PT - JOURNAL ARTICLE AU - PE Lloyd AU - M Frankfurt AU - P Stevens AU - I Kupfermann AU - KR Weiss TI - Biochemical and immunocytological localization of the neuropeptides FMRFamide, SCPA, SCPB, to neurons involved in the regulation of feeding in Aplysia AID - 10.1523/JNEUROSCI.07-04-01123.1987 DP - 1987 Apr 01 TA - The Journal of Neuroscience PG - 1123--1132 VI - 7 IP - 4 4099 - http://www.jneurosci.org/content/7/4/1123.short 4100 - http://www.jneurosci.org/content/7/4/1123.full SO - J. Neurosci.1987 Apr 01; 7 AB - The localization of the neuropeptide FMRFamide in the buccal ganglia and buccal muscles of Aplysia was studied by immunocytology and high- pressure liquid chromatography (HPLC) combined with either a sensitive bioassay or 35S-methionine labeling. Immunocytology with an antiserum directed to FMRFamide stained a large number of fibers, varicosities, and neuronal somata. Two groups of stained neurons were of particular interest. One was the S cells, a group comprised of many small neurons, the majority of which were stained. HPLC of pooled labeled S cells confirmed that at least some of these neurons synthesize FMRFamide. The other group of stained neurons were in the ventral cluster, a group comprised of a small number of large neurons, many of which are motor neurons that innervate the buccal muscles involved in producing biting and swallowing movements. Several of the ventral neurons were previously shown to contain 2 other neuropeptides, the small cardioactive peptides SCPA and SCPB. These neurons are sufficiently large to permit HPLC analyses of the neuropeptides synthesized by individual neurons. This procedure confirmed that individual ventral neurons synthesized FMRFamide, or the SCPs, or all 3 peptides. The coexistence of FMRFamide and the SCPs in the same neuron was confirmed by simultaneous staining of sections from the buccal ganglia with a monoclonal antibody to the SCPs and an antiserum to FMRFamide. The coexistence of the 3 peptides in the same neuron was surprising in light of the observations that these peptides often have opposite biological activity. The ventral neurons are large and potentially identifiable as individuals. Thus, these neurons may be particularly useful for studying the physiological and behavioral roles of neuropeptides in generating complex behaviors.