neuropeptide-f and allatotropin

Here, we demonstrated an antagonistic effect of short neuropeptide F (sNPF) in modulating feeding motivation in the silkworm

Topics: Animals; Bombyx; Feeding Behavior; Gastrointestinal Tract; In Situ Hybridization; Insect Hormones; Larva; MAP Kinase Signaling System; Neuropeptides; Phosphorylation; Receptors, Neuropeptide; Signal Transduction; Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization

The genome of the spider mite was prospected for the presence of genes coding neuropeptides, neurohormones and their putative G-protein coupled receptors. Fifty one candidate genes were found to encode neuropeptides or neurohormones. These include all known insect neuropeptides and neurohormones, with the exception of sulfakinin, corazonin, neuroparsin and PTTH. True orthologs of adipokinetic hormone (AKH) were neither found, but there are three genes encoding peptides similar in structure to both AKH and the AKH-corazonin-related peptide. We were also unable to identify the precursors for pigment dispersing factor (PDF) or the recently discovered trissin. However, the spider mite probably does have such genes, as we found their putative receptors. A novel arthropod neuropeptide gene was identified that shows similarity to previously described molluscan neuropeptide genes and was called EFLamide. A total of 65 putative neuropeptide GPCR genes were also identified, of these 58 belong to the A-family and 7 to the B-family. Phylogenetic analysis showed that 50 of them are closely related to insect GPCRs, which allowed the identification of their putative ligand in 39 cases with varying degrees of certainty. Other spider mite GPCRs however have no identifiable orthologs in the genomes of the four holometabolous insect species best analyzed. Whereas some of the latter have orthologs in hemimetabolous insect species, crustaceans or ticks, for others such arthropod homologs are currently unknown.

Topics: Amino Acid Sequence; Animals; Arthropod Proteins; Insect Hormones; Insulins; Invertebrate Hormones; Molecular Sequence Data; Nerve Tissue Proteins; Neuropeptides; Neurotransmitter Agents; Oligopeptides; Receptors, G-Protein-Coupled; Tetranychidae

The present investigation studied the influence of a number of neuropeptides on semi-open preparations of the isolated and perfused anterior stomach of larval Aedes aegypti. Effects of peptides were observed on the lumen negative transepithelial voltage (Vte) that is present with serotonin in the bath; this voltage most likely reflects active HCO3- secretion involved in alkalization of the larval anterior stomach. The five different A. aegypti allatostatins (allatostatin A 1-5) all affected Vte in almost identical ways, causing a 10-15% reduction of the voltage at 10(-7) mol l(-1). A. aegypti neuropeptide F and proctolin reduced Vte at submicromolar concentrations. At 10(-6) mol l(-1), neuropeptide F reduced Vte by 30% and proctolin reduced Vte by 50%. In contrast, A. aegypti allatotropin, A. aegypti head peptides I and III and A. aegypti short neuropeptide F were without effect on Vte. During the investigation it was observed that the peristaltic contractions of the preparations caused a dynamic component of Vte. Peristaltic contractions and the correlated voltage fluctuations depended on the presence of serotonin. Peristaltic activity and Vte deflections were progressively inhibited by A. aegypti head peptides I and III by A. aegypti short neuropeptide F and by A. aegypti neuropeptide F when the peptide concentrations were increased from 10(-8) to 10(-6) mol l(-1). These observations show that physiological concentrations of some of the tested neuropeptides affect two processes that require coordination: ion transport and motility of the larval anterior stomach.

Topics: Aedes; Amino Acid Sequence; Analysis of Variance; Animals; Biological Transport, Active; Electrophysiology; Epithelium; Gastric Mucosa; Insect Hormones; Ion Transport; Larva; Membrane Potentials; Molecular Sequence Data; Neuropeptides; Oligopeptides; Peristalsis; Serotonin; Stomach