Leads for insect neuropeptide mimetic development

Abstract

Insect neuropeptides mediate a number of physiological processes critical for insect survival. The numerous neuropeptide sequences that have been reported present an opportunity to decipher the chemical and conformational requirements for neuropeptide‐receptor interactions. Chemical and conformational requirements for activity represent a “template” from which agonist/antagonist peptide mimetics, with the potential to disrupt critical insect processes, can be developed. Information on structural requirements is presented for three neuropeptide families: the sulfakinins, pyrokinins, and leucokinin/achetakinins, including active core size, important side chains, peptide superagonists, and new data on pseudopeptide modification of the N‐ and C‐terminal regions. Members of these peptide families have been associated with a variety of physiological activities such as myotropism, pheromonotropism, diapause induction, and diuresis in a number of insects. Spectroscopic data coupled with computer molecular dynamics/graphics studies on conformationally restricted analogs of insect neuropeptides reveal information on the active conformation adopted at the receptor site. Routes to development of peptide‐mimetics from neuropeptide templates are discussed.