Contractions associated with the salivary glands of the blood-feeding bug, Rhodnius prolixus: evidence for both a neural and neurohormonal coordination

Abstract

The salivary glands of the blood-feeding bug, Rhodnius prolixus, are composed of a single epithelial layer of binucleate cells and a double layer of visceral muscle cells surrounding a large secretory cavity. The saliva contains substances which counteract the hemostasis of the host, and injection of saliva into the host is an essential component of successful and efficient gorging. The muscles surrounding the salivary glands of Rhodnius are under polyneuronal control from the salivary nerve projecting out of the hypocerebral ganglion. The amplitude of contractions induced by neural stimulation is dependent upon both intensity and frequency of nerve stimulation. Serotonin and FMRFamide-related peptides (FaRPs) are delivered in the nerve supply to the salivary glands, and both classes of neuroactive chemicals increase frequency and amplitude of phasic contractions in a dose-dependent manner. A member of the FaRP myosuppressin subfamily, however, inhibits contractions. CRF-related and Leucokinin-like peptides are not delivered in the nerve supply but may be present in the hemolymph during feeding. Leucokinin 1 and Zoone DH (a CRF-related peptide) both induce a dose-dependent increase in basal tonus, with phasic contractions superimposed. Zoone DH is more active than Leucokinin 1. Factors are present in the CNS of Rhodnius which mimic the effects of serotonin and the stimulatory peptides.