Neurochemical Studies of Human Narcolepsy: Alpha-Adrenergic Receptor Autoradiography of Human Narcoleptic Brain and Brainstem

Abstract

Studies of human and canine narcolepsy-cataplexy syndrome suggest that noradrenergic function may be abnormal. We used quantitative autoradiography to assess noradrenergic alpha-1 and alpha-2 receptors in several regions of seven human narcoleptic and 18 control brains using [3H]prazosin to evaluate alpha-1 receptors, and [3H]UK14304 and [3H]rauwolscine to evaluate alpha-2 receptors. Specific blocking agents were used in combination with the tritiated ligands to assess alpha-1 and alpha-2 receptor subtypes. Although we found few statistically significant differences between narcoleptic and control brains, there were a number of trends. [3H]Prazosin binding to sites in the amygdala, globus pallidus and putamen was reduced by 22-68%, whereas binding was increased by 40% to the inferior olive and by 84% to portions of the dorsal pons. Binding was similar to control values in other regions. In all seven brainstem regions that were evaluated, the ratio of alpha-1b receptor binding to alpha-1a receptor binding was increased. Binding of [3H]UK14304 was increased by 35-74% in the caudate nucleus, putamen and portions of the amygdala and pons. [3H]rauwolscine binding data suggested that increase of alpha-2 receptor binding in the dorsal pons were not due to effects at the imidazole receptor. findings suggest that noradrenergic function may be altered in specific regions of the brain and brainstem in human narcolepsy, although the absence of statistical significance indicates that these trends should be considered preliminary. The trend toward a relative increase of alpha-1b receptor binding in narcoleptic brainstem is consistent with data from studies of canine narcolepsy and suggests that altered activity at this receptor may contribute to the pathogenesis of human narcolepsy. Studies of additional brains will be required to confirm these findings.