In Aplysia, cells are reported to m

In Aplysia, cells are reported to migrate into the central nervous system from the ectodermal layer (Jacob, 1984), but growth of the procerebrum in H. aspersa appears to depend on an internal proliferation of neurons. Zakharov et al. (1998) suggested that during early development the cerebral tube is a source of cells that form neurons in the procerebrum of Helix lucorum, although they refer to it as a nerve on the basis of early anatomical examinations of Helix (Schmalz, 1914). As growth occurs at the apex, the cerebral tube is displaced posteriorly away from the apex. Several weeks after hatching, dividing cells begin to arrive at the procerebrum from the olfactory and peritentacular nerves. Rows of cells that appear to enter the procerebrum from the olfactory nerve suggest that they form the columns of neurons reported in the procerebrum (Zaitseva, 2000). Cells in the peritentacular nerve merge with the apex of the procerebrum when growth at the procerebral apex begins to accelerate at about 40 days post-hatch. The lack of immunoreactivity to peptidergic neurotransmitters in the apex indicates that differentiation of these cells is delayed. These results suggest that cells are migrating into the procerebrum from the peritentacular and olfactory nerves, but experiments with BrdU or other labeling methods will be necessary to confirm this.

There is a strong homology between the procerebrum of H. aspersa and the procerebrum of Limax maximus. The procerebrum of L. maximus is rotated 90° relative to that of H. aspersa and extends laterally adjacent to the cerebral ganglion instead of paralleling the olfactory nerve. As a consequence, in L. maximus the cerebral tube enters the procerebral apex at its posterior, lateral edge, near the cerebral ganglion. After hatching, a cavity that is bordered by mitotic cells and is connected to the cerebral tube extends across the apex (Fig. 9A). As in H. aspersa, cells at the apex near this cavity do not show immunoreactivity to peptidergic neurotransmitters (R. D. Longley, unpubl. obs.). This cavity is similar to that seen connected in older H. aspersa to the cerebral tube (Fig. 3B, C). In pre-hatch L. maximus, this cavity also extends along the anterior edge of the procerebrum (Fig. 9B). During pre-hatch development, mitotic cells border the length of the cavity