Comparative mapping of serotonin‐immunoreactive neurons in the central nervous systems of nudibranch molluscs

The serotonergic systems in nudibranch molluscs were compared by mapping the locations of serotonin‐immunoreactive (5‐HT‐ir) neurons in 11 species representing all four suborders of the nudibranch clade: Dendronotoidea ( Tritonia diomedea , Tochuina tetraquetra , Dendronotus iris , Dendronotus frondosus , and Melibe leonina ), Aeolidoidea ( Hermissenda crassicornis and Flabellina trophina ), Arminoidea ( Dirona albolineata , Janolus fuscus , and Armina californica ), and Doridoidea ( Triopha catalinae ). A nomenclature is proposed to standardize reports of cell location in species with differing brain morphologies. Certain patterns of 5‐HT immunoreactivity were found to be consistent for all species, such as the presence of 5‐HT‐ir neurons in the pedal and cerebral ganglia. Also, particular clusters of 5‐HT‐ir neurons in the anterior and posterior regions of the dorsal surface of the cerebral ganglion were always present. However, there were interspecies differences in the number of 5‐HT‐ir neurons in each cluster, and some clusters even exhibited strong intraspecies variability that was only weakly correlated with brain size. Phylogenetic analysis suggests that the presence of particular classes of 5‐HT‐ir neurons exhibits a great deal of homoplasy. The conserved features of the nudibranch serotonergic system presumably represent the shared ancestral structure, whereas the derived characters suggest substantial independent evolutionary changes in the number and presence of serotonergic neurons. Although a number of studies have demonstrated phylogenetic variability of peptidergic systems, this study suggests that serotonergic systems may also exhibit a high degree of homoplasy in some groups of organisms. J. Comp. Neurol. 499:485–505, 2006. © 2006 Wiley‐Liss, Inc.