Conformationally restricted PACAP27 analogues incorporating type II/II' IBTM beta-turn mimetics. Synthesis, NMR structure determination, and binding affinity.

To probe the importance of a proposed beta-turn within residues S9-R12 of PACAP for recognition by VIP/PACAP receptors, compounds 1 and 2, two conformationally restricted analogues of PACAP27 incorporating respectively (S)- or (R)-IBTM as type II or II' beta-turn dipeptide mimetic at the Y10-S11 position, were synthesized. According to 1H NMR conformational analyses in aqueous solution and 30% TFE, both PACAP27 and the [S-IBTM(10,11)]PACAP27 analogue 1 adopt similar ordered structures. PACAP27 shows an N-terminal disordered region (residues H1-F6) and an alpha-helical conformation within segment T7-L27. For residues S9-R12, our data seem more compatible with a segment of the alpha-helix than with the beta-turn previously proposed for this fragment. In compound 1 the alpha-helix, also spanning T7-L27 residues, appears slightly distorted at the N-terminus relative to the native peptide. Although this distortion could lead to the marked decrease in binding affinity of this compound at the VIP/PACAP receptors, the lack of the Y10 side chain in analogues 1 and 2 could also significantly affect the binding of these compounds.

Highly constrained dipeptoid analogues containing a type II' beta-turn mimic as novel and selective CCK-A receptor ligands.

Conformationally constrained dipeptoid analogues containing the type II' beta-turn mimic (2S,5s,11bR)-2-amino-3-oxohexahydroindolizino[8,7-b]indole-5 -carboxylate framework in place of the alpha-MeTrp residue, show high binding affinity and selectivity for CCK-A receptors, suggesting that a turn-like conformation could contribute to the bioactive conformation at this CCK receptor subtype.

2,5-Diketopiperidine derivatives as non-peptide ligands for cholecystokinin receptors.

Easily accessible 2,5-diketopiperidines have been used as templates for the construction of Trp-Phe and Trp-Asp-Phe-NH2 mimics. The cycle [L-Trp psi[COCH2]-L-Phe] analogue 1a has shown to possess significant and selective affinity for CCKA receptors.

Ketomethylene and methyleneamino pseudopeptide analogues of insect allatostatins inhibit juvenile hormone and vitellogenin production in the cockroach Blattella germanica.

Metabolic studies on insect allatostatins have suggested that the dipeptide Leu-Tyr may be a target for endopeptidases. In order to increase resistance to degradation, methyleneamino psi [CH2NH] and ketomethylene psi [COCH2] peptide bond surrogates have been introduced at the position Leu3-Tyr4 of the allatostatin Asp-Arg-Leu-Tyr-Ser-Phe-Gly-Leu-amide (BLAST-2), and Leu3-Phe4 of [Phe4]BLAST-2, respectively. Assays of inhibition of juvenile hormone (JH) synthesis in vitro by corpora allata from the cockroach Blattella germanica showed that both analogues were similarly active to the respective model peptides. The methyleneamino analogue was further tested in vivo as an inhibitor of JH synthesis, and in vivo and in vitro as an inhibitor of vitellogenin production by the fat body of B. germanica. The analogue was less active than BLAST-2 when tested in vitro, but more active than it when tested in vivo.

Synthesis and inhibitory activities against aminopeptidase B and enkephalin-degrading enzymes of ketomethylene dipeptide analogues of arphamenines.

Three ketomethylene pseudodideptide analogues [(S)Lys psi(COCH2)(R and S)Phe (14 or 15 and 15 or 14) and (S)Lys psi(COCH2)(xi Trp (19)] of natural arphamenine A [(S)Arg psi(COCH2(R,S)Phe (1)] were easily prepared by a route involving two successive main reactions: a malonic ester alkylation with Z-protected lysine iodomethyl ketone and the introduction of a benzyl or (indol-3-yl)methyl moiety in position 2 of the resulting 4-ketodiester. The isomer of 1 with reversed sequence, (S)Phe psi(COCH2)(R,S)Arg (22) was synthesized by guanidylation and subsequent deprotection of Z-(S)Phe psi(COCH2)(R,S)Orn. The inhibitory effects of compounds 14, 15, 19, and 22, and the related ketomethylene dipeptides (S)Ala psi(COCH2)(R,S)Phe (3), (S)Phe psi(COCH2)(R,S)X [X = Ala (4), Orn (5)] and (S)Trp psi(COCH2)(R,S)Y [Y = Orn (6), Lys (7), Arg (8)] on aminopeptidase B (AP-B), and enkephalin-degrading enzymes [aminopeptidase N (APN) and neutral endopeptidase (NEP)] were compared with that of the model compound 1.