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Nuclear parcellation and numbers of orexinergic neurons in five species of larger brained birds

The orexinergic/hypocretinergic system, while having several roles, appears to be a key link in the balance between arousal and food intake. In birds, to date, this system has only been examined anatomically in four species, all with brains smaller than 3.5 g and of limited phylogenetic range. Here,...

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Bibliographic Details
Published in:Journal of comparative neurology (1911) 2024-03, Vol.532 (3), p.e25602-n/a
Main Authors: Mazengenya, Pedzisai, Spocter, Muhammad A., Manger, Paul R.
Format: Article
Language:English
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Summary:The orexinergic/hypocretinergic system, while having several roles, appears to be a key link in the balance between arousal and food intake. In birds, to date, this system has only been examined anatomically in four species, all with brains smaller than 3.5 g and of limited phylogenetic range. Here, using orexin‐A immunohistochemistry, we describe the distribution, morphology, and nuclear parcellation of orexinergic neurons within the hypothalami of a Congo gray and a Timneh gray parrot, a pied crow, an emu, and a common ostrich. These birds represent a broad phylogeny, with brains ranging in size from 7.85 to 26.5 g. Within the hypothalami of the species studied, the orexinergic neurons were organized in two clusters, and a densely packed paraventricular hypothalamic nucleus cluster located within the medial hypothalamus (Hyp), but not contacting the ventricle, and a more loosely packed lateral hypothalamic cluster in the lateral Hyp. Stereological analysis revealed a strong correlation, using phylogenetic generalized least squares regression analyses, between brain mass and the total number of orexinergic neurons, as well as soma parameters such as volume and area. Orexinergic axonal terminals evinced two types of boutons, larger and the smaller en passant boutons. Unlike the orexinergic system in mammals, which has several variances in cluster organization, that of the birds studied, in the present and previous studies, currently shows organizational invariance, despite the differences in brain and body mass, phylogenetic relationships, and life‐histories of the species studied. Immunohistochemical staining for orexin‐A reveals the orexinergic neuronal population in the hypothalamus of the Congo gray parrot. The arrangement of orexinergic neurons in the avian hypothalamus shows distinct conservation across avian species, unlike the variance noted in mammals.
ISSN:0021-9967
1096-9861
DOI:10.1002/cne.25602