Culekinin depolarizing peptide: a mosquito leucokinin-like peptide that influences insect Malpighian tubule ion transport

Abstract

A peptide termed culekinin depolarizing peptide (CDP) was isolated from approximately 1.2 million mosquitos (94% Culex salinarius). The peptide was isolated on the basis of a rapid myotropic assay that utilized a hindgut preparation from Leucophaea maderae and a transepithelial voltage assay that used mosquito Malpighian tubules from Aedes aegypti. A 15% trifluoroacetic acid extraction from the mosquitos, two solid phase extraction steps, and six HPLC steps resulted in the isolation of 9.7 nmol of CDP. This value corresponds to approximately 8 fmol/mosquito. Edman degradation indicated the following sequence for CDP: Asn-Pro-Phe-His-Ser-Trp-Gly-NH 2. The sequence was confirmed as the suspected C-terminal amide form of the peptide, since native and synthetic CDP had identical chemical and biological properties. CDP is a member of the leucokinin family of neuropeptides. The leucokinins have been found in three other insect species ( Leucophaea maderae, Acheta domesticus and Locusta migratoria) where these peptides were isolated by their myotropic properties alone. CDP shares a C-terminal sequence homology (i.e., Phe-X-Ser-Trp-Gly-NH 2) with the rest of the leucokinins. CDP corresponds to the strongest tubule depolarizing activity in the C. salinarius extract. These findings agree with previous structure-activity studies that suggest that mosquitos would contain a leucokinin-like factor that had Phe-His-Ser-Trp-Gly-NH 2 as the C-terminal pentapeptide. This is the first leucokinin isolated from blood feeding or holometabolous insects.