Sex differences in myelination of the zebra finch vocal control system emerge relatively late in development

The role of myelination in the development of motor control is widely known, but its role in the development of cognitive abilities is less understood. Here, we examined sex differences in the development of myelination of structures and tracts that support song learning and production in songbirds....

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Published inDevelopmental neurobiology (Hoboken, N.J.) Vol. 82; no. 7-8; pp. 581 - 595
Main Authors Diez, Adriana, Wang, Shenghan, Carfagnini, Nicole, MacDougall‐Shackleton, Scott A.
Format Journal Article
LanguageEnglish
Published United States Wiley Subscription Services, Inc 01.10.2022
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Abstract The role of myelination in the development of motor control is widely known, but its role in the development of cognitive abilities is less understood. Here, we examined sex differences in the development of myelination of structures and tracts that support song learning and production in songbirds. We collected brains from 63 young male and female zebra finches (Taeniopygia guttata) over four stages of development that correspond to different stages of song learning. Using a myelination marker (myelin basic protein), we measured the development of myelination in three different nuclei of the vocal control system (HVC, RA, and lateral magnocellular nucleus of the anterior nidopallium [LMAN]) and two tracts (HVC‐RA and lamina mesopallium ventralis [LMV]). We found that the myelination of the vocal control nuclei and tracts is sex related and male biased. In males, the patterns of myelination were age‐dependent, asynchronous in rate and progression and associated with the development of song learning and production. In females, myelination of vocal control nuclei was low or absent and did not significantly change with age. Sex differences in myelination of the HVC‐RA tract were large and emerged late in development well after sex differences in the size of vocal control brain regions are established. Myelination of this tract in males coincides with the age of song crystallization. Overall, the changes in myelination in the vocal control areas and tracts measured are region‐, age‐, and sex‐specific and are consistent with sex differences in song development.
AbstractList The role of myelination in the development of motor control is widely known, but its role in the development of cognitive abilities is less understood. Here, we examined sex differences in the development of myelination of structures and tracts that support song learning and production in songbirds. We collected brains from 63 young male and female zebra finches (Taeniopygia guttata) over four stages of development that correspond to different stages of song learning. Using a myelination marker (myelin basic protein), we measured the development of myelination in three different nuclei of the vocal control system (HVC, RA, and lateral magnocellular nucleus of the anterior nidopallium [LMAN]) and two tracts (HVC-RA and lamina mesopallium ventralis [LMV]). We found that the myelination of the vocal control nuclei and tracts is sex related and male biased. In males, the patterns of myelination were age-dependent, asynchronous in rate and progression and associated with the development of song learning and production. In females, myelination of vocal control nuclei was low or absent and did not significantly change with age. Sex differences in myelination of the HVC-RA tract were large and emerged late in development well after sex differences in the size of vocal control brain regions are established. Myelination of this tract in males coincides with the age of song crystallization. Overall, the changes in myelination in the vocal control areas and tracts measured are region-, age-, and sex-specific and are consistent with sex differences in song development.
The role of myelination in the development of motor control is widely known, but its role in the development of cognitive abilities is less understood. Here, we examined sex differences in the development of myelination of structures and tracts that support song learning and production in songbirds. We collected brains from 63 young male and female zebra finches ( Taeniopygia guttata ) over four stages of development that correspond to different stages of song learning. Using a myelination marker (myelin basic protein), we measured the development of myelination in three different nuclei of the vocal control system (HVC, RA, and lateral magnocellular nucleus of the anterior nidopallium [LMAN]) and two tracts (HVC‐RA and lamina mesopallium ventralis [LMV]). We found that the myelination of the vocal control nuclei and tracts is sex related and male biased. In males, the patterns of myelination were age‐dependent, asynchronous in rate and progression and associated with the development of song learning and production. In females, myelination of vocal control nuclei was low or absent and did not significantly change with age. Sex differences in myelination of the HVC‐RA tract were large and emerged late in development well after sex differences in the size of vocal control brain regions are established. Myelination of this tract in males coincides with the age of song crystallization. Overall, the changes in myelination in the vocal control areas and tracts measured are region‐, age‐, and sex‐specific and are consistent with sex differences in song development.
Author Carfagnini, Nicole
Diez, Adriana
MacDougall‐Shackleton, Scott A.
Wang, Shenghan
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  givenname: Shenghan
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  givenname: Scott A.
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Snippet The role of myelination in the development of motor control is widely known, but its role in the development of cognitive abilities is less understood. Here,...
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SubjectTerms Age
Animals
birdsong
Brain - metabolism
Cognitive ability
Crystallization
Developmental stages
Female
Finches
Gender differences
HVC
Learning
Male
Males
Motor task performance
Myelin basic protein
Myelination
Sex Characteristics
Sex differences
sexual dimorphism
Song control nuclei
Taeniopygia guttata
Vocalization, Animal
zebra finch
Title Sex differences in myelination of the zebra finch vocal control system emerge relatively late in development
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fdneu.22900
https://www.ncbi.nlm.nih.gov/pubmed/36207011
https://www.proquest.com/docview/2738566660
https://search.proquest.com/docview/2723161537
Volume 82
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