Structure-Activity Relationship and Metabolic Stability Studies of Backbone Cyclization and N-Methylation of Melanocortin Peptides

2008 
Backbone cyclization (BC) and N-methylation have been shown to enhance the activity and/or selectivity of biologically active peptides and improve metabolic stability and intestinal permeability. In this study, we describe the synthesis, structure-activity relationship (SAR) and intestinal metabolic stability of a backbone cyclic peptide library, BL3020, based on the linear α-Melanocyte stimulating hormone analog Phe-D-Phe-Arg-Trp-Gly. The drug lead, BL3020−1, selected from the BL3020 library (compound 1) has been shown to inhibit weight gain in mice following oral administration. Another member of the BL3020 library, BL3020−17, showed improved biological activity towards the mMC4R, in comparison to BL3020−1, although neither were selective for MC4R or MC5R. N-methylation, which restrains conformational freedom while increasing metabolic stability beyond that which is imparted by BC, was used to find analogs with increased selectivity. N-methylated backbone cyclic libraries were synthesized based on the BL3020 library. SAR studies showed that all the N-methylated backbone cyclic peptides demonstrated reduced biological activity and selectivity for all the analyzed receptors. N-methylation of active backbone cyclic peptides destabilized the active conformation or stabilized an inactive conformation, rendering the peptides biologically inactive. N-methylation of backbone cyclic peptides maintained stability to degradation by intestinal enzymes.
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