Morphological correlates of neural regeneration in the feeding system ofAplysia californica after central nervous system lesions

Abstract

Morphological techniques were used to study regeneration of central neural pathways involved in feeding behavior following bilateral crushes of the cerebral-buccal connectives (CBCs). Electron microscopic analysis revealed that CBC crushes completely transect axons within the nerve core while leaving a remnant of the nerve sheath intact. Changes in the ultrastructure of the CBCs at the crush site were determined for 1, 7, 14, 21, and 50 days postlesion. At 1 day postlesion, the crush site was no longer compressed, and the nerve core had assumed a circular shape. In addition, several small axon profiles were evident, and large areas of tissue debris and prominent microglial cells were observed. Membranous debris and hemocytes were also present in sinuses that appeared in the sheath adjacent to the crush site. From 7 to 50 days postlesion, the core of the nerve at the crush site increased in size due to the addition of small diameter axons. Initially, the sheath surrounding the crush site exhibited hyperplasia and contained a few small bundles of processes, apparently due to newly sprouted axons that had strayed from the nerve core. By 50 days postlesion, the crush site appeared nearly normal; the nerve core was reacquiring the normal radial pattern of axon profiles with some medium-sized axon profiles covered with glial sheath and exhibiting invaginations typical of the intact CBC. However, there was still a distinct lack of large diameter axons. Cobalt backfills across the crush site revealed neurons in the cerebral ganglion by postlesion day 9. Positions of stained cell bodies were consistent with those observed in controls, although the numbers of stained neurons did not recover to control levels even by postlesion day 63. The changes in the crush site and return of cell body staining with time postlesion are correlated with the recovery of consummatory feeding.