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Differences in Vocal Brain Areas and Astrocytes Between the House Wren and the Rufous-tailed Hummingbird

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Journal Front Neuroanat
Date 2024 Apr 11
PMID 38601797
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Abstract

The house wren shows complex song, and the rufous-tailed hummingbird has a simple song. The location of vocal brain areas supports the song's complexity; however, these still need to be studied. The astrocytic population in songbirds appears to be associated with change in vocal control nuclei; however, astrocytic distribution and morphology have not been described in these species. Consequently, we compared the distribution and volume of the vocal brain areas: HVC, RA, Area X, and LMAN, cell density, and the morphology of astrocytes in the house wren and the rufous-tailed hummingbird. Individuals of the two species were collected, and their brains were analyzed using serial Nissl- NeuN- and MAP2-stained tissue scanner imaging, followed by 3D reconstructions of the vocal areas; and GFAP and S100β astrocytes were analyzed in both species. We found that vocal areas were located close to the cerebral midline in the house wren and a more lateralized position in the rufous-tailed hummingbird. The LMAN occupied a larger volume in the rufous-tailed hummingbird, while the RA and HVC were larger in the house wren. While Area X showed higher cell density in the house wren than the rufous-tailed hummingbird, the LMAN showed a higher density in the rufous-tailed hummingbird. In the house wren, GFAP astrocytes in the same bregma where the vocal areas were located were observed at the laminar edge of the pallium (LEP) and in the vascular region, as well as in vocal motor relay regions in the pallidum and mesencephalon. In contrast, GFAP astrocytes were found in LEP, but not in the pallidum and mesencephalon in hummingbirds. Finally, when comparing GFAP astrocytes in the LEP region of both species, house wren astrocytes exhibited significantly more complex morphology than those of the rufous-tailed hummingbird. These findings suggest a difference in the location and cellular density of vocal circuits, as well as morphology of GFAP astrocytes between the house wren and the rufous-tailed hummingbird.

References
1.
Kafitz K, Guttinger H, Muller C . Seasonal changes in astrocytes parallel neuronal plasticity in the song control area HVc of the canary. Glia. 1999; 27(1):88-100. View

2.
Brenowitz E, Larson T . Neurogenesis in the adult avian song-control system. Cold Spring Harb Perspect Biol. 2015; 7(6). PMC: 4448602. DOI: 10.1101/cshperspect.a019000. View

3.
Smith Y, Kieval J . Anatomy of the dopamine system in the basal ganglia. Trends Neurosci. 2000; 23(10 Suppl):S28-33. DOI: 10.1016/s1471-1931(00)00023-9. View

4.
Nottebohm F, Stokes T, Leonard C . Central control of song in the canary, Serinus canarius. J Comp Neurol. 1976; 165(4):457-86. DOI: 10.1002/cne.901650405. View

5.
Roberts T, Mooney R . Motor circuits help encode auditory memories of vocal models used to guide vocal learning. Hear Res. 2013; 303:48-57. PMC: 3689868. DOI: 10.1016/j.heares.2013.01.009. View