FoxP2 protein decreases at a specific region in the chick midbrain after hatching

•FoxP2 expression in the midbrain was examined in pre- and post-hatched chicks.•Foxp2 protein was decreased in the chick midbrain after hatching.•FoxP2-expressing cells were decreased in the SGFS of the midbrain after hatching. Forkhead-box subclass P member 2 (FOXP2/FoxP2) protein, a transcription...

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Veröffentlicht in:Neuroscience letters 2023-03, Vol.800, p.137119-137119, Article 137119
Hauptverfasser: Bessho, Chikafusa, Yamada, Shunji, Tanida, Takashi, Tanaka, Masaki
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Sprache:eng
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Zusammenfassung:•FoxP2 expression in the midbrain was examined in pre- and post-hatched chicks.•Foxp2 protein was decreased in the chick midbrain after hatching.•FoxP2-expressing cells were decreased in the SGFS of the midbrain after hatching. Forkhead-box subclass P member 2 (FOXP2/FoxP2) protein, a transcription factor, regulates the development of certain brain functions, including human speech and animal vocalization. Although rapid progress has been made in demonstrating a relationship between FoxP2 expression in the brain and vocalization of the zebra finch, a typical vocal learner, the relationship in avian vocal non-learners, including chickens remains elusive. Because the midbrain plays a key role in innate vocalization development, we analyzed the FoxP2 protein in the midbrain of chicks, which do not cheep before hatching but cheep and call after hatching. Western blot analyses showed a significant reduction in FoxP2 protein in the chick midbrain after hatching compared with the findings before hatching. Quantitative immunohistochemistry revealed that FoxP2-immunoreactive (ir) cells significantly decreased at the stratum gris fibrosum (SGFS) of the optic tectum in the chick midbrain after hatching compared with the findings before hatching. These findings support the notion that FoxP2-ir cell numbers decrease at a specific region in the midbrain after hatching may be involved in innate vocalization of avian vocal non-learners.
ISSN:0304-3940
1872-7972
DOI:10.1016/j.neulet.2023.137119