A comparison of the distributions of eight peptides in spinal cord from normal controls and cases of motor neurone disease with special reference to Onuf's nucleus

Abstract

The distributions of 8 peptides were studied in the 4 major segmental levels (cervical, thoracic, lumbar, sacral) of the spinal cord in 52 neurologically normal cases. Similar regions from 36 cases of motor neurone disease (MND) were compared using the same procedures to determine possible changes in the distribution of peptides in areas associated with sensory, motor and autonomic function. In normal spinal cords, calcitonin gene-related peptide (CGRP)-, the C-flanking peptide of neuropeptide Y (CPON)-, enkephalin-, galanin-, neurokinin-like-, somatostatin- and vasoactive intestinal polypeptide (VIP)-immunoreactive fibres were abundant in the dorsal horn. Numerous somatostatin-immunoreactive cell bodies were also present. In the ventral horn, immunoreactive fibres were less abundant. Most motoneurones were closely apposed by fibres immunoreactive for enkephalin, neurokinin, somatostatin and thyrotrophin-releasing hormone (TRH). A subpopulation of motoneurones, most notable in lumbar segments, displayed CGRP immunoreactivity. In common with autonomic nuclei, Onuf's nucleus, which is thought to innervate perineal striated muscle and external urethral and anal sphincters, was densely innervated with CPON-, enkephalin-, and in particular somatostatin-immunoreactive fibres, thus suggesting Onuf's nucleus may have an autonomic component. In the diseased cords, there was a reduction in the area of the ventral horn and numbers of motoneurones as revealed by conventional histological staining and immunostaining of neurofilament triplet proteins. No changes in the distribution of peptides was noted in the dorsal horn or autonomic nuclei. By contrast, in the ventral horn, neurokinin-, enkephalin-, somatostatin- and TRH-immunoreactive fibres, which are normally found associated with motoneurones, were absent. Therefore, not only are motoneurones lost in MND, but also the fibres which innervate them. CGRP-immunoreactive motoneurones were not observed, a finding consistent with the proposed role of this peptide as a muscle-trophic factor. In contrast to the large motoneurone groups in the ventral horn, the neuronal integrity of Onuf's nucleus and the peptides associated with it were spared. These data further imply that Onuf's nucleus is not a typical motor nucleus and it is not purely somatic. The coincident loss of peptide immunoreactivity and motoneurones from the large motor nuclei and sparing of Onuf's nucleus and its peptide-containing constituents in the diseased state suggests that peptides contribute to maintenance of neural integrity.