Regulating the activity of a cardioacceleratory peptide.

We measured the effect of crustacean cardioactive peptide on Drosophila heart rate in the animal and in a tissue preparation. Crustacean cardioactive peptide increased in vivo basal heart rate 1%, 6%, and 19% and increased in vitro basal heart rate 52%, 25%, and 35% in larvae, pupae, and adults, respectively. In the tissue preparation, the acceleratory period was followed by decreased in vitro heart rates of 42%, 16%, and 13% in larvae, pupae, and adults, respectively. The effects observed in the animal and tissue and in larvae, pupae, and adults suggest that Drosophila crustacean cardioactive peptide cardiac signaling is modulated and developmentally regulated.

Neural transmitters and a peptide modulate Drosophila heart rate.

Neural messengers affect Drosophila heart rate. Serotonin increases larval, pupal, and adult heart rate. Octopamine and dopamine are inactive in larva, decrease pupal rate, and increase adult heart rate. Acetylcholine and nicotine decrease larval and pupal heart rate, while acetylcholine decreases and nicotine increases adult heart rate. Muscarine decreases pupal heart rate, but is inactive in larva and adult. GABA is inactive in larva and adult, but decreases pupal heart rate. Glutamate is inactive in larva and pupa, but decreases adult heart rate. Proctolin decreases heart rate in all three stages. Caffeine acts only to decrease adult heart rate.