Novel selective neuropeptide Y2 receptor PEGylated peptide agonists reduce food intake and body weight in mice.

Selective activation of the NPY2 receptor to suppress appetite provides an approach to obesity management. Selective NPY2 PEGylated peptide agonists are described that consist of a peptide core corresponding to residues 25-36 of PYY and a nonpeptidic moiety at the peptide N-terminus that contributes to in vitro potency and in vivo efficacy and provides a PEGylation site. The lead peptide elicits a dose-dependent reduction of food intake in lean mice and of food intake, body weight, and fat mass in DIO mice.

Engineering of a VPAC2 receptor peptide agonist to impart dipeptidyl peptidase IV stability and enhance in vivo glucose disposal.

VPAC2P-PEG is a VPAC2 receptor agonist peptide that acts as a glucose-dependent insulin secretagogue. Proteolysis by DPPIV may contribute to the in vivo clearance of VPAC2P-PEG. Here, the N-terminus of VPAC2P-PEG is modified by N-terminal acetylation to impart DPPIV resistance.

Contribution of site-specific PEGylation to the dipeptidyl peptidase IV stability of glucose-dependent insulinotropic polypeptide.

The effects of PEGylation of glucose-dependent insulinotropic polypeptide (GIP) on potency and dipeptidyl peptidase IV (DPPIV) stability are reported. N-terminal modification of GIP(1-30) with 40 kDa polyethylene glycol (PEG) abrogates functional activity. In contrast, C-terminal PEGylation of GIP(1-30) maintains full agonism and reasonable potency at the GIP receptor and confers a high level of DPPIV resistance.