Vocal practice regulates singing activity-dependent genes underlying age-independent vocal learning in songbirds

Hayase Shin; Wang Hongdi; Ohgushi Eri; Kobayashi Masahiko; Mori Chihiro; Horita Haruhito; Mineta Katsuhiko; Liu Wan-chun; Wada Kazuhiro

Title	en Vocal practice regulates singing activity-dependent genes underlying age-independent vocal learning in songbirds
Creator	en Hayase, Shin en Wang, Hongdi en Ohgushi, Eri en Kobayashi, Masahiko en Mori, Chihiro en Horita, Haruhito en Mineta, Katsuhiko NRID 1000040374615 en Liu, Wan-chun en Wada, Kazuhiro NRID 1000070451408
Accessrights	open access
Rights	https://creativecommons.org/licenses/by/4.0/ en Creative Commons Attribution 4.0 International
Subject	Other en Bird song Other en Birds Other en Neuronal dendrites Other en Learning Other en Syllables Other en Gene regulation Other en Zebra finch Other en Bird genetics NDC 480
Description	Abstract en The development of highly complex vocal skill, like human language and bird songs, is underlain by learning. Vocal learning, even when occurring in adulthood, is thought to largely depend on a sensitive/critical period during postnatal development, and learned vocal patterns emerge gradually as the long-term consequence of vocal practice during this critical period. In this scenario, it is presumed that the effect of vocal practice is thus mainly limited by the intrinsic timing of age-dependent maturation factors that close the critical period and reduce neural plasticity. However, an alternative, as-yet untested hypothesis is that vocal practice itself, independently of age, regulates vocal learning plasticity. Here, we explicitly discriminate between the influences of age and vocal practice using a songbird model system. We prevented zebra finches from singing during the critical period of sensorimotor learning by reversible postural manipulation. This enabled to us to separate lifelong vocal experience from the effects of age. The singing-prevented birds produced juvenile-like immature song and retained sufficient ability to acquire a tutored song even at adulthood when allowed to sing freely. Genome-wide gene expression network analysis revealed that this adult vocal plasticity was accompanied by an intense induction of singing activity-dependent genes, similar to that observed in juvenile birds, rather than of age-dependent genes. The transcriptional changes of activity-dependent genes occurred in the vocal motor robust nucleus of the arcopallium (RA) projection neurons that play a critical role in the production of song phonology. These gene expression changes were accompanied by neuroanatomical changes: dendritic spine pruning in RA projection neurons. These results show that self-motivated practice itself changes the expression dynamics of activity-dependent genes associated with vocal learning plasticity and that this process is not tightly linked to age-dependent maturational factors.
Publisher	en PLOS
Date	Issued2018-09
Language	eng
Resource Type	journal article
Version Type	VoR
Identifier	HDL http://hdl.handle.net/2115/73008
Relation	isIdenticalTo DOI https://doi.org/10.1371/journal.pbio.2006537
Journal	PISSN 1545-7885 en PLoS biology Volume Number16 Issue Number9 Page Starte2006537
File	fulltext journal.pbio.2006537.pdf 10.43 MB (application/pdf) Issued2018-09
Oaidate	2023-07-26