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Enteroendocrine peptides regulate feeding behavior via controlling intestinal contraction of the silkworm Bombyx mori
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Enteroendocrine peptides regulate feeding behavior via controlling intestinal contraction of the silkworm Bombyx mori
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Journal Article
Enteroendocrine peptides regulate feeding behavior via controlling intestinal contraction of the silkworm Bombyx mori
2019
Overview
Our previous study demonstrated that predominant feeding inhibitory effects were found in the crude extracts of foregut and midgut of the silkworm Bombyx mori larvae. To address the entero-intestinal control crucial for the regulation of insect feeding behavior, the present study identified and functionally characterized feeding inhibitory peptides from the midgut of B. mori larvae. Purification and structural analyses revealed that the predominant inhibitory factors in the crude extracts were allatotropin (AT) and GSRYamide after its C-terminal sequence. In situ hybridization revealed that AT and GSRYamide were expressed in enteroendocrine cells in the posterior and anterior midgut, respectively. Receptor screening using Ca2+-imaging technique showed that the B. mori neuropeptide G protein-coupled receptor (BNGR)-A19 and -A22 acted as GSRYamide receptors and BNGR-A5 acted as an additional AT receptor. Expression analyses of these receptors and the results of the peristaltic motion assay indicated that these peptides participated in the regulation of intestinal contraction. Exposure of pharynx and ileum to AT and GSRYamide inhibited spontaneous contraction in ad libitum-fed larvae, while exposure of pharynx to GSRYamide did not inhibit contraction in non-fed larvae, indicating that the feeding state changed their sensitivity to inhibitory peptides. These different responses corresponded to different expression levels of their receptors in the pharynx. In addition, injection of AT and GSRYamide decreased esophageal contraction frequencies in the melamine-treated transparent larvae. These findings strongly suggest that these peptides exert feeding inhibitory effects by modulating intestinal contraction in response to their feeding state transition, eventually causing feeding termination.
Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject
/ Analysis
/ Animals
/ Control
/ Enteroendocrine Cells - physiology
/ Exposure
/ Feeding
/ Feeding Behavior - physiology
/ Foregut
/ Ileum
/ Insect Hormones - physiology
/ Insect Proteins - physiology
/ Insects
/ Ions
/ Larvae
/ Medicine and Health Sciences
/ Melamine
/ Midgut
/ Muscle Contraction - physiology
/ Peptides
/ Pharynx
/ Receptors, G-Protein-Coupled - genetics
/ Receptors, G-Protein-Coupled - physiology
/ Research and Analysis Methods
/ Zoology
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