Ultrastructural aspects of peptidergic modulation in the peripheral nervous system of Helix pomatia.

Abstract

The ultrastructural characteristics of peptidergic peripheral contacts in the snail, Helix pomatia, were investigated, with special attention to the innervation of the heart, buccal mass, and salivary gland by Mytilus inhibitory peptide-immunoreactive neurons. Following the application of correlative light- and electron-microscopic pre-embedding immunocytochemistry, the peripheral tissues reveal a rich innervation by Mytilus inhibitory peptide-immunoreactive elements. These neurons establish three types of neuromuscular contacts in the heart and buccal mass: (1) close (16-20 nm) unspecialized membrane contacts; (2) contacts with a relative wide (40-100 nm) intersynaptic cleft; and (3) labeled varicosties located freely in the extracellular space, far (0. 5-several microm) from the muscle cells. In the salivary gland, the immunoractive profiles contact both the muscular and glandular elements with close (type 1) and wider (type 2) membrane attachments. The great majority of Mytilus inhibitory peptide-immunoreactive profiles contain an ultrastructurally uniform population of large (120-150 nm) electron dense granules. The ultrastructural features of the innervation by Mytilus inhibitory peptide-immunoreactive elements are compared with those established by immunogold labelled FMRFamide-containing profiles in the heart and salivary gland. These latter display similarities in forming the different kinds of intercellular contacts, and differences in the morphological variability of the content of granules in the immunolabeled profiles. The results suggest diverse, non-synaptic modulatory roles of neuropeptides in the peripheral nervous system of Helix pomatia, including localized membrane effects and neurohormonal-like remote global controls, that may also be of significance in orchestrating the effects of neuropeptides released at the same time on different targets.