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Serotonin innervation of human basal ganglia.

Publication Type:

Journal Article

Source:

Eur J Neurosci, Volume 33, Issue 8, p.1519-32 (2011)

Keywords:

Adult, Aged, Aged, 80 and over, Basal Ganglia, Dopamine, Female, Humans, Immunohistochemistry, Male, Middle Aged, Neural Pathways, Neurons, Serotonin, Serotonin Plasma Membrane Transport Proteins, Tyrosine 3-Monooxygenase, Young Adult

Abstract:

<p>This study aimed to provide a first detailed description of the serotonin (5-hydroxytryptamine, 5-HT) innervation of the human basal ganglia under nonpathological conditions. We applied an immunohistochemical approach to postmortem human brain material with antibodies directed against the 5-HT transporter and the 5-HT-synthesizing enzyme (tryptophane hydroxylase) to visualize 5-HT axons and cell bodies, respectively. Adjacent sections were immunostained for tyrosine hydroxylase to compare the distribution of 5-HT axons with that of dopamine axons. Human basal ganglia are innervated by 5-HT axons that emerge chiefly from the dorsal and, less abundantly, from the median raphe nuclei. These axons form thick ascending fascicles that fragment themselves as they penetrate the decussation of the superior cerebellar peduncle. They regroup within the ventral tegmental area and ascend along the medial forebrain bundle, immediately beneath the dopamine ascending fibers. At regular intervals along their course, 5-HT axons detach themselves from the medial forebrain bundle and sweep laterally to arborize within all basal ganglia components, where they display highly variable densities and patterns of innervation. The substantia nigra is the most densely innervated component of the basal ganglia, whereas the caudate nucleus is more heterogeneously innervated than the putamen and pallidum. The subthalamic nucleus harbors 5-HT-immunoreactive fibers that display a mediolateral-decreasing gradient. The fact that all components of human basal ganglia receive a dense 5-HT input indicates that, in concert with dopamine, 5-HT plays a crucial role in the functional organization of these motor-related structures, which are often targeted in neurodegenerative diseases.</p>

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