We present the clinical, molecular genetic and neuropathological findings of an 81-year-old man with concurrent Huntington's disease (HD) and familial amyotrophic lateral sclerosis (FALS). His mother had been diagnosed clinically as having ALS. There was no known family history of HD, but a maternal uncle had died in a chronic care psychiatric hospital. The diagnosis of HD in the patient was suspected at age 66, after 8 years of personality change, hallucinations, agitation, cognitive decline and choreoathetosis. No symptoms of motor neuron disease were noticed at that time, but progressive weakness developed later. Postmortem examination revealed cerebral atrophy, marked atrophy of basal ganglia (grade 3), and atrophy of brain stem and spinal cord. The neostriatum displayed massive neuronal loss and gliosis. The neocortex showed changes characteristic of Alzheimer's disease. Pathological lesions also included loss of neurons and gliosis in the anterior horns, Clarke's columns and the hypoglossal nuclei; degeneration of the lateral corticospinal tracts, dorsal spinocerebellar tracts and fasciculus gracilis; and rare Bunina bodies and ubiquitin-positive filamentous skeins in motor-neuron perikarya. Molecular analysis demonstrated chromosome 4p16.3 expansion of trinucleotide repeats characteristic of HD. Analysis of Cu,Zn superoxide dismutase gene and heavy neurofilament subunit gene failed to demonstrate mutations. The concurrence of HD and FALS in our patient and three previously reported cases did not appear to be associated with cosegregation in other family members.
The present studies in the rat employed a combined retrograde transport-immunocytochemical technique to determine the origin in the brainstem of enkephalin (Enk) projections to spinal sympathetic nuclei, including the intermediolateralis nucleus, pars principalis (ILp). We found that Enk projections to the ILp nucleus are found in such serotonergic-containing areas as the raphe obscurus; raphe pallidus; gigantocellular reticular nucleus, pars alpha; paragigantocellular lateral nucleus; raphe magnus; and the rostral extension of the raphe magnus nucleus. The adrenergic-containing rostroventrolateral reticular nucleus as well as the noradrenergic-containing areas A5, A7, ventral locus coeruleus, subcoeruleus, and fiber pathway linking the locus coeruleus and A5/A7 send Enk projections to ILp. In the pons, a large contralateral Enk projection to spinal sympathetic nuclei was found medial to the facial nerve and medial to the motor nucleus of the trigeminal nerve. These observations show the existence of a large number of Enk brainstem regions that can influence spinal autonomic centers via descending supraspinal projections.
Enkephalin distribution was examined in autonomic areas of the rat thoracic spinal cord. The localization of enkephalin fibers coincided with nuclear regions containing sympathetic preganglionic neurons. Horizontal sections revealed a pattern for enkephalin fibers resembling Laruelle's description of the localization of sympathetic preganglionic neurons as rungs of a ladder.
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