asp). While such constraints of the peptide backbone with disulfide bridges of different chirality affect potency and selectivity at, these receptors, further changes in the hydrophobicity at position 7 with either a D-Phe or D-Nal(2′) and replacement of a His with a Pro in position 6 cause additional effects. Thus, the most interesting lead compounds that emerged from this study are (1) compound 5, Ac-c[Cys-Glu-His-D-Phe-Arg-Trp-D-Cys]-Pro-Pro-Lys-Asp-NH 2 (IC50 = 10 nM), which is the first potent and highly selective antagonist ligand for the hMC5R (560-fold vs the MC3R and 1000-fold,vs the MC4R); (2) compound 7, Ac-c[Cys-Glu-Pro-D-Nal(2′)-Arg-Trp-Cys]-Pro-Pro-Lys-Asp-NH2 (IC50 = 31 nM), which is a highly selective antagonist analogue for the MC3R (560-fold vs the hMC4R and about 3000-fold vs the hMC5R; and (3) compound 9, Ac-c[Pen-Glu-His-D-Nal(2′)-Arg-Trp-Cys]-Pro-Pro-Lys-Asp-NH2 (IC50 = 3 nM), which is more potent than 7 at the MC3R but not as selective.
AB - It has been shown by extensive studies that α-MSH bioactivity is critically dependent on the core or central tetrapeptide sequence, His-Phe-Arg-Trp, however with poor selectivity for the human MC3R-MC5R. The structure-activity relationships study here is aimed at identifying lead structures or templates of this core sequence by the use of different conformational constraints that might impart changes in its topography and thus promote differences in potency and selectivity at these receptors. Our peptide library consists of a novel series of cyclic α-MSH analogues that have disulfide bridges between Cys of Cys-like residues at positions 4 and 10, giving rise to 23-membered rings fused at the C-terminal end with the C-terminal fragment of β-MSH (Pro-Pro-Lys-Asp). While such constraints of the peptide backbone with disulfide bridges of different chirality affect potency and selectivity at, these receptors, further changes in the hydrophobicity at position 7 with either a D-Phe or D-Nal(2′) and replacement of a His with a Pro in position 6 cause additional effects. Thus, the most interesting lead compounds that emerged from this study are (1) compound 5, Ac-c[Cys-Glu-His-D-Phe-Arg-Trp-D-Cys]-Pro-Pro-Lys-Asp-NH 2 (IC50 = 10 nM), which is the first potent and highly selective antagonist ligand for the hMC5R (560-fold vs the MC3R and 1000-fold,vs the MC4R); (2) compound 7, Ac-c[Cys-Glu-Pro-D-Nal(2′)-Arg-Trp-Cys]-Pro-Pro-Lys-Asp-NH2 (IC50 = 31 nM), which is a highly selective antagonist analogue for the MC3R (560-fold vs the hMC4R and about 3000-fold vs the hMC5R; and (3) compound 9, Ac-c[Pen-Glu-His-D-Nal(2′)-Arg-Trp-Cys]-Pro-Pro-Lys-Asp-NH2 (IC50 = 3 nM), which is more potent than 7 at the MC3R but not as selective.
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U2 - 10.1021/jm030111j
DO - 10.1021/jm030111j
M3 - Article
C2 - 12904077
AN - SCOPUS:0043068115
SN - 0022-2623
VL - 46
SP - 3728
EP - 3733
JO - Journal of Medicinal Chemistry
JF - Journal of Medicinal Chemistry
IS - 17
ER -