RT Journal Article
SR Electronic
T1 FMRFamide peptides in Helisoma: identification and physiological actions at a peripheral synapse
JF The Journal of Neuroscience
JO J. Neurosci.
FD Society for Neuroscience
SP 3459
OP 3469
DO 10.1523/JNEUROSCI.08-09-03459.1988
VO 8
IS 9
A1 AG Bulloch
A1 DA Price
A1 AD Murphy
A1 TD Lee
A1 HN Bowes
YR 1988
UL http://www.jneurosci.org/content/8/9/3459.abstract
AB Previous reports have demonstrated powerful neuromodulatory actions of the molluscan tetrapeptide FMRFamide in both the central and peripheral nervous systems of the freshwater snail Helisoma. The present study was designed to examine both the nature of the FMRFamide-like peptides in Helisoma and to define their physiological actions at a peripheral synapse. We report that, as determined by HPLC/RIA and mass spectrometry, Helisoma contains both FMRFamide and 2 of its analogs, FLRFamide and GDPFLRFamide. Whereas whole animals contain about 100 pmol/gm of these peptides, they were enriched in the nervous system (3000 pmol/gm) and in a peripheral target organ, the salivary glands (500 pmol/gm). For histochemical and physiological studies we examined the salivary glands, which are known to be innervated by neuron 4 of the buccal ganglion. We confirmed the presence of FMRFamide-like fibers on the salivary gland by immunohistochemistry using a polyclonal antiserum. These fibers appear to be largely derived from somata located in the central ring ganglia. For physiological tests we examined the neuron 4-gland synapse, at which presynaptic action potentials normally evoke a suprathreshold EPSP in gland cells. Bath application of FMRFamide, FLRFamide, or GDPFLRFamide at micromolar concentration to a buccal ganglia/salivary gland preparation completely suppressed spontaneous rhythmic activity. The sites of action of these peptides were examined by iontophoretic application of FMRFamide to neuron 4 or the salivary gland. Application of the peptide to the soma of neuron 4 caused a hyperpolarization that suppressed spontaneously generated action potentials. When applied to the salivary gland, FMRFamide caused a hyperpolarization that reduced the EPSPs evoked by neuron 4 to below spike threshold. The latter observation implies a postsynaptic locus of action for FMRFamide, and this possibility was tested by direct depolarization of the gland with iontophoresis of ACh (the putative transmitter of neuron 4). Such depolarizations were also reduced by FMRFamide. We conclude that Helisoma contains FMRFamide and 2 of its analogs, these peptides being enriched in the nervous system and salivary glands. Furthermore, these peptides can suppress activation of the salivary glands by actions both directly on gland cells and on the effector neuron.