Morphological response of axotomized septal neurons to nerve growth factor

Septal efferent fibers from the neurons in the medial septal nucleus are destroyed by fimbria-fornix aspirative lesion. In the present study we used quantitative morphometric techniques to evaluate the response of these axotomized septal neurons to a constant infusion of nerve growth factor (NGF). By 2 weeks following the lesion, approximately 75% of the cholinergic neurons had degenerated in the untreated rats. The remaining cholinergic neurons showed few signs of the effect of the lesion when stained for a polyclonal antibody to ChAT and examined in 40-micron-thick sections. In 1-micron-thick sections the remaining ChAT-immunoreactive (IR) neurons also appeared no different from the intact ChAT neurons. However, non-ChAT-IR neurons had a shrunken nucleus, while all other morphometric parameters appeared normal. NGF infusion protected most of the ChAT-IR neurons from degenerating. The saved neurons had the same parameters as the undamaged ChAT-IR neurons when examined in either 40-micron- or 1-micron-thick sections. In addition, the shrunken appearance of the non-ChAT-IR neurons' nuclei was avoided by the NGF infusions. Enlarged ChAT-IR processes were evident in the dorsolateral quadrant of the septum following damage to the fimbria-fornix. NGF-infusions prevented the formation of these processes. Instead, in the treated animals the dorsal lateral quadrant contained a dense plexus of fine ChAT-IR varicosities. Taken together these results demonstrate that NGF not only can protect the cholinergic neurons from axotomy-induced degeneration but can also cause the saved neurons to maintain the same morphometric appearance as intact ChAT-IR neurons.(ABSTRACT TRUNCATED AT 250 WORDS)