Functional Characterization of Structural Alterations in the Sequence of the Vasodilatory Peptide Maxadilan Yields a Pituitary Adenylate Cyclase-activating Peptide Type 1 Receptor-specific Antagonist

Osamu Moro,Kaori Wakita,Manami Ohnuma,Sumiko Denda,Ethan A Lerner,Masahiro Tajima

doi:10.1074/jbc.274.33.23103

Abstract

Maxadilan is a vasodilatory peptide derived from sand flies that is an agonist at the pituitary adenylate cyclase-activating peptide (PACAP) type 1 receptor. Surprisingly, maxadilan does not share significant sequence homology with PACAP. To examine the relationship between structure and activity of maxadilan, several amino acid substitutions and deletions were made in the peptide. These peptides were examined in vitro for binding to crude membranes derived from rabbit brain, a tissue that expresses PACAP type 1 receptors; and induction of cAMP was determined in PC12 cells, a line that expresses these receptors. The peptides were examined in vivo for their ability to induce erythema in rabbit skin. Substitution of the individual cysteines at positions 1 and 5 or deletion of this ring structure had little effect on activity. Substitution of either cysteine at position 14 or 51 eliminated activity. Deletion of the 19 amino acids between positions 24 and 42 resulted in a peptide with binding, but no functional activity. The capacity of this deletion mutant to interact with COS cells transfected with the PACAP type 1 receptor revealed that this peptide was a specific antagonist to the PACAP type 1 receptor.

Highlights

Pituitary adenylate cyclase-activating peptide (PACAP)1 was first isolated from ovine hypothalamus because of its potent activity in stimulating cAMP production in rat anterior pituitary cells [1]
It has been demonstrated recently that maxadilan binds to PACAP type 1 receptors. This result was surprising as maxadilan and PACAP do not share significant sequence homology [7]. In this structure-activity study, we examined the role of the two disulfide bonds in maxadilan by amino acid substitution of the individual cysteine residues
A series of deletion mutants was constructed. The activity of these substitution and deletion mutants was assessed by inhibition of 125I-maxadilan binding to rabbit brain, crude membranes derived from rabbit brain induction of cAMP formation in PC12 cells, and in vivo by the induction of erythema in rabbit skin

Summary

Introduction

Pituitary adenylate cyclase-activating peptide (PACAP) was first isolated from ovine hypothalamus because of its potent activity in stimulating cAMP production in rat anterior pituitary cells [1]. It has been demonstrated recently that maxadilan binds to PACAP type 1 receptors. This result was surprising as maxadilan and PACAP do not share significant sequence homology [7]. In this structure-activity study, we examined the role of the two disulfide bonds in maxadilan by amino acid substitution of the individual cysteine residues. The deletion mutant max.d.4 was further characterized in COS cells transiently transfected with the PACAP receptor cDNAs and found to be a potent PACAP type 1-specific antagonist. The far-ultraviolet CD spectra of maxadilan and max.d.4 in the absence and presence of TFE suggested that these peptides fold into stable structures even in the water environment

Methods

Results

Conclusion