Neuronal background of positioning of the posterior tentacles in the snail Helix pomatia.

The location of cerebral neurons innervating the three recently described flexor muscles involved in the orientation of the posterior tentacles was investigated by applying parallel retrograde Co- and Ni-lysine tracing via the olfactory and the peritentacular nerves. Their innervation patterns in the flexor muscles were studied by applying anterograde neurobiotin tracings via these nerves. The labeled neurons are clustered in eight groups in the cerebral ganglion. They send both common and distinct innervation pathways to the flexor and the tegumental muscles and to the tentacular retractor muscle. The common pathway reaches the muscles via the olfactory nerve, whereas the distinct pathways innervate via the internal and external peritentacular nerves. The three anchoring points of the three flexor muscles at the base of the tentacle outline the directions of three force vectors generated by the contraction of the muscles and enable the protracted tentacle to bend around a basal pivot. In the light of earlier physiological and the present anatomical findings, we suggest that the common innervation pathway to the muscles is required for tentacle withdrawal and the retractor mechanism, whereas the distinct pathways primarily serve the bending of the protracted posterior tentacles during foraging.